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LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** DP_EXPLUT20.VHD *** --*** *** --*** Function: Look Up Table - EXP() *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 18/02/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY dp_explut20 IS PORT ( add : IN STD_LOGIC_VECTOR (10 DOWNTO 1); manhi : OUT STD_LOGIC_VECTOR (24 DOWNTO 1); manlo : OUT STD_LOGIC_VECTOR (28 DOWNTO 1) ); END dp_explut20; ARCHITECTURE rtl OF dp_explut20 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "0000000000" => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); WHEN "0000000001" => manhi <= conv_std_logic_vector(16,24); manlo <= conv_std_logic_vector(2048,28); WHEN "0000000010" => manhi <= conv_std_logic_vector(32,24); manlo <= conv_std_logic_vector(8192,28); WHEN "0000000011" => manhi <= conv_std_logic_vector(48,24); manlo <= conv_std_logic_vector(18432,28); WHEN "0000000100" => manhi <= conv_std_logic_vector(64,24); manlo <= conv_std_logic_vector(32768,28); WHEN "0000000101" => manhi <= conv_std_logic_vector(80,24); manlo <= conv_std_logic_vector(51200,28); WHEN "0000000110" => manhi <= conv_std_logic_vector(96,24); manlo <= conv_std_logic_vector(73728,28); WHEN "0000000111" => manhi <= conv_std_logic_vector(112,24); manlo <= conv_std_logic_vector(100352,28); WHEN "0000001000" => manhi <= conv_std_logic_vector(128,24); manlo <= conv_std_logic_vector(131072,28); WHEN "0000001001" => manhi <= conv_std_logic_vector(144,24); manlo <= conv_std_logic_vector(165888,28); WHEN "0000001010" => manhi <= conv_std_logic_vector(160,24); manlo <= conv_std_logic_vector(204801,28); WHEN "0000001011" => manhi <= conv_std_logic_vector(176,24); manlo <= conv_std_logic_vector(247809,28); WHEN "0000001100" => manhi <= conv_std_logic_vector(192,24); manlo <= conv_std_logic_vector(294913,28); WHEN "0000001101" => manhi <= conv_std_logic_vector(208,24); manlo <= conv_std_logic_vector(346113,28); WHEN "0000001110" => manhi <= conv_std_logic_vector(224,24); manlo <= conv_std_logic_vector(401410,28); WHEN "0000001111" => manhi <= conv_std_logic_vector(240,24); manlo <= conv_std_logic_vector(460802,28); WHEN "0000010000" => manhi <= conv_std_logic_vector(256,24); manlo <= conv_std_logic_vector(524291,28); WHEN "0000010001" => manhi <= conv_std_logic_vector(272,24); manlo <= conv_std_logic_vector(591875,28); WHEN "0000010010" => manhi <= conv_std_logic_vector(288,24); manlo <= conv_std_logic_vector(663556,28); WHEN "0000010011" => manhi <= conv_std_logic_vector(304,24); manlo <= conv_std_logic_vector(739332,28); WHEN "0000010100" => manhi <= conv_std_logic_vector(320,24); manlo <= conv_std_logic_vector(819205,28); WHEN "0000010101" => manhi <= conv_std_logic_vector(336,24); manlo <= conv_std_logic_vector(903174,28); WHEN "0000010110" => manhi <= conv_std_logic_vector(352,24); manlo <= conv_std_logic_vector(991239,28); WHEN "0000010111" => manhi <= conv_std_logic_vector(368,24); manlo <= conv_std_logic_vector(1083400,28); WHEN "0000011000" => manhi <= conv_std_logic_vector(384,24); manlo <= conv_std_logic_vector(1179657,28); WHEN "0000011001" => manhi <= conv_std_logic_vector(400,24); manlo <= conv_std_logic_vector(1280010,28); WHEN "0000011010" => manhi <= conv_std_logic_vector(416,24); manlo <= conv_std_logic_vector(1384459,28); WHEN "0000011011" => manhi <= conv_std_logic_vector(432,24); manlo <= conv_std_logic_vector(1493005,28); WHEN "0000011100" => manhi <= conv_std_logic_vector(448,24); manlo <= conv_std_logic_vector(1605646,28); WHEN "0000011101" => manhi <= conv_std_logic_vector(464,24); manlo <= conv_std_logic_vector(1722384,28); WHEN "0000011110" => manhi <= conv_std_logic_vector(480,24); manlo <= conv_std_logic_vector(1843218,28); WHEN "0000011111" => manhi <= conv_std_logic_vector(496,24); manlo <= conv_std_logic_vector(1968147,28); WHEN "0000100000" => manhi <= conv_std_logic_vector(512,24); manlo <= conv_std_logic_vector(2097173,28); WHEN "0000100001" => manhi <= conv_std_logic_vector(528,24); manlo <= conv_std_logic_vector(2230295,28); WHEN "0000100010" => manhi <= conv_std_logic_vector(544,24); manlo <= conv_std_logic_vector(2367514,28); WHEN "0000100011" => manhi <= conv_std_logic_vector(560,24); manlo <= conv_std_logic_vector(2508828,28); WHEN "0000100100" => manhi <= conv_std_logic_vector(576,24); manlo <= conv_std_logic_vector(2654238,28); WHEN "0000100101" => manhi <= conv_std_logic_vector(592,24); manlo <= conv_std_logic_vector(2803745,28); WHEN "0000100110" => manhi <= conv_std_logic_vector(608,24); manlo <= conv_std_logic_vector(2957348,28); WHEN "0000100111" => manhi <= conv_std_logic_vector(624,24); manlo <= conv_std_logic_vector(3115047,28); WHEN "0000101000" => manhi <= conv_std_logic_vector(640,24); manlo <= conv_std_logic_vector(3276842,28); WHEN "0000101001" => manhi <= conv_std_logic_vector(656,24); manlo <= conv_std_logic_vector(3442733,28); WHEN "0000101010" => manhi <= conv_std_logic_vector(672,24); manlo <= conv_std_logic_vector(3612720,28); WHEN "0000101011" => manhi <= conv_std_logic_vector(688,24); manlo <= conv_std_logic_vector(3786804,28); WHEN "0000101100" => manhi <= conv_std_logic_vector(704,24); manlo <= conv_std_logic_vector(3964983,28); WHEN "0000101101" => manhi <= conv_std_logic_vector(720,24); manlo <= conv_std_logic_vector(4147259,28); WHEN "0000101110" => manhi <= conv_std_logic_vector(736,24); manlo <= conv_std_logic_vector(4333631,28); WHEN "0000101111" => manhi <= conv_std_logic_vector(752,24); manlo <= conv_std_logic_vector(4524100,28); WHEN "0000110000" => manhi <= conv_std_logic_vector(768,24); manlo <= conv_std_logic_vector(4718664,28); WHEN "0000110001" => manhi <= conv_std_logic_vector(784,24); manlo <= conv_std_logic_vector(4917325,28); WHEN "0000110010" => manhi <= conv_std_logic_vector(800,24); manlo <= conv_std_logic_vector(5120081,28); WHEN "0000110011" => manhi <= conv_std_logic_vector(816,24); manlo <= conv_std_logic_vector(5326934,28); WHEN "0000110100" => manhi <= conv_std_logic_vector(832,24); manlo <= conv_std_logic_vector(5537884,28); WHEN "0000110101" => manhi <= conv_std_logic_vector(848,24); manlo <= conv_std_logic_vector(5752929,28); WHEN "0000110110" => manhi <= conv_std_logic_vector(864,24); manlo <= conv_std_logic_vector(5972071,28); WHEN "0000110111" => manhi <= conv_std_logic_vector(880,24); manlo <= conv_std_logic_vector(6195308,28); WHEN "0000111000" => manhi <= conv_std_logic_vector(896,24); manlo <= conv_std_logic_vector(6422642,28); WHEN "0000111001" => manhi <= conv_std_logic_vector(912,24); manlo <= conv_std_logic_vector(6654073,28); WHEN "0000111010" => manhi <= conv_std_logic_vector(928,24); manlo <= conv_std_logic_vector(6889599,28); WHEN "0000111011" => manhi <= conv_std_logic_vector(944,24); manlo <= conv_std_logic_vector(7129222,28); WHEN "0000111100" => manhi <= conv_std_logic_vector(960,24); manlo <= conv_std_logic_vector(7372941,28); WHEN "0000111101" => manhi <= conv_std_logic_vector(976,24); manlo <= conv_std_logic_vector(7620756,28); WHEN "0000111110" => manhi <= conv_std_logic_vector(992,24); manlo <= conv_std_logic_vector(7872667,28); WHEN "0000111111" => manhi <= conv_std_logic_vector(1008,24); manlo <= conv_std_logic_vector(8128675,28); WHEN "0001000000" => manhi <= conv_std_logic_vector(1024,24); manlo <= conv_std_logic_vector(8388779,28); WHEN "0001000001" => manhi <= conv_std_logic_vector(1040,24); manlo <= conv_std_logic_vector(8652979,28); WHEN "0001000010" => manhi <= conv_std_logic_vector(1056,24); manlo <= conv_std_logic_vector(8921275,28); WHEN "0001000011" => manhi <= conv_std_logic_vector(1072,24); manlo <= conv_std_logic_vector(9193668,28); WHEN "0001000100" => manhi <= conv_std_logic_vector(1088,24); manlo <= conv_std_logic_vector(9470157,28); WHEN "0001000101" => manhi <= conv_std_logic_vector(1104,24); manlo <= conv_std_logic_vector(9750742,28); WHEN "0001000110" => manhi <= conv_std_logic_vector(1120,24); manlo <= conv_std_logic_vector(10035423,28); WHEN "0001000111" => manhi <= conv_std_logic_vector(1136,24); manlo <= conv_std_logic_vector(10324201,28); WHEN "0001001000" => manhi <= conv_std_logic_vector(1152,24); manlo <= conv_std_logic_vector(10617075,28); WHEN "0001001001" => manhi <= conv_std_logic_vector(1168,24); manlo <= conv_std_logic_vector(10914045,28); WHEN "0001001010" => manhi <= conv_std_logic_vector(1184,24); manlo <= conv_std_logic_vector(11215112,28); WHEN "0001001011" => manhi <= conv_std_logic_vector(1200,24); manlo <= conv_std_logic_vector(11520275,28); WHEN "0001001100" => manhi <= conv_std_logic_vector(1216,24); manlo <= conv_std_logic_vector(11829534,28); WHEN "0001001101" => manhi <= conv_std_logic_vector(1232,24); manlo <= conv_std_logic_vector(12142889,28); WHEN "0001001110" => manhi <= conv_std_logic_vector(1248,24); manlo <= conv_std_logic_vector(12460341,28); WHEN "0001001111" => manhi <= conv_std_logic_vector(1264,24); manlo <= conv_std_logic_vector(12781889,28); WHEN "0001010000" => manhi <= conv_std_logic_vector(1280,24); manlo <= conv_std_logic_vector(13107533,28); WHEN "0001010001" => manhi <= conv_std_logic_vector(1296,24); manlo <= conv_std_logic_vector(13437274,28); WHEN "0001010010" => manhi <= conv_std_logic_vector(1312,24); manlo <= conv_std_logic_vector(13771111,28); WHEN "0001010011" => manhi <= conv_std_logic_vector(1328,24); manlo <= conv_std_logic_vector(14109044,28); WHEN "0001010100" => manhi <= conv_std_logic_vector(1344,24); manlo <= conv_std_logic_vector(14451074,28); WHEN "0001010101" => manhi <= conv_std_logic_vector(1360,24); manlo <= conv_std_logic_vector(14797200,28); WHEN "0001010110" => manhi <= conv_std_logic_vector(1376,24); manlo <= conv_std_logic_vector(15147422,28); WHEN "0001010111" => manhi <= conv_std_logic_vector(1392,24); manlo <= conv_std_logic_vector(15501741,28); WHEN "0001011000" => manhi <= conv_std_logic_vector(1408,24); manlo <= conv_std_logic_vector(15860156,28); WHEN "0001011001" => manhi <= conv_std_logic_vector(1424,24); manlo <= conv_std_logic_vector(16222667,28); WHEN "0001011010" => manhi <= conv_std_logic_vector(1440,24); manlo <= conv_std_logic_vector(16589275,28); WHEN "0001011011" => manhi <= conv_std_logic_vector(1456,24); manlo <= conv_std_logic_vector(16959979,28); WHEN "0001011100" => manhi <= conv_std_logic_vector(1472,24); manlo <= conv_std_logic_vector(17334779,28); WHEN "0001011101" => manhi <= conv_std_logic_vector(1488,24); manlo <= conv_std_logic_vector(17713676,28); WHEN "0001011110" => manhi <= conv_std_logic_vector(1504,24); manlo <= conv_std_logic_vector(18096669,28); WHEN "0001011111" => manhi <= conv_std_logic_vector(1520,24); manlo <= conv_std_logic_vector(18483758,28); WHEN "0001100000" => manhi <= conv_std_logic_vector(1536,24); manlo <= conv_std_logic_vector(18874944,28); WHEN "0001100001" => manhi <= conv_std_logic_vector(1552,24); manlo <= conv_std_logic_vector(19270226,28); WHEN "0001100010" => manhi <= conv_std_logic_vector(1568,24); manlo <= conv_std_logic_vector(19669605,28); WHEN "0001100011" => manhi <= conv_std_logic_vector(1584,24); manlo <= conv_std_logic_vector(20073080,28); WHEN "0001100100" => manhi <= conv_std_logic_vector(1600,24); manlo <= conv_std_logic_vector(20480651,28); WHEN "0001100101" => manhi <= conv_std_logic_vector(1616,24); manlo <= conv_std_logic_vector(20892319,28); WHEN "0001100110" => manhi <= conv_std_logic_vector(1632,24); manlo <= conv_std_logic_vector(21308083,28); WHEN "0001100111" => manhi <= conv_std_logic_vector(1648,24); manlo <= conv_std_logic_vector(21727943,28); WHEN "0001101000" => manhi <= conv_std_logic_vector(1664,24); manlo <= conv_std_logic_vector(22151900,28); WHEN "0001101001" => manhi <= conv_std_logic_vector(1680,24); manlo <= conv_std_logic_vector(22579954,28); WHEN "0001101010" => manhi <= conv_std_logic_vector(1696,24); manlo <= conv_std_logic_vector(23012103,28); WHEN "0001101011" => manhi <= conv_std_logic_vector(1712,24); manlo <= conv_std_logic_vector(23448350,28); WHEN "0001101100" => manhi <= conv_std_logic_vector(1728,24); manlo <= conv_std_logic_vector(23888692,28); WHEN "0001101101" => manhi <= conv_std_logic_vector(1744,24); manlo <= conv_std_logic_vector(24333131,28); WHEN "0001101110" => manhi <= conv_std_logic_vector(1760,24); manlo <= conv_std_logic_vector(24781667,28); WHEN "0001101111" => manhi <= conv_std_logic_vector(1776,24); manlo <= conv_std_logic_vector(25234298,28); WHEN "0001110000" => manhi <= conv_std_logic_vector(1792,24); manlo <= conv_std_logic_vector(25691027,28); WHEN "0001110001" => manhi <= conv_std_logic_vector(1808,24); manlo <= conv_std_logic_vector(26151851,28); WHEN "0001110010" => manhi <= conv_std_logic_vector(1824,24); manlo <= conv_std_logic_vector(26616773,28); WHEN "0001110011" => manhi <= conv_std_logic_vector(1840,24); manlo <= conv_std_logic_vector(27085790,28); WHEN "0001110100" => manhi <= conv_std_logic_vector(1856,24); manlo <= conv_std_logic_vector(27558904,28); WHEN "0001110101" => manhi <= conv_std_logic_vector(1872,24); manlo <= conv_std_logic_vector(28036115,28); WHEN "0001110110" => manhi <= conv_std_logic_vector(1888,24); manlo <= conv_std_logic_vector(28517422,28); WHEN "0001110111" => manhi <= conv_std_logic_vector(1904,24); manlo <= conv_std_logic_vector(29002825,28); WHEN "0001111000" => manhi <= conv_std_logic_vector(1920,24); manlo <= conv_std_logic_vector(29492325,28); WHEN "0001111001" => manhi <= conv_std_logic_vector(1936,24); manlo <= conv_std_logic_vector(29985921,28); WHEN "0001111010" => manhi <= conv_std_logic_vector(1952,24); manlo <= conv_std_logic_vector(30483614,28); WHEN "0001111011" => manhi <= conv_std_logic_vector(1968,24); manlo <= conv_std_logic_vector(30985404,28); WHEN "0001111100" => manhi <= conv_std_logic_vector(1984,24); manlo <= conv_std_logic_vector(31491289,28); WHEN "0001111101" => manhi <= conv_std_logic_vector(2000,24); manlo <= conv_std_logic_vector(32001272,28); WHEN "0001111110" => manhi <= conv_std_logic_vector(2016,24); manlo <= conv_std_logic_vector(32515350,28); WHEN "0001111111" => manhi <= conv_std_logic_vector(2032,24); manlo <= conv_std_logic_vector(33033526,28); WHEN "0010000000" => manhi <= conv_std_logic_vector(2048,24); manlo <= conv_std_logic_vector(33555797,28); WHEN "0010000001" => manhi <= conv_std_logic_vector(2064,24); manlo <= conv_std_logic_vector(34082166,28); WHEN "0010000010" => manhi <= conv_std_logic_vector(2080,24); manlo <= conv_std_logic_vector(34612630,28); WHEN "0010000011" => manhi <= conv_std_logic_vector(2096,24); manlo <= conv_std_logic_vector(35147192,28); WHEN "0010000100" => manhi <= conv_std_logic_vector(2112,24); manlo <= conv_std_logic_vector(35685849,28); WHEN "0010000101" => manhi <= conv_std_logic_vector(2128,24); manlo <= conv_std_logic_vector(36228604,28); WHEN "0010000110" => manhi <= conv_std_logic_vector(2144,24); manlo <= conv_std_logic_vector(36775455,28); WHEN "0010000111" => manhi <= conv_std_logic_vector(2160,24); manlo <= conv_std_logic_vector(37326402,28); WHEN "0010001000" => manhi <= conv_std_logic_vector(2176,24); manlo <= conv_std_logic_vector(37881446,28); WHEN "0010001001" => manhi <= conv_std_logic_vector(2192,24); manlo <= conv_std_logic_vector(38440586,28); WHEN "0010001010" => manhi <= conv_std_logic_vector(2208,24); manlo <= conv_std_logic_vector(39003823,28); WHEN "0010001011" => manhi <= conv_std_logic_vector(2224,24); manlo <= conv_std_logic_vector(39571157,28); WHEN "0010001100" => manhi <= conv_std_logic_vector(2240,24); manlo <= conv_std_logic_vector(40142587,28); WHEN "0010001101" => manhi <= conv_std_logic_vector(2256,24); manlo <= conv_std_logic_vector(40718113,28); WHEN "0010001110" => manhi <= conv_std_logic_vector(2272,24); manlo <= conv_std_logic_vector(41297736,28); WHEN "0010001111" => manhi <= conv_std_logic_vector(2288,24); manlo <= conv_std_logic_vector(41881456,28); WHEN "0010010000" => manhi <= conv_std_logic_vector(2304,24); manlo <= conv_std_logic_vector(42469272,28); WHEN "0010010001" => manhi <= conv_std_logic_vector(2320,24); manlo <= conv_std_logic_vector(43061185,28); WHEN "0010010010" => manhi <= conv_std_logic_vector(2336,24); manlo <= conv_std_logic_vector(43657194,28); WHEN "0010010011" => manhi <= conv_std_logic_vector(2352,24); manlo <= conv_std_logic_vector(44257300,28); WHEN "0010010100" => manhi <= conv_std_logic_vector(2368,24); manlo <= conv_std_logic_vector(44861503,28); WHEN "0010010101" => manhi <= conv_std_logic_vector(2384,24); manlo <= conv_std_logic_vector(45469802,28); WHEN "0010010110" => manhi <= conv_std_logic_vector(2400,24); manlo <= conv_std_logic_vector(46082197,28); WHEN "0010010111" => manhi <= conv_std_logic_vector(2416,24); manlo <= conv_std_logic_vector(46698690,28); WHEN "0010011000" => manhi <= conv_std_logic_vector(2432,24); manlo <= conv_std_logic_vector(47319278,28); WHEN "0010011001" => manhi <= conv_std_logic_vector(2448,24); manlo <= conv_std_logic_vector(47943964,28); WHEN "0010011010" => manhi <= conv_std_logic_vector(2464,24); manlo <= conv_std_logic_vector(48572746,28); WHEN "0010011011" => manhi <= conv_std_logic_vector(2480,24); manlo <= conv_std_logic_vector(49205624,28); WHEN "0010011100" => manhi <= conv_std_logic_vector(2496,24); manlo <= conv_std_logic_vector(49842600,28); WHEN "0010011101" => manhi <= conv_std_logic_vector(2512,24); manlo <= conv_std_logic_vector(50483672,28); WHEN "0010011110" => manhi <= conv_std_logic_vector(2528,24); manlo <= conv_std_logic_vector(51128840,28); WHEN "0010011111" => manhi <= conv_std_logic_vector(2544,24); manlo <= conv_std_logic_vector(51778105,28); WHEN "0010100000" => manhi <= conv_std_logic_vector(2560,24); manlo <= conv_std_logic_vector(52431467,28); WHEN "0010100001" => manhi <= conv_std_logic_vector(2576,24); manlo <= conv_std_logic_vector(53088925,28); WHEN "0010100010" => manhi <= conv_std_logic_vector(2592,24); manlo <= conv_std_logic_vector(53750480,28); WHEN "0010100011" => manhi <= conv_std_logic_vector(2608,24); manlo <= conv_std_logic_vector(54416132,28); WHEN "0010100100" => manhi <= conv_std_logic_vector(2624,24); manlo <= conv_std_logic_vector(55085880,28); WHEN "0010100101" => manhi <= conv_std_logic_vector(2640,24); manlo <= conv_std_logic_vector(55759725,28); WHEN "0010100110" => manhi <= conv_std_logic_vector(2656,24); manlo <= conv_std_logic_vector(56437666,28); WHEN "0010100111" => manhi <= conv_std_logic_vector(2672,24); manlo <= conv_std_logic_vector(57119704,28); WHEN "0010101000" => manhi <= conv_std_logic_vector(2688,24); manlo <= conv_std_logic_vector(57805839,28); WHEN "0010101001" => manhi <= conv_std_logic_vector(2704,24); manlo <= conv_std_logic_vector(58496071,28); WHEN "0010101010" => manhi <= conv_std_logic_vector(2720,24); manlo <= conv_std_logic_vector(59190399,28); WHEN "0010101011" => manhi <= conv_std_logic_vector(2736,24); manlo <= conv_std_logic_vector(59888823,28); WHEN "0010101100" => manhi <= conv_std_logic_vector(2752,24); manlo <= conv_std_logic_vector(60591345,28); WHEN "0010101101" => manhi <= conv_std_logic_vector(2768,24); manlo <= conv_std_logic_vector(61297963,28); WHEN "0010101110" => manhi <= conv_std_logic_vector(2784,24); manlo <= conv_std_logic_vector(62008678,28); WHEN "0010101111" => manhi <= conv_std_logic_vector(2800,24); manlo <= conv_std_logic_vector(62723489,28); WHEN "0010110000" => manhi <= conv_std_logic_vector(2816,24); manlo <= conv_std_logic_vector(63442397,28); WHEN "0010110001" => manhi <= conv_std_logic_vector(2832,24); manlo <= conv_std_logic_vector(64165402,28); WHEN "0010110010" => manhi <= conv_std_logic_vector(2848,24); manlo <= conv_std_logic_vector(64892504,28); WHEN "0010110011" => manhi <= conv_std_logic_vector(2864,24); manlo <= conv_std_logic_vector(65623702,28); WHEN "0010110100" => manhi <= conv_std_logic_vector(2880,24); manlo <= conv_std_logic_vector(66358997,28); WHEN "0010110101" => manhi <= conv_std_logic_vector(2896,24); manlo <= conv_std_logic_vector(67098389,28); WHEN "0010110110" => manhi <= conv_std_logic_vector(2912,24); manlo <= conv_std_logic_vector(67841877,28); WHEN "0010110111" => manhi <= conv_std_logic_vector(2928,24); manlo <= conv_std_logic_vector(68589462,28); WHEN "0010111000" => manhi <= conv_std_logic_vector(2944,24); manlo <= conv_std_logic_vector(69341144,28); WHEN "0010111001" => manhi <= conv_std_logic_vector(2960,24); manlo <= conv_std_logic_vector(70096922,28); WHEN "0010111010" => manhi <= conv_std_logic_vector(2976,24); manlo <= conv_std_logic_vector(70856798,28); WHEN "0010111011" => manhi <= conv_std_logic_vector(2992,24); manlo <= conv_std_logic_vector(71620769,28); WHEN "0010111100" => manhi <= conv_std_logic_vector(3008,24); manlo <= conv_std_logic_vector(72388838,28); WHEN "0010111101" => manhi <= conv_std_logic_vector(3024,24); manlo <= conv_std_logic_vector(73161004,28); WHEN "0010111110" => manhi <= conv_std_logic_vector(3040,24); manlo <= conv_std_logic_vector(73937266,28); WHEN "0010111111" => manhi <= conv_std_logic_vector(3056,24); manlo <= conv_std_logic_vector(74717625,28); WHEN "0011000000" => manhi <= conv_std_logic_vector(3072,24); manlo <= conv_std_logic_vector(75502080,28); WHEN "0011000001" => manhi <= conv_std_logic_vector(3088,24); manlo <= conv_std_logic_vector(76290633,28); WHEN "0011000010" => manhi <= conv_std_logic_vector(3104,24); manlo <= conv_std_logic_vector(77083282,28); WHEN "0011000011" => manhi <= conv_std_logic_vector(3120,24); manlo <= conv_std_logic_vector(77880028,28); WHEN "0011000100" => manhi <= conv_std_logic_vector(3136,24); manlo <= conv_std_logic_vector(78680870,28); WHEN "0011000101" => manhi <= conv_std_logic_vector(3152,24); manlo <= conv_std_logic_vector(79485810,28); WHEN "0011000110" => manhi <= conv_std_logic_vector(3168,24); manlo <= conv_std_logic_vector(80294846,28); WHEN "0011000111" => manhi <= conv_std_logic_vector(3184,24); manlo <= conv_std_logic_vector(81107979,28); WHEN "0011001000" => manhi <= conv_std_logic_vector(3200,24); manlo <= conv_std_logic_vector(81925209,28); WHEN "0011001001" => manhi <= conv_std_logic_vector(3216,24); manlo <= conv_std_logic_vector(82746535,28); WHEN "0011001010" => manhi <= conv_std_logic_vector(3232,24); manlo <= conv_std_logic_vector(83571958,28); WHEN "0011001011" => manhi <= conv_std_logic_vector(3248,24); manlo <= conv_std_logic_vector(84401479,28); WHEN "0011001100" => manhi <= conv_std_logic_vector(3264,24); manlo <= conv_std_logic_vector(85235095,28); WHEN "0011001101" => manhi <= conv_std_logic_vector(3280,24); manlo <= conv_std_logic_vector(86072809,28); WHEN "0011001110" => manhi <= conv_std_logic_vector(3296,24); manlo <= conv_std_logic_vector(86914620,28); WHEN "0011001111" => manhi <= conv_std_logic_vector(3312,24); manlo <= conv_std_logic_vector(87760527,28); WHEN "0011010000" => manhi <= conv_std_logic_vector(3328,24); manlo <= conv_std_logic_vector(88610531,28); WHEN "0011010001" => manhi <= conv_std_logic_vector(3344,24); manlo <= conv_std_logic_vector(89464632,28); WHEN "0011010010" => manhi <= conv_std_logic_vector(3360,24); manlo <= conv_std_logic_vector(90322830,28); WHEN "0011010011" => manhi <= conv_std_logic_vector(3376,24); manlo <= conv_std_logic_vector(91185124,28); WHEN "0011010100" => manhi <= conv_std_logic_vector(3392,24); manlo <= conv_std_logic_vector(92051516,28); WHEN "0011010101" => manhi <= conv_std_logic_vector(3408,24); manlo <= conv_std_logic_vector(92922004,28); WHEN "0011010110" => manhi <= conv_std_logic_vector(3424,24); manlo <= conv_std_logic_vector(93796589,28); WHEN "0011010111" => manhi <= conv_std_logic_vector(3440,24); manlo <= conv_std_logic_vector(94675271,28); WHEN "0011011000" => manhi <= conv_std_logic_vector(3456,24); manlo <= conv_std_logic_vector(95558049,28); WHEN "0011011001" => manhi <= conv_std_logic_vector(3472,24); manlo <= conv_std_logic_vector(96444925,28); WHEN "0011011010" => manhi <= conv_std_logic_vector(3488,24); manlo <= conv_std_logic_vector(97335897,28); WHEN "0011011011" => manhi <= conv_std_logic_vector(3504,24); manlo <= conv_std_logic_vector(98230967,28); WHEN "0011011100" => manhi <= conv_std_logic_vector(3520,24); manlo <= conv_std_logic_vector(99130133,28); WHEN "0011011101" => manhi <= conv_std_logic_vector(3536,24); manlo <= conv_std_logic_vector(100033396,28); WHEN "0011011110" => manhi <= conv_std_logic_vector(3552,24); manlo <= conv_std_logic_vector(100940755,28); WHEN "0011011111" => manhi <= conv_std_logic_vector(3568,24); manlo <= conv_std_logic_vector(101852212,28); WHEN "0011100000" => manhi <= conv_std_logic_vector(3584,24); manlo <= conv_std_logic_vector(102767766,28); WHEN "0011100001" => manhi <= conv_std_logic_vector(3600,24); manlo <= conv_std_logic_vector(103687416,28); WHEN "0011100010" => manhi <= conv_std_logic_vector(3616,24); manlo <= conv_std_logic_vector(104611163,28); WHEN "0011100011" => manhi <= conv_std_logic_vector(3632,24); manlo <= conv_std_logic_vector(105539008,28); WHEN "0011100100" => manhi <= conv_std_logic_vector(3648,24); manlo <= conv_std_logic_vector(106470949,28); WHEN "0011100101" => manhi <= conv_std_logic_vector(3664,24); manlo <= conv_std_logic_vector(107406987,28); WHEN "0011100110" => manhi <= conv_std_logic_vector(3680,24); manlo <= conv_std_logic_vector(108347122,28); WHEN "0011100111" => manhi <= conv_std_logic_vector(3696,24); manlo <= conv_std_logic_vector(109291353,28); WHEN "0011101000" => manhi <= conv_std_logic_vector(3712,24); manlo <= conv_std_logic_vector(110239682,28); WHEN "0011101001" => manhi <= conv_std_logic_vector(3728,24); manlo <= conv_std_logic_vector(111192108,28); WHEN "0011101010" => manhi <= conv_std_logic_vector(3744,24); manlo <= conv_std_logic_vector(112148630,28); WHEN "0011101011" => manhi <= conv_std_logic_vector(3760,24); manlo <= conv_std_logic_vector(113109250,28); WHEN "0011101100" => manhi <= conv_std_logic_vector(3776,24); manlo <= conv_std_logic_vector(114073966,28); WHEN "0011101101" => manhi <= conv_std_logic_vector(3792,24); manlo <= conv_std_logic_vector(115042779,28); WHEN "0011101110" => manhi <= conv_std_logic_vector(3808,24); manlo <= conv_std_logic_vector(116015689,28); WHEN "0011101111" => manhi <= conv_std_logic_vector(3824,24); manlo <= conv_std_logic_vector(116992696,28); WHEN "0011110000" => manhi <= conv_std_logic_vector(3840,24); manlo <= conv_std_logic_vector(117973801,28); WHEN "0011110001" => manhi <= conv_std_logic_vector(3856,24); manlo <= conv_std_logic_vector(118959001,28); WHEN "0011110010" => manhi <= conv_std_logic_vector(3872,24); manlo <= conv_std_logic_vector(119948299,28); WHEN "0011110011" => manhi <= conv_std_logic_vector(3888,24); manlo <= conv_std_logic_vector(120941694,28); WHEN "0011110100" => manhi <= conv_std_logic_vector(3904,24); manlo <= conv_std_logic_vector(121939186,28); WHEN "0011110101" => manhi <= conv_std_logic_vector(3920,24); manlo <= conv_std_logic_vector(122940775,28); WHEN "0011110110" => manhi <= conv_std_logic_vector(3936,24); manlo <= conv_std_logic_vector(123946461,28); WHEN "0011110111" => manhi <= conv_std_logic_vector(3952,24); manlo <= conv_std_logic_vector(124956243,28); WHEN "0011111000" => manhi <= conv_std_logic_vector(3968,24); manlo <= conv_std_logic_vector(125970123,28); WHEN "0011111001" => manhi <= conv_std_logic_vector(3984,24); manlo <= conv_std_logic_vector(126988100,28); WHEN "0011111010" => manhi <= conv_std_logic_vector(4000,24); manlo <= conv_std_logic_vector(128010173,28); WHEN "0011111011" => manhi <= conv_std_logic_vector(4016,24); manlo <= conv_std_logic_vector(129036344,28); WHEN "0011111100" => manhi <= conv_std_logic_vector(4032,24); manlo <= conv_std_logic_vector(130066611,28); WHEN "0011111101" => manhi <= conv_std_logic_vector(4048,24); manlo <= conv_std_logic_vector(131100976,28); WHEN "0011111110" => manhi <= conv_std_logic_vector(4064,24); manlo <= conv_std_logic_vector(132139437,28); WHEN "0011111111" => manhi <= conv_std_logic_vector(4080,24); manlo <= conv_std_logic_vector(133181996,28); WHEN "0100000000" => manhi <= conv_std_logic_vector(4096,24); manlo <= conv_std_logic_vector(134228651,28); WHEN "0100000001" => manhi <= conv_std_logic_vector(4112,24); manlo <= conv_std_logic_vector(135279404,28); WHEN "0100000010" => manhi <= conv_std_logic_vector(4128,24); manlo <= conv_std_logic_vector(136334253,28); WHEN "0100000011" => manhi <= conv_std_logic_vector(4144,24); manlo <= conv_std_logic_vector(137393200,28); WHEN "0100000100" => manhi <= conv_std_logic_vector(4160,24); manlo <= conv_std_logic_vector(138456243,28); WHEN "0100000101" => manhi <= conv_std_logic_vector(4176,24); manlo <= conv_std_logic_vector(139523384,28); WHEN "0100000110" => manhi <= conv_std_logic_vector(4192,24); manlo <= conv_std_logic_vector(140594622,28); WHEN "0100000111" => manhi <= conv_std_logic_vector(4208,24); manlo <= conv_std_logic_vector(141669956,28); WHEN "0100001000" => manhi <= conv_std_logic_vector(4224,24); manlo <= conv_std_logic_vector(142749388,28); WHEN "0100001001" => manhi <= conv_std_logic_vector(4240,24); manlo <= conv_std_logic_vector(143832916,28); WHEN "0100001010" => manhi <= conv_std_logic_vector(4256,24); manlo <= conv_std_logic_vector(144920542,28); WHEN "0100001011" => manhi <= conv_std_logic_vector(4272,24); manlo <= conv_std_logic_vector(146012265,28); WHEN "0100001100" => manhi <= conv_std_logic_vector(4288,24); manlo <= conv_std_logic_vector(147108085,28); WHEN "0100001101" => manhi <= conv_std_logic_vector(4304,24); manlo <= conv_std_logic_vector(148208001,28); WHEN "0100001110" => manhi <= conv_std_logic_vector(4320,24); manlo <= conv_std_logic_vector(149312015,28); WHEN "0100001111" => manhi <= conv_std_logic_vector(4336,24); manlo <= conv_std_logic_vector(150420126,28); WHEN "0100010000" => manhi <= conv_std_logic_vector(4352,24); manlo <= conv_std_logic_vector(151532334,28); WHEN "0100010001" => manhi <= conv_std_logic_vector(4368,24); manlo <= conv_std_logic_vector(152648639,28); WHEN "0100010010" => manhi <= conv_std_logic_vector(4384,24); manlo <= conv_std_logic_vector(153769041,28); WHEN "0100010011" => manhi <= conv_std_logic_vector(4400,24); manlo <= conv_std_logic_vector(154893541,28); WHEN "0100010100" => manhi <= conv_std_logic_vector(4416,24); manlo <= conv_std_logic_vector(156022137,28); WHEN "0100010101" => manhi <= conv_std_logic_vector(4432,24); manlo <= conv_std_logic_vector(157154830,28); WHEN "0100010110" => manhi <= conv_std_logic_vector(4448,24); manlo <= conv_std_logic_vector(158291621,28); WHEN "0100010111" => manhi <= conv_std_logic_vector(4464,24); manlo <= conv_std_logic_vector(159432508,28); WHEN "0100011000" => manhi <= conv_std_logic_vector(4480,24); manlo <= conv_std_logic_vector(160577493,28); WHEN "0100011001" => manhi <= conv_std_logic_vector(4496,24); manlo <= conv_std_logic_vector(161726574,28); WHEN "0100011010" => manhi <= conv_std_logic_vector(4512,24); manlo <= conv_std_logic_vector(162879753,28); WHEN "0100011011" => manhi <= conv_std_logic_vector(4528,24); manlo <= conv_std_logic_vector(164037029,28); WHEN "0100011100" => manhi <= conv_std_logic_vector(4544,24); manlo <= conv_std_logic_vector(165198402,28); WHEN "0100011101" => manhi <= conv_std_logic_vector(4560,24); manlo <= conv_std_logic_vector(166363872,28); WHEN "0100011110" => manhi <= conv_std_logic_vector(4576,24); manlo <= conv_std_logic_vector(167533439,28); WHEN "0100011111" => manhi <= conv_std_logic_vector(4592,24); manlo <= conv_std_logic_vector(168707104,28); WHEN "0100100000" => manhi <= conv_std_logic_vector(4608,24); manlo <= conv_std_logic_vector(169884865,28); WHEN "0100100001" => manhi <= conv_std_logic_vector(4624,24); manlo <= conv_std_logic_vector(171066724,28); WHEN "0100100010" => manhi <= conv_std_logic_vector(4640,24); manlo <= conv_std_logic_vector(172252679,28); WHEN "0100100011" => manhi <= conv_std_logic_vector(4656,24); manlo <= conv_std_logic_vector(173442732,28); WHEN "0100100100" => manhi <= conv_std_logic_vector(4672,24); manlo <= conv_std_logic_vector(174636882,28); WHEN "0100100101" => manhi <= conv_std_logic_vector(4688,24); manlo <= conv_std_logic_vector(175835129,28); WHEN "0100100110" => manhi <= conv_std_logic_vector(4704,24); manlo <= conv_std_logic_vector(177037474,28); WHEN "0100100111" => manhi <= conv_std_logic_vector(4720,24); manlo <= conv_std_logic_vector(178243915,28); WHEN "0100101000" => manhi <= conv_std_logic_vector(4736,24); manlo <= conv_std_logic_vector(179454454,28); WHEN "0100101001" => manhi <= conv_std_logic_vector(4752,24); manlo <= conv_std_logic_vector(180669089,28); WHEN "0100101010" => manhi <= conv_std_logic_vector(4768,24); manlo <= conv_std_logic_vector(181887822,28); WHEN "0100101011" => manhi <= conv_std_logic_vector(4784,24); manlo <= conv_std_logic_vector(183110652,28); WHEN "0100101100" => manhi <= conv_std_logic_vector(4800,24); manlo <= conv_std_logic_vector(184337579,28); WHEN "0100101101" => manhi <= conv_std_logic_vector(4816,24); manlo <= conv_std_logic_vector(185568604,28); WHEN "0100101110" => manhi <= conv_std_logic_vector(4832,24); manlo <= conv_std_logic_vector(186803725,28); WHEN "0100101111" => manhi <= conv_std_logic_vector(4848,24); manlo <= conv_std_logic_vector(188042944,28); WHEN "0100110000" => manhi <= conv_std_logic_vector(4864,24); manlo <= conv_std_logic_vector(189286260,28); WHEN "0100110001" => manhi <= conv_std_logic_vector(4880,24); manlo <= conv_std_logic_vector(190533673,28); WHEN "0100110010" => manhi <= conv_std_logic_vector(4896,24); manlo <= conv_std_logic_vector(191785183,28); WHEN "0100110011" => manhi <= conv_std_logic_vector(4912,24); manlo <= conv_std_logic_vector(193040791,28); WHEN "0100110100" => manhi <= conv_std_logic_vector(4928,24); manlo <= conv_std_logic_vector(194300496,28); WHEN "0100110101" => manhi <= conv_std_logic_vector(4944,24); manlo <= conv_std_logic_vector(195564298,28); WHEN "0100110110" => manhi <= conv_std_logic_vector(4960,24); manlo <= conv_std_logic_vector(196832197,28); WHEN "0100110111" => manhi <= conv_std_logic_vector(4976,24); manlo <= conv_std_logic_vector(198104193,28); WHEN "0100111000" => manhi <= conv_std_logic_vector(4992,24); manlo <= conv_std_logic_vector(199380286,28); WHEN "0100111001" => manhi <= conv_std_logic_vector(5008,24); manlo <= conv_std_logic_vector(200660477,28); WHEN "0100111010" => manhi <= conv_std_logic_vector(5024,24); manlo <= conv_std_logic_vector(201944765,28); WHEN "0100111011" => manhi <= conv_std_logic_vector(5040,24); manlo <= conv_std_logic_vector(203233150,28); WHEN "0100111100" => manhi <= conv_std_logic_vector(5056,24); manlo <= conv_std_logic_vector(204525633,28); WHEN "0100111101" => manhi <= conv_std_logic_vector(5072,24); manlo <= conv_std_logic_vector(205822213,28); WHEN "0100111110" => manhi <= conv_std_logic_vector(5088,24); manlo <= conv_std_logic_vector(207122889,28); WHEN "0100111111" => manhi <= conv_std_logic_vector(5104,24); manlo <= conv_std_logic_vector(208427664,28); WHEN "0101000000" => manhi <= conv_std_logic_vector(5120,24); manlo <= conv_std_logic_vector(209736535,28); WHEN "0101000001" => manhi <= conv_std_logic_vector(5136,24); manlo <= conv_std_logic_vector(211049504,28); WHEN "0101000010" => manhi <= conv_std_logic_vector(5152,24); manlo <= conv_std_logic_vector(212366570,28); WHEN "0101000011" => manhi <= conv_std_logic_vector(5168,24); manlo <= conv_std_logic_vector(213687733,28); WHEN "0101000100" => manhi <= conv_std_logic_vector(5184,24); manlo <= conv_std_logic_vector(215012993,28); WHEN "0101000101" => manhi <= conv_std_logic_vector(5200,24); manlo <= conv_std_logic_vector(216342351,28); WHEN "0101000110" => manhi <= conv_std_logic_vector(5216,24); manlo <= conv_std_logic_vector(217675806,28); WHEN "0101000111" => manhi <= conv_std_logic_vector(5232,24); manlo <= conv_std_logic_vector(219013358,28); WHEN "0101001000" => manhi <= conv_std_logic_vector(5248,24); manlo <= conv_std_logic_vector(220355007,28); WHEN "0101001001" => manhi <= conv_std_logic_vector(5264,24); manlo <= conv_std_logic_vector(221700754,28); WHEN "0101001010" => manhi <= conv_std_logic_vector(5280,24); manlo <= conv_std_logic_vector(223050598,28); WHEN "0101001011" => manhi <= conv_std_logic_vector(5296,24); manlo <= conv_std_logic_vector(224404540,28); WHEN "0101001100" => manhi <= conv_std_logic_vector(5312,24); manlo <= conv_std_logic_vector(225762578,28); WHEN "0101001101" => manhi <= conv_std_logic_vector(5328,24); manlo <= conv_std_logic_vector(227124714,28); WHEN "0101001110" => manhi <= conv_std_logic_vector(5344,24); manlo <= conv_std_logic_vector(228490948,28); WHEN "0101001111" => manhi <= conv_std_logic_vector(5360,24); manlo <= conv_std_logic_vector(229861278,28); WHEN "0101010000" => manhi <= conv_std_logic_vector(5376,24); manlo <= conv_std_logic_vector(231235706,28); WHEN "0101010001" => manhi <= conv_std_logic_vector(5392,24); manlo <= conv_std_logic_vector(232614231,28); WHEN "0101010010" => manhi <= conv_std_logic_vector(5408,24); manlo <= conv_std_logic_vector(233996854,28); WHEN "0101010011" => manhi <= conv_std_logic_vector(5424,24); manlo <= conv_std_logic_vector(235383573,28); WHEN "0101010100" => manhi <= conv_std_logic_vector(5440,24); manlo <= conv_std_logic_vector(236774391,28); WHEN "0101010101" => manhi <= conv_std_logic_vector(5456,24); manlo <= conv_std_logic_vector(238169305,28); WHEN "0101010110" => manhi <= conv_std_logic_vector(5472,24); manlo <= conv_std_logic_vector(239568317,28); WHEN "0101010111" => manhi <= conv_std_logic_vector(5488,24); manlo <= conv_std_logic_vector(240971426,28); WHEN "0101011000" => manhi <= conv_std_logic_vector(5504,24); manlo <= conv_std_logic_vector(242378633,28); WHEN "0101011001" => manhi <= conv_std_logic_vector(5520,24); manlo <= conv_std_logic_vector(243789936,28); WHEN "0101011010" => manhi <= conv_std_logic_vector(5536,24); manlo <= conv_std_logic_vector(245205338,28); WHEN "0101011011" => manhi <= conv_std_logic_vector(5552,24); manlo <= conv_std_logic_vector(246624836,28); WHEN "0101011100" => manhi <= conv_std_logic_vector(5568,24); manlo <= conv_std_logic_vector(248048432,28); WHEN "0101011101" => manhi <= conv_std_logic_vector(5584,24); manlo <= conv_std_logic_vector(249476125,28); WHEN "0101011110" => manhi <= conv_std_logic_vector(5600,24); manlo <= conv_std_logic_vector(250907916,28); WHEN "0101011111" => manhi <= conv_std_logic_vector(5616,24); manlo <= conv_std_logic_vector(252343804,28); WHEN "0101100000" => manhi <= conv_std_logic_vector(5632,24); manlo <= conv_std_logic_vector(253783789,28); WHEN "0101100001" => manhi <= conv_std_logic_vector(5648,24); manlo <= conv_std_logic_vector(255227872,28); WHEN "0101100010" => manhi <= conv_std_logic_vector(5664,24); manlo <= conv_std_logic_vector(256676052,28); WHEN "0101100011" => manhi <= conv_std_logic_vector(5680,24); manlo <= conv_std_logic_vector(258128329,28); WHEN "0101100100" => manhi <= conv_std_logic_vector(5696,24); manlo <= conv_std_logic_vector(259584704,28); WHEN "0101100101" => manhi <= conv_std_logic_vector(5712,24); manlo <= conv_std_logic_vector(261045176,28); WHEN "0101100110" => manhi <= conv_std_logic_vector(5728,24); manlo <= conv_std_logic_vector(262509746,28); WHEN "0101100111" => manhi <= conv_std_logic_vector(5744,24); manlo <= conv_std_logic_vector(263978413,28); WHEN "0101101000" => manhi <= conv_std_logic_vector(5760,24); manlo <= conv_std_logic_vector(265451178,28); WHEN "0101101001" => manhi <= conv_std_logic_vector(5776,24); manlo <= conv_std_logic_vector(266928039,28); WHEN "0101101010" => manhi <= conv_std_logic_vector(5792,24); manlo <= conv_std_logic_vector(268408999,28); WHEN "0101101011" => manhi <= conv_std_logic_vector(5809,24); manlo <= conv_std_logic_vector(1458599,28); WHEN "0101101100" => manhi <= conv_std_logic_vector(5825,24); manlo <= conv_std_logic_vector(2947754,28); WHEN "0101101101" => manhi <= conv_std_logic_vector(5841,24); manlo <= conv_std_logic_vector(4441005,28); WHEN "0101101110" => manhi <= conv_std_logic_vector(5857,24); manlo <= conv_std_logic_vector(5938354,28); WHEN "0101101111" => manhi <= conv_std_logic_vector(5873,24); manlo <= conv_std_logic_vector(7439800,28); WHEN "0101110000" => manhi <= conv_std_logic_vector(5889,24); manlo <= conv_std_logic_vector(8945344,28); WHEN "0101110001" => manhi <= conv_std_logic_vector(5905,24); manlo <= conv_std_logic_vector(10454985,28); WHEN "0101110010" => manhi <= conv_std_logic_vector(5921,24); manlo <= conv_std_logic_vector(11968724,28); WHEN "0101110011" => manhi <= conv_std_logic_vector(5937,24); manlo <= conv_std_logic_vector(13486560,28); WHEN "0101110100" => manhi <= conv_std_logic_vector(5953,24); manlo <= conv_std_logic_vector(15008494,28); WHEN "0101110101" => manhi <= conv_std_logic_vector(5969,24); manlo <= conv_std_logic_vector(16534525,28); WHEN "0101110110" => manhi <= conv_std_logic_vector(5985,24); manlo <= conv_std_logic_vector(18064653,28); WHEN "0101110111" => manhi <= conv_std_logic_vector(6001,24); manlo <= conv_std_logic_vector(19598879,28); WHEN "0101111000" => manhi <= conv_std_logic_vector(6017,24); manlo <= conv_std_logic_vector(21137203,28); WHEN "0101111001" => manhi <= conv_std_logic_vector(6033,24); manlo <= conv_std_logic_vector(22679624,28); WHEN "0101111010" => manhi <= conv_std_logic_vector(6049,24); manlo <= conv_std_logic_vector(24226142,28); WHEN "0101111011" => manhi <= conv_std_logic_vector(6065,24); manlo <= conv_std_logic_vector(25776758,28); WHEN "0101111100" => manhi <= conv_std_logic_vector(6081,24); manlo <= conv_std_logic_vector(27331471,28); WHEN "0101111101" => manhi <= conv_std_logic_vector(6097,24); manlo <= conv_std_logic_vector(28890282,28); WHEN "0101111110" => manhi <= conv_std_logic_vector(6113,24); manlo <= conv_std_logic_vector(30453190,28); WHEN "0101111111" => manhi <= conv_std_logic_vector(6129,24); manlo <= conv_std_logic_vector(32020196,28); WHEN "0110000000" => manhi <= conv_std_logic_vector(6145,24); manlo <= conv_std_logic_vector(33591299,28); WHEN "0110000001" => manhi <= conv_std_logic_vector(6161,24); manlo <= conv_std_logic_vector(35166500,28); WHEN "0110000010" => manhi <= conv_std_logic_vector(6177,24); manlo <= conv_std_logic_vector(36745798,28); WHEN "0110000011" => manhi <= conv_std_logic_vector(6193,24); manlo <= conv_std_logic_vector(38329194,28); WHEN "0110000100" => manhi <= conv_std_logic_vector(6209,24); manlo <= conv_std_logic_vector(39916688,28); WHEN "0110000101" => manhi <= conv_std_logic_vector(6225,24); manlo <= conv_std_logic_vector(41508278,28); WHEN "0110000110" => manhi <= conv_std_logic_vector(6241,24); manlo <= conv_std_logic_vector(43103967,28); WHEN "0110000111" => manhi <= conv_std_logic_vector(6257,24); manlo <= conv_std_logic_vector(44703753,28); WHEN "0110001000" => manhi <= conv_std_logic_vector(6273,24); manlo <= conv_std_logic_vector(46307636,28); WHEN "0110001001" => manhi <= conv_std_logic_vector(6289,24); manlo <= conv_std_logic_vector(47915617,28); WHEN "0110001010" => manhi <= conv_std_logic_vector(6305,24); manlo <= conv_std_logic_vector(49527695,28); WHEN "0110001011" => manhi <= conv_std_logic_vector(6321,24); manlo <= conv_std_logic_vector(51143871,28); WHEN "0110001100" => manhi <= conv_std_logic_vector(6337,24); manlo <= conv_std_logic_vector(52764145,28); WHEN "0110001101" => manhi <= conv_std_logic_vector(6353,24); manlo <= conv_std_logic_vector(54388516,28); WHEN "0110001110" => manhi <= conv_std_logic_vector(6369,24); manlo <= conv_std_logic_vector(56016985,28); WHEN "0110001111" => manhi <= conv_std_logic_vector(6385,24); manlo <= conv_std_logic_vector(57649551,28); WHEN "0110010000" => manhi <= conv_std_logic_vector(6401,24); manlo <= conv_std_logic_vector(59286215,28); WHEN "0110010001" => manhi <= conv_std_logic_vector(6417,24); manlo <= conv_std_logic_vector(60926976,28); WHEN "0110010010" => manhi <= conv_std_logic_vector(6433,24); manlo <= conv_std_logic_vector(62571835,28); WHEN "0110010011" => manhi <= conv_std_logic_vector(6449,24); manlo <= conv_std_logic_vector(64220791,28); WHEN "0110010100" => manhi <= conv_std_logic_vector(6465,24); manlo <= conv_std_logic_vector(65873845,28); WHEN "0110010101" => manhi <= conv_std_logic_vector(6481,24); manlo <= conv_std_logic_vector(67530997,28); WHEN "0110010110" => manhi <= conv_std_logic_vector(6497,24); manlo <= conv_std_logic_vector(69192246,28); WHEN "0110010111" => manhi <= conv_std_logic_vector(6513,24); manlo <= conv_std_logic_vector(70857593,28); WHEN "0110011000" => manhi <= conv_std_logic_vector(6529,24); manlo <= conv_std_logic_vector(72527037,28); WHEN "0110011001" => manhi <= conv_std_logic_vector(6545,24); manlo <= conv_std_logic_vector(74200579,28); WHEN "0110011010" => manhi <= conv_std_logic_vector(6561,24); manlo <= conv_std_logic_vector(75878219,28); WHEN "0110011011" => manhi <= conv_std_logic_vector(6577,24); manlo <= conv_std_logic_vector(77559956,28); WHEN "0110011100" => manhi <= conv_std_logic_vector(6593,24); manlo <= conv_std_logic_vector(79245791,28); WHEN "0110011101" => manhi <= conv_std_logic_vector(6609,24); manlo <= conv_std_logic_vector(80935723,28); WHEN "0110011110" => manhi <= conv_std_logic_vector(6625,24); manlo <= conv_std_logic_vector(82629753,28); WHEN "0110011111" => manhi <= conv_std_logic_vector(6641,24); manlo <= conv_std_logic_vector(84327881,28); WHEN "0110100000" => manhi <= conv_std_logic_vector(6657,24); manlo <= conv_std_logic_vector(86030106,28); WHEN "0110100001" => manhi <= conv_std_logic_vector(6673,24); manlo <= conv_std_logic_vector(87736429,28); WHEN "0110100010" => manhi <= conv_std_logic_vector(6689,24); manlo <= conv_std_logic_vector(89446849,28); WHEN "0110100011" => manhi <= conv_std_logic_vector(6705,24); manlo <= conv_std_logic_vector(91161367,28); WHEN "0110100100" => manhi <= conv_std_logic_vector(6721,24); manlo <= conv_std_logic_vector(92879983,28); WHEN "0110100101" => manhi <= conv_std_logic_vector(6737,24); manlo <= conv_std_logic_vector(94602697,28); WHEN "0110100110" => manhi <= conv_std_logic_vector(6753,24); manlo <= conv_std_logic_vector(96329508,28); WHEN "0110100111" => manhi <= conv_std_logic_vector(6769,24); manlo <= conv_std_logic_vector(98060416,28); WHEN "0110101000" => manhi <= conv_std_logic_vector(6785,24); manlo <= conv_std_logic_vector(99795423,28); WHEN "0110101001" => manhi <= conv_std_logic_vector(6801,24); manlo <= conv_std_logic_vector(101534527,28); WHEN "0110101010" => manhi <= conv_std_logic_vector(6817,24); manlo <= conv_std_logic_vector(103277728,28); WHEN "0110101011" => manhi <= conv_std_logic_vector(6833,24); manlo <= conv_std_logic_vector(105025028,28); WHEN "0110101100" => manhi <= conv_std_logic_vector(6849,24); manlo <= conv_std_logic_vector(106776425,28); WHEN "0110101101" => manhi <= conv_std_logic_vector(6865,24); manlo <= conv_std_logic_vector(108531919,28); WHEN "0110101110" => manhi <= conv_std_logic_vector(6881,24); manlo <= conv_std_logic_vector(110291512,28); WHEN "0110101111" => manhi <= conv_std_logic_vector(6897,24); manlo <= conv_std_logic_vector(112055202,28); WHEN "0110110000" => manhi <= conv_std_logic_vector(6913,24); manlo <= conv_std_logic_vector(113822989,28); WHEN "0110110001" => manhi <= conv_std_logic_vector(6929,24); manlo <= conv_std_logic_vector(115594875,28); WHEN "0110110010" => manhi <= conv_std_logic_vector(6945,24); manlo <= conv_std_logic_vector(117370858,28); WHEN "0110110011" => manhi <= conv_std_logic_vector(6961,24); manlo <= conv_std_logic_vector(119150939,28); WHEN "0110110100" => manhi <= conv_std_logic_vector(6977,24); manlo <= conv_std_logic_vector(120935117,28); WHEN "0110110101" => manhi <= conv_std_logic_vector(6993,24); manlo <= conv_std_logic_vector(122723393,28); WHEN "0110110110" => manhi <= conv_std_logic_vector(7009,24); manlo <= conv_std_logic_vector(124515767,28); WHEN "0110110111" => manhi <= conv_std_logic_vector(7025,24); manlo <= conv_std_logic_vector(126312239,28); WHEN "0110111000" => manhi <= conv_std_logic_vector(7041,24); manlo <= conv_std_logic_vector(128112808,28); WHEN "0110111001" => manhi <= conv_std_logic_vector(7057,24); manlo <= conv_std_logic_vector(129917475,28); WHEN "0110111010" => manhi <= conv_std_logic_vector(7073,24); manlo <= conv_std_logic_vector(131726240,28); WHEN "0110111011" => manhi <= conv_std_logic_vector(7089,24); manlo <= conv_std_logic_vector(133539102,28); WHEN "0110111100" => manhi <= conv_std_logic_vector(7105,24); manlo <= conv_std_logic_vector(135356063,28); WHEN "0110111101" => manhi <= conv_std_logic_vector(7121,24); manlo <= conv_std_logic_vector(137177121,28); WHEN "0110111110" => manhi <= conv_std_logic_vector(7137,24); manlo <= conv_std_logic_vector(139002276,28); WHEN "0110111111" => manhi <= conv_std_logic_vector(7153,24); manlo <= conv_std_logic_vector(140831530,28); WHEN "0111000000" => manhi <= conv_std_logic_vector(7169,24); manlo <= conv_std_logic_vector(142664881,28); WHEN "0111000001" => manhi <= conv_std_logic_vector(7185,24); manlo <= conv_std_logic_vector(144502330,28); WHEN "0111000010" => manhi <= conv_std_logic_vector(7201,24); manlo <= conv_std_logic_vector(146343877,28); WHEN "0111000011" => manhi <= conv_std_logic_vector(7217,24); manlo <= conv_std_logic_vector(148189521,28); WHEN "0111000100" => manhi <= conv_std_logic_vector(7233,24); manlo <= conv_std_logic_vector(150039263,28); WHEN "0111000101" => manhi <= conv_std_logic_vector(7249,24); manlo <= conv_std_logic_vector(151893103,28); WHEN "0111000110" => manhi <= conv_std_logic_vector(7265,24); manlo <= conv_std_logic_vector(153751041,28); WHEN "0111000111" => manhi <= conv_std_logic_vector(7281,24); manlo <= conv_std_logic_vector(155613076,28); WHEN "0111001000" => manhi <= conv_std_logic_vector(7297,24); manlo <= conv_std_logic_vector(157479210,28); WHEN "0111001001" => manhi <= conv_std_logic_vector(7313,24); manlo <= conv_std_logic_vector(159349441,28); WHEN "0111001010" => manhi <= conv_std_logic_vector(7329,24); manlo <= conv_std_logic_vector(161223770,28); WHEN "0111001011" => manhi <= conv_std_logic_vector(7345,24); manlo <= conv_std_logic_vector(163102196,28); WHEN "0111001100" => manhi <= conv_std_logic_vector(7361,24); manlo <= conv_std_logic_vector(164984721,28); WHEN "0111001101" => manhi <= conv_std_logic_vector(7377,24); manlo <= conv_std_logic_vector(166871343,28); WHEN "0111001110" => manhi <= conv_std_logic_vector(7393,24); manlo <= conv_std_logic_vector(168762063,28); WHEN "0111001111" => manhi <= conv_std_logic_vector(7409,24); manlo <= conv_std_logic_vector(170656881,28); WHEN "0111010000" => manhi <= conv_std_logic_vector(7425,24); manlo <= conv_std_logic_vector(172555797,28); WHEN "0111010001" => manhi <= conv_std_logic_vector(7441,24); manlo <= conv_std_logic_vector(174458810,28); WHEN "0111010010" => manhi <= conv_std_logic_vector(7457,24); manlo <= conv_std_logic_vector(176365921,28); WHEN "0111010011" => manhi <= conv_std_logic_vector(7473,24); manlo <= conv_std_logic_vector(178277130,28); WHEN "0111010100" => manhi <= conv_std_logic_vector(7489,24); manlo <= conv_std_logic_vector(180192437,28); WHEN "0111010101" => manhi <= conv_std_logic_vector(7505,24); manlo <= conv_std_logic_vector(182111842,28); WHEN "0111010110" => manhi <= conv_std_logic_vector(7521,24); manlo <= conv_std_logic_vector(184035345,28); WHEN "0111010111" => manhi <= conv_std_logic_vector(7537,24); manlo <= conv_std_logic_vector(185962945,28); WHEN "0111011000" => manhi <= conv_std_logic_vector(7553,24); manlo <= conv_std_logic_vector(187894643,28); WHEN "0111011001" => manhi <= conv_std_logic_vector(7569,24); manlo <= conv_std_logic_vector(189830439,28); WHEN "0111011010" => manhi <= conv_std_logic_vector(7585,24); manlo <= conv_std_logic_vector(191770333,28); WHEN "0111011011" => manhi <= conv_std_logic_vector(7601,24); manlo <= conv_std_logic_vector(193714325,28); WHEN "0111011100" => manhi <= conv_std_logic_vector(7617,24); manlo <= conv_std_logic_vector(195662415,28); WHEN "0111011101" => manhi <= conv_std_logic_vector(7633,24); manlo <= conv_std_logic_vector(197614602,28); WHEN "0111011110" => manhi <= conv_std_logic_vector(7649,24); manlo <= conv_std_logic_vector(199570888,28); WHEN "0111011111" => manhi <= conv_std_logic_vector(7665,24); manlo <= conv_std_logic_vector(201531271,28); WHEN "0111100000" => manhi <= conv_std_logic_vector(7681,24); manlo <= conv_std_logic_vector(203495752,28); WHEN "0111100001" => manhi <= conv_std_logic_vector(7697,24); manlo <= conv_std_logic_vector(205464331,28); WHEN "0111100010" => manhi <= conv_std_logic_vector(7713,24); manlo <= conv_std_logic_vector(207437008,28); WHEN "0111100011" => manhi <= conv_std_logic_vector(7729,24); manlo <= conv_std_logic_vector(209413783,28); WHEN "0111100100" => manhi <= conv_std_logic_vector(7745,24); manlo <= conv_std_logic_vector(211394656,28); WHEN "0111100101" => manhi <= conv_std_logic_vector(7761,24); manlo <= conv_std_logic_vector(213379626,28); WHEN "0111100110" => manhi <= conv_std_logic_vector(7777,24); manlo <= conv_std_logic_vector(215368695,28); WHEN "0111100111" => manhi <= conv_std_logic_vector(7793,24); manlo <= conv_std_logic_vector(217361861,28); WHEN "0111101000" => manhi <= conv_std_logic_vector(7809,24); manlo <= conv_std_logic_vector(219359125,28); WHEN "0111101001" => manhi <= conv_std_logic_vector(7825,24); manlo <= conv_std_logic_vector(221360487,28); WHEN "0111101010" => manhi <= conv_std_logic_vector(7841,24); manlo <= conv_std_logic_vector(223365947,28); WHEN "0111101011" => manhi <= conv_std_logic_vector(7857,24); manlo <= conv_std_logic_vector(225375505,28); WHEN "0111101100" => manhi <= conv_std_logic_vector(7873,24); manlo <= conv_std_logic_vector(227389161,28); WHEN "0111101101" => manhi <= conv_std_logic_vector(7889,24); manlo <= conv_std_logic_vector(229406915,28); WHEN "0111101110" => manhi <= conv_std_logic_vector(7905,24); manlo <= conv_std_logic_vector(231428767,28); WHEN "0111101111" => manhi <= conv_std_logic_vector(7921,24); manlo <= conv_std_logic_vector(233454716,28); WHEN "0111110000" => manhi <= conv_std_logic_vector(7937,24); manlo <= conv_std_logic_vector(235484764,28); WHEN "0111110001" => manhi <= conv_std_logic_vector(7953,24); manlo <= conv_std_logic_vector(237518910,28); WHEN "0111110010" => manhi <= conv_std_logic_vector(7969,24); manlo <= conv_std_logic_vector(239557153,28); WHEN "0111110011" => manhi <= conv_std_logic_vector(7985,24); manlo <= conv_std_logic_vector(241599495,28); WHEN "0111110100" => manhi <= conv_std_logic_vector(8001,24); manlo <= conv_std_logic_vector(243645934,28); WHEN "0111110101" => manhi <= conv_std_logic_vector(8017,24); manlo <= conv_std_logic_vector(245696471,28); WHEN "0111110110" => manhi <= conv_std_logic_vector(8033,24); manlo <= conv_std_logic_vector(247751107,28); WHEN "0111110111" => manhi <= conv_std_logic_vector(8049,24); manlo <= conv_std_logic_vector(249809840,28); WHEN "0111111000" => manhi <= conv_std_logic_vector(8065,24); manlo <= conv_std_logic_vector(251872671,28); WHEN "0111111001" => manhi <= conv_std_logic_vector(8081,24); manlo <= conv_std_logic_vector(253939600,28); WHEN "0111111010" => manhi <= conv_std_logic_vector(8097,24); manlo <= conv_std_logic_vector(256010627,28); WHEN "0111111011" => manhi <= conv_std_logic_vector(8113,24); manlo <= conv_std_logic_vector(258085753,28); WHEN "0111111100" => manhi <= conv_std_logic_vector(8129,24); manlo <= conv_std_logic_vector(260164976,28); WHEN "0111111101" => manhi <= conv_std_logic_vector(8145,24); manlo <= conv_std_logic_vector(262248297,28); WHEN "0111111110" => manhi <= conv_std_logic_vector(8161,24); manlo <= conv_std_logic_vector(264335716,28); WHEN "0111111111" => manhi <= conv_std_logic_vector(8177,24); manlo <= conv_std_logic_vector(266427233,28); WHEN "1000000000" => manhi <= conv_std_logic_vector(8194,24); manlo <= conv_std_logic_vector(87392,28); WHEN "1000000001" => manhi <= conv_std_logic_vector(8210,24); manlo <= conv_std_logic_vector(2187105,28); WHEN "1000000010" => manhi <= conv_std_logic_vector(8226,24); manlo <= conv_std_logic_vector(4290916,28); WHEN "1000000011" => manhi <= conv_std_logic_vector(8242,24); manlo <= conv_std_logic_vector(6398825,28); WHEN "1000000100" => manhi <= conv_std_logic_vector(8258,24); manlo <= conv_std_logic_vector(8510832,28); WHEN "1000000101" => manhi <= conv_std_logic_vector(8274,24); manlo <= conv_std_logic_vector(10626938,28); WHEN "1000000110" => manhi <= conv_std_logic_vector(8290,24); manlo <= conv_std_logic_vector(12747141,28); WHEN "1000000111" => manhi <= conv_std_logic_vector(8306,24); manlo <= conv_std_logic_vector(14871442,28); WHEN "1000001000" => manhi <= conv_std_logic_vector(8322,24); manlo <= conv_std_logic_vector(16999841,28); WHEN "1000001001" => manhi <= conv_std_logic_vector(8338,24); manlo <= conv_std_logic_vector(19132338,28); WHEN "1000001010" => manhi <= conv_std_logic_vector(8354,24); manlo <= conv_std_logic_vector(21268934,28); WHEN "1000001011" => manhi <= conv_std_logic_vector(8370,24); manlo <= conv_std_logic_vector(23409627,28); WHEN "1000001100" => manhi <= conv_std_logic_vector(8386,24); manlo <= conv_std_logic_vector(25554418,28); WHEN "1000001101" => manhi <= conv_std_logic_vector(8402,24); manlo <= conv_std_logic_vector(27703308,28); WHEN "1000001110" => manhi <= conv_std_logic_vector(8418,24); manlo <= conv_std_logic_vector(29856295,28); WHEN "1000001111" => manhi <= conv_std_logic_vector(8434,24); manlo <= conv_std_logic_vector(32013381,28); WHEN "1000010000" => manhi <= conv_std_logic_vector(8450,24); manlo <= conv_std_logic_vector(34174564,28); WHEN "1000010001" => manhi <= conv_std_logic_vector(8466,24); manlo <= conv_std_logic_vector(36339846,28); WHEN "1000010010" => manhi <= conv_std_logic_vector(8482,24); manlo <= conv_std_logic_vector(38509225,28); WHEN "1000010011" => manhi <= conv_std_logic_vector(8498,24); manlo <= conv_std_logic_vector(40682703,28); WHEN "1000010100" => manhi <= conv_std_logic_vector(8514,24); manlo <= conv_std_logic_vector(42860279,28); WHEN "1000010101" => manhi <= conv_std_logic_vector(8530,24); manlo <= conv_std_logic_vector(45041953,28); WHEN "1000010110" => manhi <= conv_std_logic_vector(8546,24); manlo <= conv_std_logic_vector(47227725,28); WHEN "1000010111" => manhi <= conv_std_logic_vector(8562,24); manlo <= conv_std_logic_vector(49417595,28); WHEN "1000011000" => manhi <= conv_std_logic_vector(8578,24); manlo <= conv_std_logic_vector(51611563,28); WHEN "1000011001" => manhi <= conv_std_logic_vector(8594,24); manlo <= conv_std_logic_vector(53809629,28); WHEN "1000011010" => manhi <= conv_std_logic_vector(8610,24); manlo <= conv_std_logic_vector(56011794,28); WHEN "1000011011" => manhi <= conv_std_logic_vector(8626,24); manlo <= conv_std_logic_vector(58218056,28); WHEN "1000011100" => manhi <= conv_std_logic_vector(8642,24); manlo <= conv_std_logic_vector(60428417,28); WHEN "1000011101" => manhi <= conv_std_logic_vector(8658,24); manlo <= conv_std_logic_vector(62642876,28); WHEN "1000011110" => manhi <= conv_std_logic_vector(8674,24); manlo <= conv_std_logic_vector(64861432,28); WHEN "1000011111" => manhi <= conv_std_logic_vector(8690,24); manlo <= conv_std_logic_vector(67084087,28); WHEN "1000100000" => manhi <= conv_std_logic_vector(8706,24); manlo <= conv_std_logic_vector(69310840,28); WHEN "1000100001" => manhi <= conv_std_logic_vector(8722,24); manlo <= conv_std_logic_vector(71541691,28); WHEN "1000100010" => manhi <= conv_std_logic_vector(8738,24); manlo <= conv_std_logic_vector(73776641,28); WHEN "1000100011" => manhi <= conv_std_logic_vector(8754,24); manlo <= conv_std_logic_vector(76015688,28); WHEN "1000100100" => manhi <= conv_std_logic_vector(8770,24); manlo <= conv_std_logic_vector(78258834,28); WHEN "1000100101" => manhi <= conv_std_logic_vector(8786,24); manlo <= conv_std_logic_vector(80506077,28); WHEN "1000100110" => manhi <= conv_std_logic_vector(8802,24); manlo <= conv_std_logic_vector(82757419,28); WHEN "1000100111" => manhi <= conv_std_logic_vector(8818,24); manlo <= conv_std_logic_vector(85012859,28); WHEN "1000101000" => manhi <= conv_std_logic_vector(8834,24); manlo <= conv_std_logic_vector(87272397,28); WHEN "1000101001" => manhi <= conv_std_logic_vector(8850,24); manlo <= conv_std_logic_vector(89536034,28); WHEN "1000101010" => manhi <= conv_std_logic_vector(8866,24); manlo <= conv_std_logic_vector(91803768,28); WHEN "1000101011" => manhi <= conv_std_logic_vector(8882,24); manlo <= conv_std_logic_vector(94075601,28); WHEN "1000101100" => manhi <= conv_std_logic_vector(8898,24); manlo <= conv_std_logic_vector(96351532,28); WHEN "1000101101" => manhi <= conv_std_logic_vector(8914,24); manlo <= conv_std_logic_vector(98631561,28); WHEN "1000101110" => manhi <= conv_std_logic_vector(8930,24); manlo <= conv_std_logic_vector(100915688,28); WHEN "1000101111" => manhi <= conv_std_logic_vector(8946,24); manlo <= conv_std_logic_vector(103203913,28); WHEN "1000110000" => manhi <= conv_std_logic_vector(8962,24); manlo <= conv_std_logic_vector(105496237,28); WHEN "1000110001" => manhi <= conv_std_logic_vector(8978,24); manlo <= conv_std_logic_vector(107792658,28); WHEN "1000110010" => manhi <= conv_std_logic_vector(8994,24); manlo <= conv_std_logic_vector(110093178,28); WHEN "1000110011" => manhi <= conv_std_logic_vector(9010,24); manlo <= conv_std_logic_vector(112397796,28); WHEN "1000110100" => manhi <= conv_std_logic_vector(9026,24); manlo <= conv_std_logic_vector(114706513,28); WHEN "1000110101" => manhi <= conv_std_logic_vector(9042,24); manlo <= conv_std_logic_vector(117019327,28); WHEN "1000110110" => manhi <= conv_std_logic_vector(9058,24); manlo <= conv_std_logic_vector(119336240,28); WHEN "1000110111" => manhi <= conv_std_logic_vector(9074,24); manlo <= conv_std_logic_vector(121657251,28); WHEN "1000111000" => manhi <= conv_std_logic_vector(9090,24); manlo <= conv_std_logic_vector(123982360,28); WHEN "1000111001" => manhi <= conv_std_logic_vector(9106,24); manlo <= conv_std_logic_vector(126311567,28); WHEN "1000111010" => manhi <= conv_std_logic_vector(9122,24); manlo <= conv_std_logic_vector(128644873,28); WHEN "1000111011" => manhi <= conv_std_logic_vector(9138,24); manlo <= conv_std_logic_vector(130982277,28); WHEN "1000111100" => manhi <= conv_std_logic_vector(9154,24); manlo <= conv_std_logic_vector(133323779,28); WHEN "1000111101" => manhi <= conv_std_logic_vector(9170,24); manlo <= conv_std_logic_vector(135669379,28); WHEN "1000111110" => manhi <= conv_std_logic_vector(9186,24); manlo <= conv_std_logic_vector(138019077,28); WHEN "1000111111" => manhi <= conv_std_logic_vector(9202,24); manlo <= conv_std_logic_vector(140372874,28); WHEN "1001000000" => manhi <= conv_std_logic_vector(9218,24); manlo <= conv_std_logic_vector(142730769,28); WHEN "1001000001" => manhi <= conv_std_logic_vector(9234,24); manlo <= conv_std_logic_vector(145092762,28); WHEN "1001000010" => manhi <= conv_std_logic_vector(9250,24); manlo <= conv_std_logic_vector(147458854,28); WHEN "1001000011" => manhi <= conv_std_logic_vector(9266,24); manlo <= conv_std_logic_vector(149829044,28); WHEN "1001000100" => manhi <= conv_std_logic_vector(9282,24); manlo <= conv_std_logic_vector(152203332,28); WHEN "1001000101" => manhi <= conv_std_logic_vector(9298,24); manlo <= conv_std_logic_vector(154581718,28); WHEN "1001000110" => manhi <= conv_std_logic_vector(9314,24); manlo <= conv_std_logic_vector(156964202,28); WHEN "1001000111" => manhi <= conv_std_logic_vector(9330,24); manlo <= conv_std_logic_vector(159350785,28); WHEN "1001001000" => manhi <= conv_std_logic_vector(9346,24); manlo <= conv_std_logic_vector(161741466,28); WHEN "1001001001" => manhi <= conv_std_logic_vector(9362,24); manlo <= conv_std_logic_vector(164136246,28); WHEN "1001001010" => manhi <= conv_std_logic_vector(9378,24); manlo <= conv_std_logic_vector(166535123,28); WHEN "1001001011" => manhi <= conv_std_logic_vector(9394,24); manlo <= conv_std_logic_vector(168938099,28); WHEN "1001001100" => manhi <= conv_std_logic_vector(9410,24); manlo <= conv_std_logic_vector(171345174,28); WHEN "1001001101" => manhi <= conv_std_logic_vector(9426,24); manlo <= conv_std_logic_vector(173756346,28); WHEN "1001001110" => manhi <= conv_std_logic_vector(9442,24); manlo <= conv_std_logic_vector(176171617,28); WHEN "1001001111" => manhi <= conv_std_logic_vector(9458,24); manlo <= conv_std_logic_vector(178590986,28); WHEN "1001010000" => manhi <= conv_std_logic_vector(9474,24); manlo <= conv_std_logic_vector(181014454,28); WHEN "1001010001" => manhi <= conv_std_logic_vector(9490,24); manlo <= conv_std_logic_vector(183442020,28); WHEN "1001010010" => manhi <= conv_std_logic_vector(9506,24); manlo <= conv_std_logic_vector(185873684,28); WHEN "1001010011" => manhi <= conv_std_logic_vector(9522,24); manlo <= conv_std_logic_vector(188309446,28); WHEN "1001010100" => manhi <= conv_std_logic_vector(9538,24); manlo <= conv_std_logic_vector(190749307,28); WHEN "1001010101" => manhi <= conv_std_logic_vector(9554,24); manlo <= conv_std_logic_vector(193193266,28); WHEN "1001010110" => manhi <= conv_std_logic_vector(9570,24); manlo <= conv_std_logic_vector(195641323,28); WHEN "1001010111" => manhi <= conv_std_logic_vector(9586,24); manlo <= conv_std_logic_vector(198093479,28); WHEN "1001011000" => manhi <= conv_std_logic_vector(9602,24); manlo <= conv_std_logic_vector(200549733,28); WHEN "1001011001" => manhi <= conv_std_logic_vector(9618,24); manlo <= conv_std_logic_vector(203010086,28); WHEN "1001011010" => manhi <= conv_std_logic_vector(9634,24); manlo <= conv_std_logic_vector(205474536,28); WHEN "1001011011" => manhi <= conv_std_logic_vector(9650,24); manlo <= conv_std_logic_vector(207943085,28); WHEN "1001011100" => manhi <= conv_std_logic_vector(9666,24); manlo <= conv_std_logic_vector(210415733,28); WHEN "1001011101" => manhi <= conv_std_logic_vector(9682,24); manlo <= conv_std_logic_vector(212892479,28); WHEN "1001011110" => manhi <= conv_std_logic_vector(9698,24); manlo <= conv_std_logic_vector(215373323,28); WHEN "1001011111" => manhi <= conv_std_logic_vector(9714,24); manlo <= conv_std_logic_vector(217858266,28); WHEN "1001100000" => manhi <= conv_std_logic_vector(9730,24); manlo <= conv_std_logic_vector(220347307,28); WHEN "1001100001" => manhi <= conv_std_logic_vector(9746,24); manlo <= conv_std_logic_vector(222840446,28); WHEN "1001100010" => manhi <= conv_std_logic_vector(9762,24); manlo <= conv_std_logic_vector(225337684,28); WHEN "1001100011" => manhi <= conv_std_logic_vector(9778,24); manlo <= conv_std_logic_vector(227839020,28); WHEN "1001100100" => manhi <= conv_std_logic_vector(9794,24); manlo <= conv_std_logic_vector(230344454,28); WHEN "1001100101" => manhi <= conv_std_logic_vector(9810,24); manlo <= conv_std_logic_vector(232853987,28); WHEN "1001100110" => manhi <= conv_std_logic_vector(9826,24); manlo <= conv_std_logic_vector(235367618,28); WHEN "1001100111" => manhi <= conv_std_logic_vector(9842,24); manlo <= conv_std_logic_vector(237885348,28); WHEN "1001101000" => manhi <= conv_std_logic_vector(9858,24); manlo <= conv_std_logic_vector(240407176,28); WHEN "1001101001" => manhi <= conv_std_logic_vector(9874,24); manlo <= conv_std_logic_vector(242933102,28); WHEN "1001101010" => manhi <= conv_std_logic_vector(9890,24); manlo <= conv_std_logic_vector(245463127,28); WHEN "1001101011" => manhi <= conv_std_logic_vector(9906,24); manlo <= conv_std_logic_vector(247997251,28); WHEN "1001101100" => manhi <= conv_std_logic_vector(9922,24); manlo <= conv_std_logic_vector(250535472,28); WHEN "1001101101" => manhi <= conv_std_logic_vector(9938,24); manlo <= conv_std_logic_vector(253077793,28); WHEN "1001101110" => manhi <= conv_std_logic_vector(9954,24); manlo <= conv_std_logic_vector(255624211,28); WHEN "1001101111" => manhi <= conv_std_logic_vector(9970,24); manlo <= conv_std_logic_vector(258174728,28); WHEN "1001110000" => manhi <= conv_std_logic_vector(9986,24); manlo <= conv_std_logic_vector(260729344,28); WHEN "1001110001" => manhi <= conv_std_logic_vector(10002,24); manlo <= conv_std_logic_vector(263288057,28); WHEN "1001110010" => manhi <= conv_std_logic_vector(10018,24); manlo <= conv_std_logic_vector(265850870,28); WHEN "1001110011" => manhi <= conv_std_logic_vector(10034,24); manlo <= conv_std_logic_vector(268417780,28); WHEN "1001110100" => manhi <= conv_std_logic_vector(10051,24); manlo <= conv_std_logic_vector(2553334,28); WHEN "1001110101" => manhi <= conv_std_logic_vector(10067,24); manlo <= conv_std_logic_vector(5128441,28); WHEN "1001110110" => manhi <= conv_std_logic_vector(10083,24); manlo <= conv_std_logic_vector(7707647,28); WHEN "1001110111" => manhi <= conv_std_logic_vector(10099,24); manlo <= conv_std_logic_vector(10290952,28); WHEN "1001111000" => manhi <= conv_std_logic_vector(10115,24); manlo <= conv_std_logic_vector(12878355,28); WHEN "1001111001" => manhi <= conv_std_logic_vector(10131,24); manlo <= conv_std_logic_vector(15469857,28); WHEN "1001111010" => manhi <= conv_std_logic_vector(10147,24); manlo <= conv_std_logic_vector(18065457,28); WHEN "1001111011" => manhi <= conv_std_logic_vector(10163,24); manlo <= conv_std_logic_vector(20665155,28); WHEN "1001111100" => manhi <= conv_std_logic_vector(10179,24); manlo <= conv_std_logic_vector(23268952,28); WHEN "1001111101" => manhi <= conv_std_logic_vector(10195,24); manlo <= conv_std_logic_vector(25876847,28); WHEN "1001111110" => manhi <= conv_std_logic_vector(10211,24); manlo <= conv_std_logic_vector(28488841,28); WHEN "1001111111" => manhi <= conv_std_logic_vector(10227,24); manlo <= conv_std_logic_vector(31104934,28); WHEN "1010000000" => manhi <= conv_std_logic_vector(10243,24); manlo <= conv_std_logic_vector(33725125,28); WHEN "1010000001" => manhi <= conv_std_logic_vector(10259,24); manlo <= conv_std_logic_vector(36349414,28); WHEN "1010000010" => manhi <= conv_std_logic_vector(10275,24); manlo <= conv_std_logic_vector(38977802,28); WHEN "1010000011" => manhi <= conv_std_logic_vector(10291,24); manlo <= conv_std_logic_vector(41610288,28); WHEN "1010000100" => manhi <= conv_std_logic_vector(10307,24); manlo <= conv_std_logic_vector(44246873,28); WHEN "1010000101" => manhi <= conv_std_logic_vector(10323,24); manlo <= conv_std_logic_vector(46887557,28); WHEN "1010000110" => manhi <= conv_std_logic_vector(10339,24); manlo <= conv_std_logic_vector(49532339,28); WHEN "1010000111" => manhi <= conv_std_logic_vector(10355,24); manlo <= conv_std_logic_vector(52181219,28); WHEN "1010001000" => manhi <= conv_std_logic_vector(10371,24); manlo <= conv_std_logic_vector(54834198,28); WHEN "1010001001" => manhi <= conv_std_logic_vector(10387,24); manlo <= conv_std_logic_vector(57491276,28); WHEN "1010001010" => manhi <= conv_std_logic_vector(10403,24); manlo <= conv_std_logic_vector(60152452,28); WHEN "1010001011" => manhi <= conv_std_logic_vector(10419,24); manlo <= conv_std_logic_vector(62817727,28); WHEN "1010001100" => manhi <= conv_std_logic_vector(10435,24); manlo <= conv_std_logic_vector(65487100,28); WHEN "1010001101" => manhi <= conv_std_logic_vector(10451,24); manlo <= conv_std_logic_vector(68160572,28); WHEN "1010001110" => manhi <= conv_std_logic_vector(10467,24); manlo <= conv_std_logic_vector(70838142,28); WHEN "1010001111" => manhi <= conv_std_logic_vector(10483,24); manlo <= conv_std_logic_vector(73519811,28); WHEN "1010010000" => manhi <= conv_std_logic_vector(10499,24); manlo <= conv_std_logic_vector(76205578,28); WHEN "1010010001" => manhi <= conv_std_logic_vector(10515,24); manlo <= conv_std_logic_vector(78895444,28); WHEN "1010010010" => manhi <= conv_std_logic_vector(10531,24); manlo <= conv_std_logic_vector(81589409,28); WHEN "1010010011" => manhi <= conv_std_logic_vector(10547,24); manlo <= conv_std_logic_vector(84287472,28); WHEN "1010010100" => manhi <= conv_std_logic_vector(10563,24); manlo <= conv_std_logic_vector(86989633,28); WHEN "1010010101" => manhi <= conv_std_logic_vector(10579,24); manlo <= conv_std_logic_vector(89695894,28); WHEN "1010010110" => manhi <= conv_std_logic_vector(10595,24); manlo <= conv_std_logic_vector(92406252,28); WHEN "1010010111" => manhi <= conv_std_logic_vector(10611,24); manlo <= conv_std_logic_vector(95120710,28); WHEN "1010011000" => manhi <= conv_std_logic_vector(10627,24); manlo <= conv_std_logic_vector(97839266,28); WHEN "1010011001" => manhi <= conv_std_logic_vector(10643,24); manlo <= conv_std_logic_vector(100561920,28); WHEN "1010011010" => manhi <= conv_std_logic_vector(10659,24); manlo <= conv_std_logic_vector(103288674,28); WHEN "1010011011" => manhi <= conv_std_logic_vector(10675,24); manlo <= conv_std_logic_vector(106019525,28); WHEN "1010011100" => manhi <= conv_std_logic_vector(10691,24); manlo <= conv_std_logic_vector(108754476,28); WHEN "1010011101" => manhi <= conv_std_logic_vector(10707,24); manlo <= conv_std_logic_vector(111493525,28); WHEN "1010011110" => manhi <= conv_std_logic_vector(10723,24); manlo <= conv_std_logic_vector(114236673,28); WHEN "1010011111" => manhi <= conv_std_logic_vector(10739,24); manlo <= conv_std_logic_vector(116983919,28); WHEN "1010100000" => manhi <= conv_std_logic_vector(10755,24); manlo <= conv_std_logic_vector(119735264,28); WHEN "1010100001" => manhi <= conv_std_logic_vector(10771,24); manlo <= conv_std_logic_vector(122490707,28); WHEN "1010100010" => manhi <= conv_std_logic_vector(10787,24); manlo <= conv_std_logic_vector(125250249,28); WHEN "1010100011" => manhi <= conv_std_logic_vector(10803,24); manlo <= conv_std_logic_vector(128013890,28); WHEN "1010100100" => manhi <= conv_std_logic_vector(10819,24); manlo <= conv_std_logic_vector(130781629,28); WHEN "1010100101" => manhi <= conv_std_logic_vector(10835,24); manlo <= conv_std_logic_vector(133553468,28); WHEN "1010100110" => manhi <= conv_std_logic_vector(10851,24); manlo <= conv_std_logic_vector(136329404,28); WHEN "1010100111" => manhi <= conv_std_logic_vector(10867,24); manlo <= conv_std_logic_vector(139109440,28); WHEN "1010101000" => manhi <= conv_std_logic_vector(10883,24); manlo <= conv_std_logic_vector(141893574,28); WHEN "1010101001" => manhi <= conv_std_logic_vector(10899,24); manlo <= conv_std_logic_vector(144681806,28); WHEN "1010101010" => manhi <= conv_std_logic_vector(10915,24); manlo <= conv_std_logic_vector(147474137,28); WHEN "1010101011" => manhi <= conv_std_logic_vector(10931,24); manlo <= conv_std_logic_vector(150270567,28); WHEN "1010101100" => manhi <= conv_std_logic_vector(10947,24); manlo <= conv_std_logic_vector(153071096,28); WHEN "1010101101" => manhi <= conv_std_logic_vector(10963,24); manlo <= conv_std_logic_vector(155875723,28); WHEN "1010101110" => manhi <= conv_std_logic_vector(10979,24); manlo <= conv_std_logic_vector(158684449,28); WHEN "1010101111" => manhi <= conv_std_logic_vector(10995,24); manlo <= conv_std_logic_vector(161497274,28); WHEN "1010110000" => manhi <= conv_std_logic_vector(11011,24); manlo <= conv_std_logic_vector(164314197,28); WHEN "1010110001" => manhi <= conv_std_logic_vector(11027,24); manlo <= conv_std_logic_vector(167135219,28); WHEN "1010110010" => manhi <= conv_std_logic_vector(11043,24); manlo <= conv_std_logic_vector(169960340,28); WHEN "1010110011" => manhi <= conv_std_logic_vector(11059,24); manlo <= conv_std_logic_vector(172789560,28); WHEN "1010110100" => manhi <= conv_std_logic_vector(11075,24); manlo <= conv_std_logic_vector(175622878,28); WHEN "1010110101" => manhi <= conv_std_logic_vector(11091,24); manlo <= conv_std_logic_vector(178460295,28); WHEN "1010110110" => manhi <= conv_std_logic_vector(11107,24); manlo <= conv_std_logic_vector(181301810,28); WHEN "1010110111" => manhi <= conv_std_logic_vector(11123,24); manlo <= conv_std_logic_vector(184147424,28); WHEN "1010111000" => manhi <= conv_std_logic_vector(11139,24); manlo <= conv_std_logic_vector(186997137,28); WHEN "1010111001" => manhi <= conv_std_logic_vector(11155,24); manlo <= conv_std_logic_vector(189850949,28); WHEN "1010111010" => manhi <= conv_std_logic_vector(11171,24); manlo <= conv_std_logic_vector(192708860,28); WHEN "1010111011" => manhi <= conv_std_logic_vector(11187,24); manlo <= conv_std_logic_vector(195570869,28); WHEN "1010111100" => manhi <= conv_std_logic_vector(11203,24); manlo <= conv_std_logic_vector(198436977,28); WHEN "1010111101" => manhi <= conv_std_logic_vector(11219,24); manlo <= conv_std_logic_vector(201307183,28); WHEN "1010111110" => manhi <= conv_std_logic_vector(11235,24); manlo <= conv_std_logic_vector(204181489,28); WHEN "1010111111" => manhi <= conv_std_logic_vector(11251,24); manlo <= conv_std_logic_vector(207059893,28); WHEN "1011000000" => manhi <= conv_std_logic_vector(11267,24); manlo <= conv_std_logic_vector(209942395,28); WHEN "1011000001" => manhi <= conv_std_logic_vector(11283,24); manlo <= conv_std_logic_vector(212828997,28); WHEN "1011000010" => manhi <= conv_std_logic_vector(11299,24); manlo <= conv_std_logic_vector(215719697,28); WHEN "1011000011" => manhi <= conv_std_logic_vector(11315,24); manlo <= conv_std_logic_vector(218614497,28); WHEN "1011000100" => manhi <= conv_std_logic_vector(11331,24); manlo <= conv_std_logic_vector(221513394,28); WHEN "1011000101" => manhi <= conv_std_logic_vector(11347,24); manlo <= conv_std_logic_vector(224416391,28); WHEN "1011000110" => manhi <= conv_std_logic_vector(11363,24); manlo <= conv_std_logic_vector(227323486,28); WHEN "1011000111" => manhi <= conv_std_logic_vector(11379,24); manlo <= conv_std_logic_vector(230234681,28); WHEN "1011001000" => manhi <= conv_std_logic_vector(11395,24); manlo <= conv_std_logic_vector(233149974,28); WHEN "1011001001" => manhi <= conv_std_logic_vector(11411,24); manlo <= conv_std_logic_vector(236069365,28); WHEN "1011001010" => manhi <= conv_std_logic_vector(11427,24); manlo <= conv_std_logic_vector(238992856,28); WHEN "1011001011" => manhi <= conv_std_logic_vector(11443,24); manlo <= conv_std_logic_vector(241920445,28); WHEN "1011001100" => manhi <= conv_std_logic_vector(11459,24); manlo <= conv_std_logic_vector(244852133,28); WHEN "1011001101" => manhi <= conv_std_logic_vector(11475,24); manlo <= conv_std_logic_vector(247787920,28); WHEN "1011001110" => manhi <= conv_std_logic_vector(11491,24); manlo <= conv_std_logic_vector(250727806,28); WHEN "1011001111" => manhi <= conv_std_logic_vector(11507,24); manlo <= conv_std_logic_vector(253671790,28); WHEN "1011010000" => manhi <= conv_std_logic_vector(11523,24); manlo <= conv_std_logic_vector(256619874,28); WHEN "1011010001" => manhi <= conv_std_logic_vector(11539,24); manlo <= conv_std_logic_vector(259572056,28); WHEN "1011010010" => manhi <= conv_std_logic_vector(11555,24); manlo <= conv_std_logic_vector(262528337,28); WHEN "1011010011" => manhi <= conv_std_logic_vector(11571,24); manlo <= conv_std_logic_vector(265488717,28); WHEN "1011010100" => manhi <= conv_std_logic_vector(11588,24); manlo <= conv_std_logic_vector(17739,28); WHEN "1011010101" => manhi <= conv_std_logic_vector(11604,24); manlo <= conv_std_logic_vector(2986317,28); WHEN "1011010110" => manhi <= conv_std_logic_vector(11620,24); manlo <= conv_std_logic_vector(5958993,28); WHEN "1011010111" => manhi <= conv_std_logic_vector(11636,24); manlo <= conv_std_logic_vector(8935768,28); WHEN "1011011000" => manhi <= conv_std_logic_vector(11652,24); manlo <= conv_std_logic_vector(11916642,28); WHEN "1011011001" => manhi <= conv_std_logic_vector(11668,24); manlo <= conv_std_logic_vector(14901615,28); WHEN "1011011010" => manhi <= conv_std_logic_vector(11684,24); manlo <= conv_std_logic_vector(17890686,28); WHEN "1011011011" => manhi <= conv_std_logic_vector(11700,24); manlo <= conv_std_logic_vector(20883857,28); WHEN "1011011100" => manhi <= conv_std_logic_vector(11716,24); manlo <= conv_std_logic_vector(23881126,28); WHEN "1011011101" => manhi <= conv_std_logic_vector(11732,24); manlo <= conv_std_logic_vector(26882494,28); WHEN "1011011110" => manhi <= conv_std_logic_vector(11748,24); manlo <= conv_std_logic_vector(29887961,28); WHEN "1011011111" => manhi <= conv_std_logic_vector(11764,24); manlo <= conv_std_logic_vector(32897527,28); WHEN "1011100000" => manhi <= conv_std_logic_vector(11780,24); manlo <= conv_std_logic_vector(35911192,28); WHEN "1011100001" => manhi <= conv_std_logic_vector(11796,24); manlo <= conv_std_logic_vector(38928956,28); WHEN "1011100010" => manhi <= conv_std_logic_vector(11812,24); manlo <= conv_std_logic_vector(41950818,28); WHEN "1011100011" => manhi <= conv_std_logic_vector(11828,24); manlo <= conv_std_logic_vector(44976780,28); WHEN "1011100100" => manhi <= conv_std_logic_vector(11844,24); manlo <= conv_std_logic_vector(48006840,28); WHEN "1011100101" => manhi <= conv_std_logic_vector(11860,24); manlo <= conv_std_logic_vector(51040999,28); WHEN "1011100110" => manhi <= conv_std_logic_vector(11876,24); manlo <= conv_std_logic_vector(54079258,28); WHEN "1011100111" => manhi <= conv_std_logic_vector(11892,24); manlo <= conv_std_logic_vector(57121615,28); WHEN "1011101000" => manhi <= conv_std_logic_vector(11908,24); manlo <= conv_std_logic_vector(60168071,28); WHEN "1011101001" => manhi <= conv_std_logic_vector(11924,24); manlo <= conv_std_logic_vector(63218625,28); WHEN "1011101010" => manhi <= conv_std_logic_vector(11940,24); manlo <= conv_std_logic_vector(66273279,28); WHEN "1011101011" => manhi <= conv_std_logic_vector(11956,24); manlo <= conv_std_logic_vector(69332032,28); WHEN "1011101100" => manhi <= conv_std_logic_vector(11972,24); manlo <= conv_std_logic_vector(72394883,28); WHEN "1011101101" => manhi <= conv_std_logic_vector(11988,24); manlo <= conv_std_logic_vector(75461834,28); WHEN "1011101110" => manhi <= conv_std_logic_vector(12004,24); manlo <= conv_std_logic_vector(78532883,28); WHEN "1011101111" => manhi <= conv_std_logic_vector(12020,24); manlo <= conv_std_logic_vector(81608032,28); WHEN "1011110000" => manhi <= conv_std_logic_vector(12036,24); manlo <= conv_std_logic_vector(84687279,28); WHEN "1011110001" => manhi <= conv_std_logic_vector(12052,24); manlo <= conv_std_logic_vector(87770625,28); WHEN "1011110010" => manhi <= conv_std_logic_vector(12068,24); manlo <= conv_std_logic_vector(90858070,28); WHEN "1011110011" => manhi <= conv_std_logic_vector(12084,24); manlo <= conv_std_logic_vector(93949615,28); WHEN "1011110100" => manhi <= conv_std_logic_vector(12100,24); manlo <= conv_std_logic_vector(97045258,28); WHEN "1011110101" => manhi <= conv_std_logic_vector(12116,24); manlo <= conv_std_logic_vector(100145000,28); WHEN "1011110110" => manhi <= conv_std_logic_vector(12132,24); manlo <= conv_std_logic_vector(103248841,28); WHEN "1011110111" => manhi <= conv_std_logic_vector(12148,24); manlo <= conv_std_logic_vector(106356781,28); WHEN "1011111000" => manhi <= conv_std_logic_vector(12164,24); manlo <= conv_std_logic_vector(109468819,28); WHEN "1011111001" => manhi <= conv_std_logic_vector(12180,24); manlo <= conv_std_logic_vector(112584957,28); WHEN "1011111010" => manhi <= conv_std_logic_vector(12196,24); manlo <= conv_std_logic_vector(115705194,28); WHEN "1011111011" => manhi <= conv_std_logic_vector(12212,24); manlo <= conv_std_logic_vector(118829530,28); WHEN "1011111100" => manhi <= conv_std_logic_vector(12228,24); manlo <= conv_std_logic_vector(121957965,28); WHEN "1011111101" => manhi <= conv_std_logic_vector(12244,24); manlo <= conv_std_logic_vector(125090499,28); WHEN "1011111110" => manhi <= conv_std_logic_vector(12260,24); manlo <= conv_std_logic_vector(128227131,28); WHEN "1011111111" => manhi <= conv_std_logic_vector(12276,24); manlo <= conv_std_logic_vector(131367863,28); WHEN "1100000000" => manhi <= conv_std_logic_vector(12292,24); manlo <= conv_std_logic_vector(134512694,28); WHEN "1100000001" => manhi <= conv_std_logic_vector(12308,24); manlo <= conv_std_logic_vector(137661624,28); WHEN "1100000010" => manhi <= conv_std_logic_vector(12324,24); manlo <= conv_std_logic_vector(140814653,28); WHEN "1100000011" => manhi <= conv_std_logic_vector(12340,24); manlo <= conv_std_logic_vector(143971780,28); WHEN "1100000100" => manhi <= conv_std_logic_vector(12356,24); manlo <= conv_std_logic_vector(147133007,28); WHEN "1100000101" => manhi <= conv_std_logic_vector(12372,24); manlo <= conv_std_logic_vector(150298333,28); WHEN "1100000110" => manhi <= conv_std_logic_vector(12388,24); manlo <= conv_std_logic_vector(153467758,28); WHEN "1100000111" => manhi <= conv_std_logic_vector(12404,24); manlo <= conv_std_logic_vector(156641282,28); WHEN "1100001000" => manhi <= conv_std_logic_vector(12420,24); manlo <= conv_std_logic_vector(159818905,28); WHEN "1100001001" => manhi <= conv_std_logic_vector(12436,24); manlo <= conv_std_logic_vector(163000627,28); WHEN "1100001010" => manhi <= conv_std_logic_vector(12452,24); manlo <= conv_std_logic_vector(166186448,28); WHEN "1100001011" => manhi <= conv_std_logic_vector(12468,24); manlo <= conv_std_logic_vector(169376368,28); WHEN "1100001100" => manhi <= conv_std_logic_vector(12484,24); manlo <= conv_std_logic_vector(172570387,28); WHEN "1100001101" => manhi <= conv_std_logic_vector(12500,24); manlo <= conv_std_logic_vector(175768505,28); WHEN "1100001110" => manhi <= conv_std_logic_vector(12516,24); manlo <= conv_std_logic_vector(178970722,28); WHEN "1100001111" => manhi <= conv_std_logic_vector(12532,24); manlo <= conv_std_logic_vector(182177038,28); WHEN "1100010000" => manhi <= conv_std_logic_vector(12548,24); manlo <= conv_std_logic_vector(185387453,28); WHEN "1100010001" => manhi <= conv_std_logic_vector(12564,24); manlo <= conv_std_logic_vector(188601968,28); WHEN "1100010010" => manhi <= conv_std_logic_vector(12580,24); manlo <= conv_std_logic_vector(191820581,28); WHEN "1100010011" => manhi <= conv_std_logic_vector(12596,24); manlo <= conv_std_logic_vector(195043294,28); WHEN "1100010100" => manhi <= conv_std_logic_vector(12612,24); manlo <= conv_std_logic_vector(198270105,28); WHEN "1100010101" => manhi <= conv_std_logic_vector(12628,24); manlo <= conv_std_logic_vector(201501016,28); WHEN "1100010110" => manhi <= conv_std_logic_vector(12644,24); manlo <= conv_std_logic_vector(204736025,28); WHEN "1100010111" => manhi <= conv_std_logic_vector(12660,24); manlo <= conv_std_logic_vector(207975134,28); WHEN "1100011000" => manhi <= conv_std_logic_vector(12676,24); manlo <= conv_std_logic_vector(211218342,28); WHEN "1100011001" => manhi <= conv_std_logic_vector(12692,24); manlo <= conv_std_logic_vector(214465649,28); WHEN "1100011010" => manhi <= conv_std_logic_vector(12708,24); manlo <= conv_std_logic_vector(217717055,28); WHEN "1100011011" => manhi <= conv_std_logic_vector(12724,24); manlo <= conv_std_logic_vector(220972560,28); WHEN "1100011100" => manhi <= conv_std_logic_vector(12740,24); manlo <= conv_std_logic_vector(224232165,28); WHEN "1100011101" => manhi <= conv_std_logic_vector(12756,24); manlo <= conv_std_logic_vector(227495868,28); WHEN "1100011110" => manhi <= conv_std_logic_vector(12772,24); manlo <= conv_std_logic_vector(230763671,28); WHEN "1100011111" => manhi <= conv_std_logic_vector(12788,24); manlo <= conv_std_logic_vector(234035572,28); WHEN "1100100000" => manhi <= conv_std_logic_vector(12804,24); manlo <= conv_std_logic_vector(237311573,28); WHEN "1100100001" => manhi <= conv_std_logic_vector(12820,24); manlo <= conv_std_logic_vector(240591673,28); WHEN "1100100010" => manhi <= conv_std_logic_vector(12836,24); manlo <= conv_std_logic_vector(243875872,28); WHEN "1100100011" => manhi <= conv_std_logic_vector(12852,24); manlo <= conv_std_logic_vector(247164170,28); WHEN "1100100100" => manhi <= conv_std_logic_vector(12868,24); manlo <= conv_std_logic_vector(250456567,28); WHEN "1100100101" => manhi <= conv_std_logic_vector(12884,24); manlo <= conv_std_logic_vector(253753064,28); WHEN "1100100110" => manhi <= conv_std_logic_vector(12900,24); manlo <= conv_std_logic_vector(257053659,28); WHEN "1100100111" => manhi <= conv_std_logic_vector(12916,24); manlo <= conv_std_logic_vector(260358354,28); WHEN "1100101000" => manhi <= conv_std_logic_vector(12932,24); manlo <= conv_std_logic_vector(263667148,28); WHEN "1100101001" => manhi <= conv_std_logic_vector(12948,24); manlo <= conv_std_logic_vector(266980041,28); WHEN "1100101010" => manhi <= conv_std_logic_vector(12965,24); manlo <= conv_std_logic_vector(1861577,28); WHEN "1100101011" => manhi <= conv_std_logic_vector(12981,24); manlo <= conv_std_logic_vector(5182668,28); WHEN "1100101100" => manhi <= conv_std_logic_vector(12997,24); manlo <= conv_std_logic_vector(8507859,28); WHEN "1100101101" => manhi <= conv_std_logic_vector(13013,24); manlo <= conv_std_logic_vector(11837149,28); WHEN "1100101110" => manhi <= conv_std_logic_vector(13029,24); manlo <= conv_std_logic_vector(15170538,28); WHEN "1100101111" => manhi <= conv_std_logic_vector(13045,24); manlo <= conv_std_logic_vector(18508026,28); WHEN "1100110000" => manhi <= conv_std_logic_vector(13061,24); manlo <= conv_std_logic_vector(21849613,28); WHEN "1100110001" => manhi <= conv_std_logic_vector(13077,24); manlo <= conv_std_logic_vector(25195299,28); WHEN "1100110010" => manhi <= conv_std_logic_vector(13093,24); manlo <= conv_std_logic_vector(28545085,28); WHEN "1100110011" => manhi <= conv_std_logic_vector(13109,24); manlo <= conv_std_logic_vector(31898970,28); WHEN "1100110100" => manhi <= conv_std_logic_vector(13125,24); manlo <= conv_std_logic_vector(35256954,28); WHEN "1100110101" => manhi <= conv_std_logic_vector(13141,24); manlo <= conv_std_logic_vector(38619037,28); WHEN "1100110110" => manhi <= conv_std_logic_vector(13157,24); manlo <= conv_std_logic_vector(41985219,28); WHEN "1100110111" => manhi <= conv_std_logic_vector(13173,24); manlo <= conv_std_logic_vector(45355501,28); WHEN "1100111000" => manhi <= conv_std_logic_vector(13189,24); manlo <= conv_std_logic_vector(48729882,28); WHEN "1100111001" => manhi <= conv_std_logic_vector(13205,24); manlo <= conv_std_logic_vector(52108362,28); WHEN "1100111010" => manhi <= conv_std_logic_vector(13221,24); manlo <= conv_std_logic_vector(55490941,28); WHEN "1100111011" => manhi <= conv_std_logic_vector(13237,24); manlo <= conv_std_logic_vector(58877620,28); WHEN "1100111100" => manhi <= conv_std_logic_vector(13253,24); manlo <= conv_std_logic_vector(62268398,28); WHEN "1100111101" => manhi <= conv_std_logic_vector(13269,24); manlo <= conv_std_logic_vector(65663275,28); WHEN "1100111110" => manhi <= conv_std_logic_vector(13285,24); manlo <= conv_std_logic_vector(69062251,28); WHEN "1100111111" => manhi <= conv_std_logic_vector(13301,24); manlo <= conv_std_logic_vector(72465326,28); WHEN "1101000000" => manhi <= conv_std_logic_vector(13317,24); manlo <= conv_std_logic_vector(75872501,28); WHEN "1101000001" => manhi <= conv_std_logic_vector(13333,24); manlo <= conv_std_logic_vector(79283775,28); WHEN "1101000010" => manhi <= conv_std_logic_vector(13349,24); manlo <= conv_std_logic_vector(82699148,28); WHEN "1101000011" => manhi <= conv_std_logic_vector(13365,24); manlo <= conv_std_logic_vector(86118621,28); WHEN "1101000100" => manhi <= conv_std_logic_vector(13381,24); manlo <= conv_std_logic_vector(89542193,28); WHEN "1101000101" => manhi <= conv_std_logic_vector(13397,24); manlo <= conv_std_logic_vector(92969864,28); WHEN "1101000110" => manhi <= conv_std_logic_vector(13413,24); manlo <= conv_std_logic_vector(96401634,28); WHEN "1101000111" => manhi <= conv_std_logic_vector(13429,24); manlo <= conv_std_logic_vector(99837503,28); WHEN "1101001000" => manhi <= conv_std_logic_vector(13445,24); manlo <= conv_std_logic_vector(103277472,28); WHEN "1101001001" => manhi <= conv_std_logic_vector(13461,24); manlo <= conv_std_logic_vector(106721540,28); WHEN "1101001010" => manhi <= conv_std_logic_vector(13477,24); manlo <= conv_std_logic_vector(110169708,28); WHEN "1101001011" => manhi <= conv_std_logic_vector(13493,24); manlo <= conv_std_logic_vector(113621975,28); WHEN "1101001100" => manhi <= conv_std_logic_vector(13509,24); manlo <= conv_std_logic_vector(117078341,28); WHEN "1101001101" => manhi <= conv_std_logic_vector(13525,24); manlo <= conv_std_logic_vector(120538806,28); WHEN "1101001110" => manhi <= conv_std_logic_vector(13541,24); manlo <= conv_std_logic_vector(124003370,28); WHEN "1101001111" => manhi <= conv_std_logic_vector(13557,24); manlo <= conv_std_logic_vector(127472034,28); WHEN "1101010000" => manhi <= conv_std_logic_vector(13573,24); manlo <= conv_std_logic_vector(130944798,28); WHEN "1101010001" => manhi <= conv_std_logic_vector(13589,24); manlo <= conv_std_logic_vector(134421660,28); WHEN "1101010010" => manhi <= conv_std_logic_vector(13605,24); manlo <= conv_std_logic_vector(137902622,28); WHEN "1101010011" => manhi <= conv_std_logic_vector(13621,24); manlo <= conv_std_logic_vector(141387683,28); WHEN "1101010100" => manhi <= conv_std_logic_vector(13637,24); manlo <= conv_std_logic_vector(144876844,28); WHEN "1101010101" => manhi <= conv_std_logic_vector(13653,24); manlo <= conv_std_logic_vector(148370104,28); WHEN "1101010110" => manhi <= conv_std_logic_vector(13669,24); manlo <= conv_std_logic_vector(151867463,28); WHEN "1101010111" => manhi <= conv_std_logic_vector(13685,24); manlo <= conv_std_logic_vector(155368921,28); WHEN "1101011000" => manhi <= conv_std_logic_vector(13701,24); manlo <= conv_std_logic_vector(158874479,28); WHEN "1101011001" => manhi <= conv_std_logic_vector(13717,24); manlo <= conv_std_logic_vector(162384136,28); WHEN "1101011010" => manhi <= conv_std_logic_vector(13733,24); manlo <= conv_std_logic_vector(165897893,28); WHEN "1101011011" => manhi <= conv_std_logic_vector(13749,24); manlo <= conv_std_logic_vector(169415749,28); WHEN "1101011100" => manhi <= conv_std_logic_vector(13765,24); manlo <= conv_std_logic_vector(172937704,28); WHEN "1101011101" => manhi <= conv_std_logic_vector(13781,24); manlo <= conv_std_logic_vector(176463758,28); WHEN "1101011110" => manhi <= conv_std_logic_vector(13797,24); manlo <= conv_std_logic_vector(179993912,28); WHEN "1101011111" => manhi <= conv_std_logic_vector(13813,24); manlo <= conv_std_logic_vector(183528166,28); WHEN "1101100000" => manhi <= conv_std_logic_vector(13829,24); manlo <= conv_std_logic_vector(187066519,28); WHEN "1101100001" => manhi <= conv_std_logic_vector(13845,24); manlo <= conv_std_logic_vector(190608971,28); WHEN "1101100010" => manhi <= conv_std_logic_vector(13861,24); manlo <= conv_std_logic_vector(194155522,28); WHEN "1101100011" => manhi <= conv_std_logic_vector(13877,24); manlo <= conv_std_logic_vector(197706173,28); WHEN "1101100100" => manhi <= conv_std_logic_vector(13893,24); manlo <= conv_std_logic_vector(201260923,28); WHEN "1101100101" => manhi <= conv_std_logic_vector(13909,24); manlo <= conv_std_logic_vector(204819773,28); WHEN "1101100110" => manhi <= conv_std_logic_vector(13925,24); manlo <= conv_std_logic_vector(208382722,28); WHEN "1101100111" => manhi <= conv_std_logic_vector(13941,24); manlo <= conv_std_logic_vector(211949770,28); WHEN "1101101000" => manhi <= conv_std_logic_vector(13957,24); manlo <= conv_std_logic_vector(215520918,28); WHEN "1101101001" => manhi <= conv_std_logic_vector(13973,24); manlo <= conv_std_logic_vector(219096165,28); WHEN "1101101010" => manhi <= conv_std_logic_vector(13989,24); manlo <= conv_std_logic_vector(222675512,28); WHEN "1101101011" => manhi <= conv_std_logic_vector(14005,24); manlo <= conv_std_logic_vector(226258958,28); WHEN "1101101100" => manhi <= conv_std_logic_vector(14021,24); manlo <= conv_std_logic_vector(229846504,28); WHEN "1101101101" => manhi <= conv_std_logic_vector(14037,24); manlo <= conv_std_logic_vector(233438148,28); WHEN "1101101110" => manhi <= conv_std_logic_vector(14053,24); manlo <= conv_std_logic_vector(237033893,28); WHEN "1101101111" => manhi <= conv_std_logic_vector(14069,24); manlo <= conv_std_logic_vector(240633737,28); WHEN "1101110000" => manhi <= conv_std_logic_vector(14085,24); manlo <= conv_std_logic_vector(244237680,28); WHEN "1101110001" => manhi <= conv_std_logic_vector(14101,24); manlo <= conv_std_logic_vector(247845722,28); WHEN "1101110010" => manhi <= conv_std_logic_vector(14117,24); manlo <= conv_std_logic_vector(251457864,28); WHEN "1101110011" => manhi <= conv_std_logic_vector(14133,24); manlo <= conv_std_logic_vector(255074106,28); WHEN "1101110100" => manhi <= conv_std_logic_vector(14149,24); manlo <= conv_std_logic_vector(258694447,28); WHEN "1101110101" => manhi <= conv_std_logic_vector(14165,24); manlo <= conv_std_logic_vector(262318887,28); WHEN "1101110110" => manhi <= conv_std_logic_vector(14181,24); manlo <= conv_std_logic_vector(265947427,28); WHEN "1101110111" => manhi <= conv_std_logic_vector(14198,24); manlo <= conv_std_logic_vector(1144611,28); WHEN "1101111000" => manhi <= conv_std_logic_vector(14214,24); manlo <= conv_std_logic_vector(4781350,28); WHEN "1101111001" => manhi <= conv_std_logic_vector(14230,24); manlo <= conv_std_logic_vector(8422188,28); WHEN "1101111010" => manhi <= conv_std_logic_vector(14246,24); manlo <= conv_std_logic_vector(12067126,28); WHEN "1101111011" => manhi <= conv_std_logic_vector(14262,24); manlo <= conv_std_logic_vector(15716163,28); WHEN "1101111100" => manhi <= conv_std_logic_vector(14278,24); manlo <= conv_std_logic_vector(19369300,28); WHEN "1101111101" => manhi <= conv_std_logic_vector(14294,24); manlo <= conv_std_logic_vector(23026536,28); WHEN "1101111110" => manhi <= conv_std_logic_vector(14310,24); manlo <= conv_std_logic_vector(26687871,28); WHEN "1101111111" => manhi <= conv_std_logic_vector(14326,24); manlo <= conv_std_logic_vector(30353307,28); WHEN "1110000000" => manhi <= conv_std_logic_vector(14342,24); manlo <= conv_std_logic_vector(34022841,28); WHEN "1110000001" => manhi <= conv_std_logic_vector(14358,24); manlo <= conv_std_logic_vector(37696476,28); WHEN "1110000010" => manhi <= conv_std_logic_vector(14374,24); manlo <= conv_std_logic_vector(41374209,28); WHEN "1110000011" => manhi <= conv_std_logic_vector(14390,24); manlo <= conv_std_logic_vector(45056043,28); WHEN "1110000100" => manhi <= conv_std_logic_vector(14406,24); manlo <= conv_std_logic_vector(48741975,28); WHEN "1110000101" => manhi <= conv_std_logic_vector(14422,24); manlo <= conv_std_logic_vector(52432007,28); WHEN "1110000110" => manhi <= conv_std_logic_vector(14438,24); manlo <= conv_std_logic_vector(56126139,28); WHEN "1110000111" => manhi <= conv_std_logic_vector(14454,24); manlo <= conv_std_logic_vector(59824371,28); WHEN "1110001000" => manhi <= conv_std_logic_vector(14470,24); manlo <= conv_std_logic_vector(63526701,28); WHEN "1110001001" => manhi <= conv_std_logic_vector(14486,24); manlo <= conv_std_logic_vector(67233132,28); WHEN "1110001010" => manhi <= conv_std_logic_vector(14502,24); manlo <= conv_std_logic_vector(70943662,28); WHEN "1110001011" => manhi <= conv_std_logic_vector(14518,24); manlo <= conv_std_logic_vector(74658291,28); WHEN "1110001100" => manhi <= conv_std_logic_vector(14534,24); manlo <= conv_std_logic_vector(78377020,28); WHEN "1110001101" => manhi <= conv_std_logic_vector(14550,24); manlo <= conv_std_logic_vector(82099849,28); WHEN "1110001110" => manhi <= conv_std_logic_vector(14566,24); manlo <= conv_std_logic_vector(85826777,28); WHEN "1110001111" => manhi <= conv_std_logic_vector(14582,24); manlo <= conv_std_logic_vector(89557804,28); WHEN "1110010000" => manhi <= conv_std_logic_vector(14598,24); manlo <= conv_std_logic_vector(93292931,28); WHEN "1110010001" => manhi <= conv_std_logic_vector(14614,24); manlo <= conv_std_logic_vector(97032158,28); WHEN "1110010010" => manhi <= conv_std_logic_vector(14630,24); manlo <= conv_std_logic_vector(100775484,28); WHEN "1110010011" => manhi <= conv_std_logic_vector(14646,24); manlo <= conv_std_logic_vector(104522910,28); WHEN "1110010100" => manhi <= conv_std_logic_vector(14662,24); manlo <= conv_std_logic_vector(108274436,28); WHEN "1110010101" => manhi <= conv_std_logic_vector(14678,24); manlo <= conv_std_logic_vector(112030061,28); WHEN "1110010110" => manhi <= conv_std_logic_vector(14694,24); manlo <= conv_std_logic_vector(115789786,28); WHEN "1110010111" => manhi <= conv_std_logic_vector(14710,24); manlo <= conv_std_logic_vector(119553610,28); WHEN "1110011000" => manhi <= conv_std_logic_vector(14726,24); manlo <= conv_std_logic_vector(123321534,28); WHEN "1110011001" => manhi <= conv_std_logic_vector(14742,24); manlo <= conv_std_logic_vector(127093557,28); WHEN "1110011010" => manhi <= conv_std_logic_vector(14758,24); manlo <= conv_std_logic_vector(130869680,28); WHEN "1110011011" => manhi <= conv_std_logic_vector(14774,24); manlo <= conv_std_logic_vector(134649903,28); WHEN "1110011100" => manhi <= conv_std_logic_vector(14790,24); manlo <= conv_std_logic_vector(138434225,28); WHEN "1110011101" => manhi <= conv_std_logic_vector(14806,24); manlo <= conv_std_logic_vector(142222647,28); WHEN "1110011110" => manhi <= conv_std_logic_vector(14822,24); manlo <= conv_std_logic_vector(146015168,28); WHEN "1110011111" => manhi <= conv_std_logic_vector(14838,24); manlo <= conv_std_logic_vector(149811789,28); WHEN "1110100000" => manhi <= conv_std_logic_vector(14854,24); manlo <= conv_std_logic_vector(153612510,28); WHEN "1110100001" => manhi <= conv_std_logic_vector(14870,24); manlo <= conv_std_logic_vector(157417330,28); WHEN "1110100010" => manhi <= conv_std_logic_vector(14886,24); manlo <= conv_std_logic_vector(161226250,28); WHEN "1110100011" => manhi <= conv_std_logic_vector(14902,24); manlo <= conv_std_logic_vector(165039270,28); WHEN "1110100100" => manhi <= conv_std_logic_vector(14918,24); manlo <= conv_std_logic_vector(168856389,28); WHEN "1110100101" => manhi <= conv_std_logic_vector(14934,24); manlo <= conv_std_logic_vector(172677608,28); WHEN "1110100110" => manhi <= conv_std_logic_vector(14950,24); manlo <= conv_std_logic_vector(176502926,28); WHEN "1110100111" => manhi <= conv_std_logic_vector(14966,24); manlo <= conv_std_logic_vector(180332344,28); WHEN "1110101000" => manhi <= conv_std_logic_vector(14982,24); manlo <= conv_std_logic_vector(184165862,28); WHEN "1110101001" => manhi <= conv_std_logic_vector(14998,24); manlo <= conv_std_logic_vector(188003480,28); WHEN "1110101010" => manhi <= conv_std_logic_vector(15014,24); manlo <= conv_std_logic_vector(191845197,28); WHEN "1110101011" => manhi <= conv_std_logic_vector(15030,24); manlo <= conv_std_logic_vector(195691014,28); WHEN "1110101100" => manhi <= conv_std_logic_vector(15046,24); manlo <= conv_std_logic_vector(199540930,28); WHEN "1110101101" => manhi <= conv_std_logic_vector(15062,24); manlo <= conv_std_logic_vector(203394946,28); WHEN "1110101110" => manhi <= conv_std_logic_vector(15078,24); manlo <= conv_std_logic_vector(207253062,28); WHEN "1110101111" => manhi <= conv_std_logic_vector(15094,24); manlo <= conv_std_logic_vector(211115277,28); WHEN "1110110000" => manhi <= conv_std_logic_vector(15110,24); manlo <= conv_std_logic_vector(214981593,28); WHEN "1110110001" => manhi <= conv_std_logic_vector(15126,24); manlo <= conv_std_logic_vector(218852007,28); WHEN "1110110010" => manhi <= conv_std_logic_vector(15142,24); manlo <= conv_std_logic_vector(222726522,28); WHEN "1110110011" => manhi <= conv_std_logic_vector(15158,24); manlo <= conv_std_logic_vector(226605136,28); WHEN "1110110100" => manhi <= conv_std_logic_vector(15174,24); manlo <= conv_std_logic_vector(230487850,28); WHEN "1110110101" => manhi <= conv_std_logic_vector(15190,24); manlo <= conv_std_logic_vector(234374664,28); WHEN "1110110110" => manhi <= conv_std_logic_vector(15206,24); manlo <= conv_std_logic_vector(238265577,28); WHEN "1110110111" => manhi <= conv_std_logic_vector(15222,24); manlo <= conv_std_logic_vector(242160590,28); WHEN "1110111000" => manhi <= conv_std_logic_vector(15238,24); manlo <= conv_std_logic_vector(246059703,28); WHEN "1110111001" => manhi <= conv_std_logic_vector(15254,24); manlo <= conv_std_logic_vector(249962916,28); WHEN "1110111010" => manhi <= conv_std_logic_vector(15270,24); manlo <= conv_std_logic_vector(253870228,28); WHEN "1110111011" => manhi <= conv_std_logic_vector(15286,24); manlo <= conv_std_logic_vector(257781640,28); WHEN "1110111100" => manhi <= conv_std_logic_vector(15302,24); manlo <= conv_std_logic_vector(261697152,28); WHEN "1110111101" => manhi <= conv_std_logic_vector(15318,24); manlo <= conv_std_logic_vector(265616763,28); WHEN "1110111110" => manhi <= conv_std_logic_vector(15335,24); manlo <= conv_std_logic_vector(1105018,28); WHEN "1110111111" => manhi <= conv_std_logic_vector(15351,24); manlo <= conv_std_logic_vector(5032829,28); WHEN "1111000000" => manhi <= conv_std_logic_vector(15367,24); manlo <= conv_std_logic_vector(8964740,28); WHEN "1111000001" => manhi <= conv_std_logic_vector(15383,24); manlo <= conv_std_logic_vector(12900750,28); WHEN "1111000010" => manhi <= conv_std_logic_vector(15399,24); manlo <= conv_std_logic_vector(16840860,28); WHEN "1111000011" => manhi <= conv_std_logic_vector(15415,24); manlo <= conv_std_logic_vector(20785070,28); WHEN "1111000100" => manhi <= conv_std_logic_vector(15431,24); manlo <= conv_std_logic_vector(24733380,28); WHEN "1111000101" => manhi <= conv_std_logic_vector(15447,24); manlo <= conv_std_logic_vector(28685790,28); WHEN "1111000110" => manhi <= conv_std_logic_vector(15463,24); manlo <= conv_std_logic_vector(32642299,28); WHEN "1111000111" => manhi <= conv_std_logic_vector(15479,24); manlo <= conv_std_logic_vector(36602908,28); WHEN "1111001000" => manhi <= conv_std_logic_vector(15495,24); manlo <= conv_std_logic_vector(40567617,28); WHEN "1111001001" => manhi <= conv_std_logic_vector(15511,24); manlo <= conv_std_logic_vector(44536425,28); WHEN "1111001010" => manhi <= conv_std_logic_vector(15527,24); manlo <= conv_std_logic_vector(48509334,28); WHEN "1111001011" => manhi <= conv_std_logic_vector(15543,24); manlo <= conv_std_logic_vector(52486342,28); WHEN "1111001100" => manhi <= conv_std_logic_vector(15559,24); manlo <= conv_std_logic_vector(56467450,28); WHEN "1111001101" => manhi <= conv_std_logic_vector(15575,24); manlo <= conv_std_logic_vector(60452657,28); WHEN "1111001110" => manhi <= conv_std_logic_vector(15591,24); manlo <= conv_std_logic_vector(64441965,28); WHEN "1111001111" => manhi <= conv_std_logic_vector(15607,24); manlo <= conv_std_logic_vector(68435372,28); WHEN "1111010000" => manhi <= conv_std_logic_vector(15623,24); manlo <= conv_std_logic_vector(72432880,28); WHEN "1111010001" => manhi <= conv_std_logic_vector(15639,24); manlo <= conv_std_logic_vector(76434487,28); WHEN "1111010010" => manhi <= conv_std_logic_vector(15655,24); manlo <= conv_std_logic_vector(80440193,28); WHEN "1111010011" => manhi <= conv_std_logic_vector(15671,24); manlo <= conv_std_logic_vector(84450000,28); WHEN "1111010100" => manhi <= conv_std_logic_vector(15687,24); manlo <= conv_std_logic_vector(88463906,28); WHEN "1111010101" => manhi <= conv_std_logic_vector(15703,24); manlo <= conv_std_logic_vector(92481913,28); WHEN "1111010110" => manhi <= conv_std_logic_vector(15719,24); manlo <= conv_std_logic_vector(96504019,28); WHEN "1111010111" => manhi <= conv_std_logic_vector(15735,24); manlo <= conv_std_logic_vector(100530225,28); WHEN "1111011000" => manhi <= conv_std_logic_vector(15751,24); manlo <= conv_std_logic_vector(104560531,28); WHEN "1111011001" => manhi <= conv_std_logic_vector(15767,24); manlo <= conv_std_logic_vector(108594936,28); WHEN "1111011010" => manhi <= conv_std_logic_vector(15783,24); manlo <= conv_std_logic_vector(112633442,28); WHEN "1111011011" => manhi <= conv_std_logic_vector(15799,24); manlo <= conv_std_logic_vector(116676047,28); WHEN "1111011100" => manhi <= conv_std_logic_vector(15815,24); manlo <= conv_std_logic_vector(120722752,28); WHEN "1111011101" => manhi <= conv_std_logic_vector(15831,24); manlo <= conv_std_logic_vector(124773557,28); WHEN "1111011110" => manhi <= conv_std_logic_vector(15847,24); manlo <= conv_std_logic_vector(128828462,28); WHEN "1111011111" => manhi <= conv_std_logic_vector(15863,24); manlo <= conv_std_logic_vector(132887467,28); WHEN "1111100000" => manhi <= conv_std_logic_vector(15879,24); manlo <= conv_std_logic_vector(136950572,28); WHEN "1111100001" => manhi <= conv_std_logic_vector(15895,24); manlo <= conv_std_logic_vector(141017776,28); WHEN "1111100010" => manhi <= conv_std_logic_vector(15911,24); manlo <= conv_std_logic_vector(145089081,28); WHEN "1111100011" => manhi <= conv_std_logic_vector(15927,24); manlo <= conv_std_logic_vector(149164485,28); WHEN "1111100100" => manhi <= conv_std_logic_vector(15943,24); manlo <= conv_std_logic_vector(153243989,28); WHEN "1111100101" => manhi <= conv_std_logic_vector(15959,24); manlo <= conv_std_logic_vector(157327593,28); WHEN "1111100110" => manhi <= conv_std_logic_vector(15975,24); manlo <= conv_std_logic_vector(161415297,28); WHEN "1111100111" => manhi <= conv_std_logic_vector(15991,24); manlo <= conv_std_logic_vector(165507101,28); WHEN "1111101000" => manhi <= conv_std_logic_vector(16007,24); manlo <= conv_std_logic_vector(169603005,28); WHEN "1111101001" => manhi <= conv_std_logic_vector(16023,24); manlo <= conv_std_logic_vector(173703009,28); WHEN "1111101010" => manhi <= conv_std_logic_vector(16039,24); manlo <= conv_std_logic_vector(177807112,28); WHEN "1111101011" => manhi <= conv_std_logic_vector(16055,24); manlo <= conv_std_logic_vector(181915316,28); WHEN "1111101100" => manhi <= conv_std_logic_vector(16071,24); manlo <= conv_std_logic_vector(186027619,28); WHEN "1111101101" => manhi <= conv_std_logic_vector(16087,24); manlo <= conv_std_logic_vector(190144023,28); WHEN "1111101110" => manhi <= conv_std_logic_vector(16103,24); manlo <= conv_std_logic_vector(194264526,28); WHEN "1111101111" => manhi <= conv_std_logic_vector(16119,24); manlo <= conv_std_logic_vector(198389129,28); WHEN "1111110000" => manhi <= conv_std_logic_vector(16135,24); manlo <= conv_std_logic_vector(202517832,28); WHEN "1111110001" => manhi <= conv_std_logic_vector(16151,24); manlo <= conv_std_logic_vector(206650635,28); WHEN "1111110010" => manhi <= conv_std_logic_vector(16167,24); manlo <= conv_std_logic_vector(210787538,28); WHEN "1111110011" => manhi <= conv_std_logic_vector(16183,24); manlo <= conv_std_logic_vector(214928541,28); WHEN "1111110100" => manhi <= conv_std_logic_vector(16199,24); manlo <= conv_std_logic_vector(219073644,28); WHEN "1111110101" => manhi <= conv_std_logic_vector(16215,24); manlo <= conv_std_logic_vector(223222847,28); WHEN "1111110110" => manhi <= conv_std_logic_vector(16231,24); manlo <= conv_std_logic_vector(227376150,28); WHEN "1111110111" => manhi <= conv_std_logic_vector(16247,24); manlo <= conv_std_logic_vector(231533553,28); WHEN "1111111000" => manhi <= conv_std_logic_vector(16263,24); manlo <= conv_std_logic_vector(235695056,28); WHEN "1111111001" => manhi <= conv_std_logic_vector(16279,24); manlo <= conv_std_logic_vector(239860659,28); WHEN "1111111010" => manhi <= conv_std_logic_vector(16295,24); manlo <= conv_std_logic_vector(244030361,28); WHEN "1111111011" => manhi <= conv_std_logic_vector(16311,24); manlo <= conv_std_logic_vector(248204164,28); WHEN "1111111100" => manhi <= conv_std_logic_vector(16327,24); manlo <= conv_std_logic_vector(252382067,28); WHEN "1111111101" => manhi <= conv_std_logic_vector(16343,24); manlo <= conv_std_logic_vector(256564069,28); WHEN "1111111110" => manhi <= conv_std_logic_vector(16359,24); manlo <= conv_std_logic_vector(260750172,28); WHEN "1111111111" => manhi <= conv_std_logic_vector(16375,24); manlo <= conv_std_logic_vector(264940375,28); WHEN others => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); END CASE; END PROCESS; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** DP_EXPLUT20.VHD *** --*** *** --*** Function: Look Up Table - EXP() *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 18/02/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY dp_explut20 IS PORT ( add : IN STD_LOGIC_VECTOR (10 DOWNTO 1); manhi : OUT STD_LOGIC_VECTOR (24 DOWNTO 1); manlo : OUT STD_LOGIC_VECTOR (28 DOWNTO 1) ); END dp_explut20; ARCHITECTURE rtl OF dp_explut20 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "0000000000" => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); WHEN "0000000001" => manhi <= conv_std_logic_vector(16,24); manlo <= conv_std_logic_vector(2048,28); WHEN "0000000010" => manhi <= conv_std_logic_vector(32,24); manlo <= conv_std_logic_vector(8192,28); WHEN "0000000011" => manhi <= conv_std_logic_vector(48,24); manlo <= conv_std_logic_vector(18432,28); WHEN "0000000100" => manhi <= conv_std_logic_vector(64,24); manlo <= conv_std_logic_vector(32768,28); WHEN "0000000101" => manhi <= conv_std_logic_vector(80,24); manlo <= conv_std_logic_vector(51200,28); WHEN "0000000110" => manhi <= conv_std_logic_vector(96,24); manlo <= conv_std_logic_vector(73728,28); WHEN "0000000111" => manhi <= conv_std_logic_vector(112,24); manlo <= conv_std_logic_vector(100352,28); WHEN "0000001000" => manhi <= conv_std_logic_vector(128,24); manlo <= conv_std_logic_vector(131072,28); WHEN "0000001001" => manhi <= conv_std_logic_vector(144,24); manlo <= conv_std_logic_vector(165888,28); WHEN "0000001010" => manhi <= conv_std_logic_vector(160,24); manlo <= conv_std_logic_vector(204801,28); WHEN "0000001011" => manhi <= conv_std_logic_vector(176,24); manlo <= conv_std_logic_vector(247809,28); WHEN "0000001100" => manhi <= conv_std_logic_vector(192,24); manlo <= conv_std_logic_vector(294913,28); WHEN "0000001101" => manhi <= conv_std_logic_vector(208,24); manlo <= conv_std_logic_vector(346113,28); WHEN "0000001110" => manhi <= conv_std_logic_vector(224,24); manlo <= conv_std_logic_vector(401410,28); WHEN "0000001111" => manhi <= conv_std_logic_vector(240,24); manlo <= conv_std_logic_vector(460802,28); WHEN "0000010000" => manhi <= conv_std_logic_vector(256,24); manlo <= conv_std_logic_vector(524291,28); WHEN "0000010001" => manhi <= conv_std_logic_vector(272,24); manlo <= conv_std_logic_vector(591875,28); WHEN "0000010010" => manhi <= conv_std_logic_vector(288,24); manlo <= conv_std_logic_vector(663556,28); WHEN "0000010011" => manhi <= conv_std_logic_vector(304,24); manlo <= conv_std_logic_vector(739332,28); WHEN "0000010100" => manhi <= conv_std_logic_vector(320,24); manlo <= conv_std_logic_vector(819205,28); WHEN "0000010101" => manhi <= conv_std_logic_vector(336,24); manlo <= conv_std_logic_vector(903174,28); WHEN "0000010110" => manhi <= conv_std_logic_vector(352,24); manlo <= conv_std_logic_vector(991239,28); WHEN "0000010111" => manhi <= conv_std_logic_vector(368,24); manlo <= conv_std_logic_vector(1083400,28); WHEN "0000011000" => manhi <= conv_std_logic_vector(384,24); manlo <= conv_std_logic_vector(1179657,28); WHEN "0000011001" => manhi <= conv_std_logic_vector(400,24); manlo <= conv_std_logic_vector(1280010,28); WHEN "0000011010" => manhi <= conv_std_logic_vector(416,24); manlo <= conv_std_logic_vector(1384459,28); WHEN "0000011011" => manhi <= conv_std_logic_vector(432,24); manlo <= conv_std_logic_vector(1493005,28); WHEN "0000011100" => manhi <= conv_std_logic_vector(448,24); manlo <= conv_std_logic_vector(1605646,28); WHEN "0000011101" => manhi <= conv_std_logic_vector(464,24); manlo <= conv_std_logic_vector(1722384,28); WHEN "0000011110" => manhi <= conv_std_logic_vector(480,24); manlo <= conv_std_logic_vector(1843218,28); WHEN "0000011111" => manhi <= conv_std_logic_vector(496,24); manlo <= conv_std_logic_vector(1968147,28); WHEN "0000100000" => manhi <= conv_std_logic_vector(512,24); manlo <= conv_std_logic_vector(2097173,28); WHEN "0000100001" => manhi <= conv_std_logic_vector(528,24); manlo <= conv_std_logic_vector(2230295,28); WHEN "0000100010" => manhi <= conv_std_logic_vector(544,24); manlo <= conv_std_logic_vector(2367514,28); WHEN "0000100011" => manhi <= conv_std_logic_vector(560,24); manlo <= conv_std_logic_vector(2508828,28); WHEN "0000100100" => manhi <= conv_std_logic_vector(576,24); manlo <= conv_std_logic_vector(2654238,28); WHEN "0000100101" => manhi <= conv_std_logic_vector(592,24); manlo <= conv_std_logic_vector(2803745,28); WHEN "0000100110" => manhi <= conv_std_logic_vector(608,24); manlo <= conv_std_logic_vector(2957348,28); WHEN "0000100111" => manhi <= conv_std_logic_vector(624,24); manlo <= conv_std_logic_vector(3115047,28); WHEN "0000101000" => manhi <= conv_std_logic_vector(640,24); manlo <= conv_std_logic_vector(3276842,28); WHEN "0000101001" => manhi <= conv_std_logic_vector(656,24); manlo <= conv_std_logic_vector(3442733,28); WHEN "0000101010" => manhi <= conv_std_logic_vector(672,24); manlo <= conv_std_logic_vector(3612720,28); WHEN "0000101011" => manhi <= conv_std_logic_vector(688,24); manlo <= conv_std_logic_vector(3786804,28); WHEN "0000101100" => manhi <= conv_std_logic_vector(704,24); manlo <= conv_std_logic_vector(3964983,28); WHEN "0000101101" => manhi <= conv_std_logic_vector(720,24); manlo <= conv_std_logic_vector(4147259,28); WHEN "0000101110" => manhi <= conv_std_logic_vector(736,24); manlo <= conv_std_logic_vector(4333631,28); WHEN "0000101111" => manhi <= conv_std_logic_vector(752,24); manlo <= conv_std_logic_vector(4524100,28); WHEN "0000110000" => manhi <= conv_std_logic_vector(768,24); manlo <= conv_std_logic_vector(4718664,28); WHEN "0000110001" => manhi <= conv_std_logic_vector(784,24); manlo <= conv_std_logic_vector(4917325,28); WHEN "0000110010" => manhi <= conv_std_logic_vector(800,24); manlo <= conv_std_logic_vector(5120081,28); WHEN "0000110011" => manhi <= conv_std_logic_vector(816,24); manlo <= conv_std_logic_vector(5326934,28); WHEN "0000110100" => manhi <= conv_std_logic_vector(832,24); manlo <= conv_std_logic_vector(5537884,28); WHEN "0000110101" => manhi <= conv_std_logic_vector(848,24); manlo <= conv_std_logic_vector(5752929,28); WHEN "0000110110" => manhi <= conv_std_logic_vector(864,24); manlo <= conv_std_logic_vector(5972071,28); WHEN "0000110111" => manhi <= conv_std_logic_vector(880,24); manlo <= conv_std_logic_vector(6195308,28); WHEN "0000111000" => manhi <= conv_std_logic_vector(896,24); manlo <= conv_std_logic_vector(6422642,28); WHEN "0000111001" => manhi <= conv_std_logic_vector(912,24); manlo <= conv_std_logic_vector(6654073,28); WHEN "0000111010" => manhi <= conv_std_logic_vector(928,24); manlo <= conv_std_logic_vector(6889599,28); WHEN "0000111011" => manhi <= conv_std_logic_vector(944,24); manlo <= conv_std_logic_vector(7129222,28); WHEN "0000111100" => manhi <= conv_std_logic_vector(960,24); manlo <= conv_std_logic_vector(7372941,28); WHEN "0000111101" => manhi <= conv_std_logic_vector(976,24); manlo <= conv_std_logic_vector(7620756,28); WHEN "0000111110" => manhi <= conv_std_logic_vector(992,24); manlo <= conv_std_logic_vector(7872667,28); WHEN "0000111111" => manhi <= conv_std_logic_vector(1008,24); manlo <= conv_std_logic_vector(8128675,28); WHEN "0001000000" => manhi <= conv_std_logic_vector(1024,24); manlo <= conv_std_logic_vector(8388779,28); WHEN "0001000001" => manhi <= conv_std_logic_vector(1040,24); manlo <= conv_std_logic_vector(8652979,28); WHEN "0001000010" => manhi <= conv_std_logic_vector(1056,24); manlo <= conv_std_logic_vector(8921275,28); WHEN "0001000011" => manhi <= conv_std_logic_vector(1072,24); manlo <= conv_std_logic_vector(9193668,28); WHEN "0001000100" => manhi <= conv_std_logic_vector(1088,24); manlo <= conv_std_logic_vector(9470157,28); WHEN "0001000101" => manhi <= conv_std_logic_vector(1104,24); manlo <= conv_std_logic_vector(9750742,28); WHEN "0001000110" => manhi <= conv_std_logic_vector(1120,24); manlo <= conv_std_logic_vector(10035423,28); WHEN "0001000111" => manhi <= conv_std_logic_vector(1136,24); manlo <= conv_std_logic_vector(10324201,28); WHEN "0001001000" => manhi <= conv_std_logic_vector(1152,24); manlo <= conv_std_logic_vector(10617075,28); WHEN "0001001001" => manhi <= conv_std_logic_vector(1168,24); manlo <= conv_std_logic_vector(10914045,28); WHEN "0001001010" => manhi <= conv_std_logic_vector(1184,24); manlo <= conv_std_logic_vector(11215112,28); WHEN "0001001011" => manhi <= conv_std_logic_vector(1200,24); manlo <= conv_std_logic_vector(11520275,28); WHEN "0001001100" => manhi <= conv_std_logic_vector(1216,24); manlo <= conv_std_logic_vector(11829534,28); WHEN "0001001101" => manhi <= conv_std_logic_vector(1232,24); manlo <= conv_std_logic_vector(12142889,28); WHEN "0001001110" => manhi <= conv_std_logic_vector(1248,24); manlo <= conv_std_logic_vector(12460341,28); WHEN "0001001111" => manhi <= conv_std_logic_vector(1264,24); manlo <= conv_std_logic_vector(12781889,28); WHEN "0001010000" => manhi <= conv_std_logic_vector(1280,24); manlo <= conv_std_logic_vector(13107533,28); WHEN "0001010001" => manhi <= conv_std_logic_vector(1296,24); manlo <= conv_std_logic_vector(13437274,28); WHEN "0001010010" => manhi <= conv_std_logic_vector(1312,24); manlo <= conv_std_logic_vector(13771111,28); WHEN "0001010011" => manhi <= conv_std_logic_vector(1328,24); manlo <= conv_std_logic_vector(14109044,28); WHEN "0001010100" => manhi <= conv_std_logic_vector(1344,24); manlo <= conv_std_logic_vector(14451074,28); WHEN "0001010101" => manhi <= conv_std_logic_vector(1360,24); manlo <= conv_std_logic_vector(14797200,28); WHEN "0001010110" => manhi <= conv_std_logic_vector(1376,24); manlo <= conv_std_logic_vector(15147422,28); WHEN "0001010111" => manhi <= conv_std_logic_vector(1392,24); manlo <= conv_std_logic_vector(15501741,28); WHEN "0001011000" => manhi <= conv_std_logic_vector(1408,24); manlo <= conv_std_logic_vector(15860156,28); WHEN "0001011001" => manhi <= conv_std_logic_vector(1424,24); manlo <= conv_std_logic_vector(16222667,28); WHEN "0001011010" => manhi <= conv_std_logic_vector(1440,24); manlo <= conv_std_logic_vector(16589275,28); WHEN "0001011011" => manhi <= conv_std_logic_vector(1456,24); manlo <= conv_std_logic_vector(16959979,28); WHEN "0001011100" => manhi <= conv_std_logic_vector(1472,24); manlo <= conv_std_logic_vector(17334779,28); WHEN "0001011101" => manhi <= conv_std_logic_vector(1488,24); manlo <= conv_std_logic_vector(17713676,28); WHEN "0001011110" => manhi <= conv_std_logic_vector(1504,24); manlo <= conv_std_logic_vector(18096669,28); WHEN "0001011111" => manhi <= conv_std_logic_vector(1520,24); manlo <= conv_std_logic_vector(18483758,28); WHEN "0001100000" => manhi <= conv_std_logic_vector(1536,24); manlo <= conv_std_logic_vector(18874944,28); WHEN "0001100001" => manhi <= conv_std_logic_vector(1552,24); manlo <= conv_std_logic_vector(19270226,28); WHEN "0001100010" => manhi <= conv_std_logic_vector(1568,24); manlo <= conv_std_logic_vector(19669605,28); WHEN "0001100011" => manhi <= conv_std_logic_vector(1584,24); manlo <= conv_std_logic_vector(20073080,28); WHEN "0001100100" => manhi <= conv_std_logic_vector(1600,24); manlo <= conv_std_logic_vector(20480651,28); WHEN "0001100101" => manhi <= conv_std_logic_vector(1616,24); manlo <= conv_std_logic_vector(20892319,28); WHEN "0001100110" => manhi <= conv_std_logic_vector(1632,24); manlo <= conv_std_logic_vector(21308083,28); WHEN "0001100111" => manhi <= conv_std_logic_vector(1648,24); manlo <= conv_std_logic_vector(21727943,28); WHEN "0001101000" => manhi <= conv_std_logic_vector(1664,24); manlo <= conv_std_logic_vector(22151900,28); WHEN "0001101001" => manhi <= conv_std_logic_vector(1680,24); manlo <= conv_std_logic_vector(22579954,28); WHEN "0001101010" => manhi <= conv_std_logic_vector(1696,24); manlo <= conv_std_logic_vector(23012103,28); WHEN "0001101011" => manhi <= conv_std_logic_vector(1712,24); manlo <= conv_std_logic_vector(23448350,28); WHEN "0001101100" => manhi <= conv_std_logic_vector(1728,24); manlo <= conv_std_logic_vector(23888692,28); WHEN "0001101101" => manhi <= conv_std_logic_vector(1744,24); manlo <= conv_std_logic_vector(24333131,28); WHEN "0001101110" => manhi <= conv_std_logic_vector(1760,24); manlo <= conv_std_logic_vector(24781667,28); WHEN "0001101111" => manhi <= conv_std_logic_vector(1776,24); manlo <= conv_std_logic_vector(25234298,28); WHEN "0001110000" => manhi <= conv_std_logic_vector(1792,24); manlo <= conv_std_logic_vector(25691027,28); WHEN "0001110001" => manhi <= conv_std_logic_vector(1808,24); manlo <= conv_std_logic_vector(26151851,28); WHEN "0001110010" => manhi <= conv_std_logic_vector(1824,24); manlo <= conv_std_logic_vector(26616773,28); WHEN "0001110011" => manhi <= conv_std_logic_vector(1840,24); manlo <= conv_std_logic_vector(27085790,28); WHEN "0001110100" => manhi <= conv_std_logic_vector(1856,24); manlo <= conv_std_logic_vector(27558904,28); WHEN "0001110101" => manhi <= conv_std_logic_vector(1872,24); manlo <= conv_std_logic_vector(28036115,28); WHEN "0001110110" => manhi <= conv_std_logic_vector(1888,24); manlo <= conv_std_logic_vector(28517422,28); WHEN "0001110111" => manhi <= conv_std_logic_vector(1904,24); manlo <= conv_std_logic_vector(29002825,28); WHEN "0001111000" => manhi <= conv_std_logic_vector(1920,24); manlo <= conv_std_logic_vector(29492325,28); WHEN "0001111001" => manhi <= conv_std_logic_vector(1936,24); manlo <= conv_std_logic_vector(29985921,28); WHEN "0001111010" => manhi <= conv_std_logic_vector(1952,24); manlo <= conv_std_logic_vector(30483614,28); WHEN "0001111011" => manhi <= conv_std_logic_vector(1968,24); manlo <= conv_std_logic_vector(30985404,28); WHEN "0001111100" => manhi <= conv_std_logic_vector(1984,24); manlo <= conv_std_logic_vector(31491289,28); WHEN "0001111101" => manhi <= conv_std_logic_vector(2000,24); manlo <= conv_std_logic_vector(32001272,28); WHEN "0001111110" => manhi <= conv_std_logic_vector(2016,24); manlo <= conv_std_logic_vector(32515350,28); WHEN "0001111111" => manhi <= conv_std_logic_vector(2032,24); manlo <= conv_std_logic_vector(33033526,28); WHEN "0010000000" => manhi <= conv_std_logic_vector(2048,24); manlo <= conv_std_logic_vector(33555797,28); WHEN "0010000001" => manhi <= conv_std_logic_vector(2064,24); manlo <= conv_std_logic_vector(34082166,28); WHEN "0010000010" => manhi <= conv_std_logic_vector(2080,24); manlo <= conv_std_logic_vector(34612630,28); WHEN "0010000011" => manhi <= conv_std_logic_vector(2096,24); manlo <= conv_std_logic_vector(35147192,28); WHEN "0010000100" => manhi <= conv_std_logic_vector(2112,24); manlo <= conv_std_logic_vector(35685849,28); WHEN "0010000101" => manhi <= conv_std_logic_vector(2128,24); manlo <= conv_std_logic_vector(36228604,28); WHEN "0010000110" => manhi <= conv_std_logic_vector(2144,24); manlo <= conv_std_logic_vector(36775455,28); WHEN "0010000111" => manhi <= conv_std_logic_vector(2160,24); manlo <= conv_std_logic_vector(37326402,28); WHEN "0010001000" => manhi <= conv_std_logic_vector(2176,24); manlo <= conv_std_logic_vector(37881446,28); WHEN "0010001001" => manhi <= conv_std_logic_vector(2192,24); manlo <= conv_std_logic_vector(38440586,28); WHEN "0010001010" => manhi <= conv_std_logic_vector(2208,24); manlo <= conv_std_logic_vector(39003823,28); WHEN "0010001011" => manhi <= conv_std_logic_vector(2224,24); manlo <= conv_std_logic_vector(39571157,28); WHEN "0010001100" => manhi <= conv_std_logic_vector(2240,24); manlo <= conv_std_logic_vector(40142587,28); WHEN "0010001101" => manhi <= conv_std_logic_vector(2256,24); manlo <= conv_std_logic_vector(40718113,28); WHEN "0010001110" => manhi <= conv_std_logic_vector(2272,24); manlo <= conv_std_logic_vector(41297736,28); WHEN "0010001111" => manhi <= conv_std_logic_vector(2288,24); manlo <= conv_std_logic_vector(41881456,28); WHEN "0010010000" => manhi <= conv_std_logic_vector(2304,24); manlo <= conv_std_logic_vector(42469272,28); WHEN "0010010001" => manhi <= conv_std_logic_vector(2320,24); manlo <= conv_std_logic_vector(43061185,28); WHEN "0010010010" => manhi <= conv_std_logic_vector(2336,24); manlo <= conv_std_logic_vector(43657194,28); WHEN "0010010011" => manhi <= conv_std_logic_vector(2352,24); manlo <= conv_std_logic_vector(44257300,28); WHEN "0010010100" => manhi <= conv_std_logic_vector(2368,24); manlo <= conv_std_logic_vector(44861503,28); WHEN "0010010101" => manhi <= conv_std_logic_vector(2384,24); manlo <= conv_std_logic_vector(45469802,28); WHEN "0010010110" => manhi <= conv_std_logic_vector(2400,24); manlo <= conv_std_logic_vector(46082197,28); WHEN "0010010111" => manhi <= conv_std_logic_vector(2416,24); manlo <= conv_std_logic_vector(46698690,28); WHEN "0010011000" => manhi <= conv_std_logic_vector(2432,24); manlo <= conv_std_logic_vector(47319278,28); WHEN "0010011001" => manhi <= conv_std_logic_vector(2448,24); manlo <= conv_std_logic_vector(47943964,28); WHEN "0010011010" => manhi <= conv_std_logic_vector(2464,24); manlo <= conv_std_logic_vector(48572746,28); WHEN "0010011011" => manhi <= conv_std_logic_vector(2480,24); manlo <= conv_std_logic_vector(49205624,28); WHEN "0010011100" => manhi <= conv_std_logic_vector(2496,24); manlo <= conv_std_logic_vector(49842600,28); WHEN "0010011101" => manhi <= conv_std_logic_vector(2512,24); manlo <= conv_std_logic_vector(50483672,28); WHEN "0010011110" => manhi <= conv_std_logic_vector(2528,24); manlo <= conv_std_logic_vector(51128840,28); WHEN "0010011111" => manhi <= conv_std_logic_vector(2544,24); manlo <= conv_std_logic_vector(51778105,28); WHEN "0010100000" => manhi <= conv_std_logic_vector(2560,24); manlo <= conv_std_logic_vector(52431467,28); WHEN "0010100001" => manhi <= conv_std_logic_vector(2576,24); manlo <= conv_std_logic_vector(53088925,28); WHEN "0010100010" => manhi <= conv_std_logic_vector(2592,24); manlo <= conv_std_logic_vector(53750480,28); WHEN "0010100011" => manhi <= conv_std_logic_vector(2608,24); manlo <= conv_std_logic_vector(54416132,28); WHEN "0010100100" => manhi <= conv_std_logic_vector(2624,24); manlo <= conv_std_logic_vector(55085880,28); WHEN "0010100101" => manhi <= conv_std_logic_vector(2640,24); manlo <= conv_std_logic_vector(55759725,28); WHEN "0010100110" => manhi <= conv_std_logic_vector(2656,24); manlo <= conv_std_logic_vector(56437666,28); WHEN "0010100111" => manhi <= conv_std_logic_vector(2672,24); manlo <= conv_std_logic_vector(57119704,28); WHEN "0010101000" => manhi <= conv_std_logic_vector(2688,24); manlo <= conv_std_logic_vector(57805839,28); WHEN "0010101001" => manhi <= conv_std_logic_vector(2704,24); manlo <= conv_std_logic_vector(58496071,28); WHEN "0010101010" => manhi <= conv_std_logic_vector(2720,24); manlo <= conv_std_logic_vector(59190399,28); WHEN "0010101011" => manhi <= conv_std_logic_vector(2736,24); manlo <= conv_std_logic_vector(59888823,28); WHEN "0010101100" => manhi <= conv_std_logic_vector(2752,24); manlo <= conv_std_logic_vector(60591345,28); WHEN "0010101101" => manhi <= conv_std_logic_vector(2768,24); manlo <= conv_std_logic_vector(61297963,28); WHEN "0010101110" => manhi <= conv_std_logic_vector(2784,24); manlo <= conv_std_logic_vector(62008678,28); WHEN "0010101111" => manhi <= conv_std_logic_vector(2800,24); manlo <= conv_std_logic_vector(62723489,28); WHEN "0010110000" => manhi <= conv_std_logic_vector(2816,24); manlo <= conv_std_logic_vector(63442397,28); WHEN "0010110001" => manhi <= conv_std_logic_vector(2832,24); manlo <= conv_std_logic_vector(64165402,28); WHEN "0010110010" => manhi <= conv_std_logic_vector(2848,24); manlo <= conv_std_logic_vector(64892504,28); WHEN "0010110011" => manhi <= conv_std_logic_vector(2864,24); manlo <= conv_std_logic_vector(65623702,28); WHEN "0010110100" => manhi <= conv_std_logic_vector(2880,24); manlo <= conv_std_logic_vector(66358997,28); WHEN "0010110101" => manhi <= conv_std_logic_vector(2896,24); manlo <= conv_std_logic_vector(67098389,28); WHEN "0010110110" => manhi <= conv_std_logic_vector(2912,24); manlo <= conv_std_logic_vector(67841877,28); WHEN "0010110111" => manhi <= conv_std_logic_vector(2928,24); manlo <= conv_std_logic_vector(68589462,28); WHEN "0010111000" => manhi <= conv_std_logic_vector(2944,24); manlo <= conv_std_logic_vector(69341144,28); WHEN "0010111001" => manhi <= conv_std_logic_vector(2960,24); manlo <= conv_std_logic_vector(70096922,28); WHEN "0010111010" => manhi <= conv_std_logic_vector(2976,24); manlo <= conv_std_logic_vector(70856798,28); WHEN "0010111011" => manhi <= conv_std_logic_vector(2992,24); manlo <= conv_std_logic_vector(71620769,28); WHEN "0010111100" => manhi <= conv_std_logic_vector(3008,24); manlo <= conv_std_logic_vector(72388838,28); WHEN "0010111101" => manhi <= conv_std_logic_vector(3024,24); manlo <= conv_std_logic_vector(73161004,28); WHEN "0010111110" => manhi <= conv_std_logic_vector(3040,24); manlo <= conv_std_logic_vector(73937266,28); WHEN "0010111111" => manhi <= conv_std_logic_vector(3056,24); manlo <= conv_std_logic_vector(74717625,28); WHEN "0011000000" => manhi <= conv_std_logic_vector(3072,24); manlo <= conv_std_logic_vector(75502080,28); WHEN "0011000001" => manhi <= conv_std_logic_vector(3088,24); manlo <= conv_std_logic_vector(76290633,28); WHEN "0011000010" => manhi <= conv_std_logic_vector(3104,24); manlo <= conv_std_logic_vector(77083282,28); WHEN "0011000011" => manhi <= conv_std_logic_vector(3120,24); manlo <= conv_std_logic_vector(77880028,28); WHEN "0011000100" => manhi <= conv_std_logic_vector(3136,24); manlo <= conv_std_logic_vector(78680870,28); WHEN "0011000101" => manhi <= conv_std_logic_vector(3152,24); manlo <= conv_std_logic_vector(79485810,28); WHEN "0011000110" => manhi <= conv_std_logic_vector(3168,24); manlo <= conv_std_logic_vector(80294846,28); WHEN "0011000111" => manhi <= conv_std_logic_vector(3184,24); manlo <= conv_std_logic_vector(81107979,28); WHEN "0011001000" => manhi <= conv_std_logic_vector(3200,24); manlo <= conv_std_logic_vector(81925209,28); WHEN "0011001001" => manhi <= conv_std_logic_vector(3216,24); manlo <= conv_std_logic_vector(82746535,28); WHEN "0011001010" => manhi <= conv_std_logic_vector(3232,24); manlo <= conv_std_logic_vector(83571958,28); WHEN "0011001011" => manhi <= conv_std_logic_vector(3248,24); manlo <= conv_std_logic_vector(84401479,28); WHEN "0011001100" => manhi <= conv_std_logic_vector(3264,24); manlo <= conv_std_logic_vector(85235095,28); WHEN "0011001101" => manhi <= conv_std_logic_vector(3280,24); manlo <= conv_std_logic_vector(86072809,28); WHEN "0011001110" => manhi <= conv_std_logic_vector(3296,24); manlo <= conv_std_logic_vector(86914620,28); WHEN "0011001111" => manhi <= conv_std_logic_vector(3312,24); manlo <= conv_std_logic_vector(87760527,28); WHEN "0011010000" => manhi <= conv_std_logic_vector(3328,24); manlo <= conv_std_logic_vector(88610531,28); WHEN "0011010001" => manhi <= conv_std_logic_vector(3344,24); manlo <= conv_std_logic_vector(89464632,28); WHEN "0011010010" => manhi <= conv_std_logic_vector(3360,24); manlo <= conv_std_logic_vector(90322830,28); WHEN "0011010011" => manhi <= conv_std_logic_vector(3376,24); manlo <= conv_std_logic_vector(91185124,28); WHEN "0011010100" => manhi <= conv_std_logic_vector(3392,24); manlo <= conv_std_logic_vector(92051516,28); WHEN "0011010101" => manhi <= conv_std_logic_vector(3408,24); manlo <= conv_std_logic_vector(92922004,28); WHEN "0011010110" => manhi <= conv_std_logic_vector(3424,24); manlo <= conv_std_logic_vector(93796589,28); WHEN "0011010111" => manhi <= conv_std_logic_vector(3440,24); manlo <= conv_std_logic_vector(94675271,28); WHEN "0011011000" => manhi <= conv_std_logic_vector(3456,24); manlo <= conv_std_logic_vector(95558049,28); WHEN "0011011001" => manhi <= conv_std_logic_vector(3472,24); manlo <= conv_std_logic_vector(96444925,28); WHEN "0011011010" => manhi <= conv_std_logic_vector(3488,24); manlo <= conv_std_logic_vector(97335897,28); WHEN "0011011011" => manhi <= conv_std_logic_vector(3504,24); manlo <= conv_std_logic_vector(98230967,28); WHEN "0011011100" => manhi <= conv_std_logic_vector(3520,24); manlo <= conv_std_logic_vector(99130133,28); WHEN "0011011101" => manhi <= conv_std_logic_vector(3536,24); manlo <= conv_std_logic_vector(100033396,28); WHEN "0011011110" => manhi <= conv_std_logic_vector(3552,24); manlo <= conv_std_logic_vector(100940755,28); WHEN "0011011111" => manhi <= conv_std_logic_vector(3568,24); manlo <= conv_std_logic_vector(101852212,28); WHEN "0011100000" => manhi <= conv_std_logic_vector(3584,24); manlo <= conv_std_logic_vector(102767766,28); WHEN "0011100001" => manhi <= conv_std_logic_vector(3600,24); manlo <= conv_std_logic_vector(103687416,28); WHEN "0011100010" => manhi <= conv_std_logic_vector(3616,24); manlo <= conv_std_logic_vector(104611163,28); WHEN "0011100011" => manhi <= conv_std_logic_vector(3632,24); manlo <= conv_std_logic_vector(105539008,28); WHEN "0011100100" => manhi <= conv_std_logic_vector(3648,24); manlo <= conv_std_logic_vector(106470949,28); WHEN "0011100101" => manhi <= conv_std_logic_vector(3664,24); manlo <= conv_std_logic_vector(107406987,28); WHEN "0011100110" => manhi <= conv_std_logic_vector(3680,24); manlo <= conv_std_logic_vector(108347122,28); WHEN "0011100111" => manhi <= conv_std_logic_vector(3696,24); manlo <= conv_std_logic_vector(109291353,28); WHEN "0011101000" => manhi <= conv_std_logic_vector(3712,24); manlo <= conv_std_logic_vector(110239682,28); WHEN "0011101001" => manhi <= conv_std_logic_vector(3728,24); manlo <= conv_std_logic_vector(111192108,28); WHEN "0011101010" => manhi <= conv_std_logic_vector(3744,24); manlo <= conv_std_logic_vector(112148630,28); WHEN "0011101011" => manhi <= conv_std_logic_vector(3760,24); manlo <= conv_std_logic_vector(113109250,28); WHEN "0011101100" => manhi <= conv_std_logic_vector(3776,24); manlo <= conv_std_logic_vector(114073966,28); WHEN "0011101101" => manhi <= conv_std_logic_vector(3792,24); manlo <= conv_std_logic_vector(115042779,28); WHEN "0011101110" => manhi <= conv_std_logic_vector(3808,24); manlo <= conv_std_logic_vector(116015689,28); WHEN "0011101111" => manhi <= conv_std_logic_vector(3824,24); manlo <= conv_std_logic_vector(116992696,28); WHEN "0011110000" => manhi <= conv_std_logic_vector(3840,24); manlo <= conv_std_logic_vector(117973801,28); WHEN "0011110001" => manhi <= conv_std_logic_vector(3856,24); manlo <= conv_std_logic_vector(118959001,28); WHEN "0011110010" => manhi <= conv_std_logic_vector(3872,24); manlo <= conv_std_logic_vector(119948299,28); WHEN "0011110011" => manhi <= conv_std_logic_vector(3888,24); manlo <= conv_std_logic_vector(120941694,28); WHEN "0011110100" => manhi <= conv_std_logic_vector(3904,24); manlo <= conv_std_logic_vector(121939186,28); WHEN "0011110101" => manhi <= conv_std_logic_vector(3920,24); manlo <= conv_std_logic_vector(122940775,28); WHEN "0011110110" => manhi <= conv_std_logic_vector(3936,24); manlo <= conv_std_logic_vector(123946461,28); WHEN "0011110111" => manhi <= conv_std_logic_vector(3952,24); manlo <= conv_std_logic_vector(124956243,28); WHEN "0011111000" => manhi <= conv_std_logic_vector(3968,24); manlo <= conv_std_logic_vector(125970123,28); WHEN "0011111001" => manhi <= conv_std_logic_vector(3984,24); manlo <= conv_std_logic_vector(126988100,28); WHEN "0011111010" => manhi <= conv_std_logic_vector(4000,24); manlo <= conv_std_logic_vector(128010173,28); WHEN "0011111011" => manhi <= conv_std_logic_vector(4016,24); manlo <= conv_std_logic_vector(129036344,28); WHEN "0011111100" => manhi <= conv_std_logic_vector(4032,24); manlo <= conv_std_logic_vector(130066611,28); WHEN "0011111101" => manhi <= conv_std_logic_vector(4048,24); manlo <= conv_std_logic_vector(131100976,28); WHEN "0011111110" => manhi <= conv_std_logic_vector(4064,24); manlo <= conv_std_logic_vector(132139437,28); WHEN "0011111111" => manhi <= conv_std_logic_vector(4080,24); manlo <= conv_std_logic_vector(133181996,28); WHEN "0100000000" => manhi <= conv_std_logic_vector(4096,24); manlo <= conv_std_logic_vector(134228651,28); WHEN "0100000001" => manhi <= conv_std_logic_vector(4112,24); manlo <= conv_std_logic_vector(135279404,28); WHEN "0100000010" => manhi <= conv_std_logic_vector(4128,24); manlo <= conv_std_logic_vector(136334253,28); WHEN "0100000011" => manhi <= conv_std_logic_vector(4144,24); manlo <= conv_std_logic_vector(137393200,28); WHEN "0100000100" => manhi <= conv_std_logic_vector(4160,24); manlo <= conv_std_logic_vector(138456243,28); WHEN "0100000101" => manhi <= conv_std_logic_vector(4176,24); manlo <= conv_std_logic_vector(139523384,28); WHEN "0100000110" => manhi <= conv_std_logic_vector(4192,24); manlo <= conv_std_logic_vector(140594622,28); WHEN "0100000111" => manhi <= conv_std_logic_vector(4208,24); manlo <= conv_std_logic_vector(141669956,28); WHEN "0100001000" => manhi <= conv_std_logic_vector(4224,24); manlo <= conv_std_logic_vector(142749388,28); WHEN "0100001001" => manhi <= conv_std_logic_vector(4240,24); manlo <= conv_std_logic_vector(143832916,28); WHEN "0100001010" => manhi <= conv_std_logic_vector(4256,24); manlo <= conv_std_logic_vector(144920542,28); WHEN "0100001011" => manhi <= conv_std_logic_vector(4272,24); manlo <= conv_std_logic_vector(146012265,28); WHEN "0100001100" => manhi <= conv_std_logic_vector(4288,24); manlo <= conv_std_logic_vector(147108085,28); WHEN "0100001101" => manhi <= conv_std_logic_vector(4304,24); manlo <= conv_std_logic_vector(148208001,28); WHEN "0100001110" => manhi <= conv_std_logic_vector(4320,24); manlo <= conv_std_logic_vector(149312015,28); WHEN "0100001111" => manhi <= conv_std_logic_vector(4336,24); manlo <= conv_std_logic_vector(150420126,28); WHEN "0100010000" => manhi <= conv_std_logic_vector(4352,24); manlo <= conv_std_logic_vector(151532334,28); WHEN "0100010001" => manhi <= conv_std_logic_vector(4368,24); manlo <= conv_std_logic_vector(152648639,28); WHEN "0100010010" => manhi <= conv_std_logic_vector(4384,24); manlo <= conv_std_logic_vector(153769041,28); WHEN "0100010011" => manhi <= conv_std_logic_vector(4400,24); manlo <= conv_std_logic_vector(154893541,28); WHEN "0100010100" => manhi <= conv_std_logic_vector(4416,24); manlo <= conv_std_logic_vector(156022137,28); WHEN "0100010101" => manhi <= conv_std_logic_vector(4432,24); manlo <= conv_std_logic_vector(157154830,28); WHEN "0100010110" => manhi <= conv_std_logic_vector(4448,24); manlo <= conv_std_logic_vector(158291621,28); WHEN "0100010111" => manhi <= conv_std_logic_vector(4464,24); manlo <= conv_std_logic_vector(159432508,28); WHEN "0100011000" => manhi <= conv_std_logic_vector(4480,24); manlo <= conv_std_logic_vector(160577493,28); WHEN "0100011001" => manhi <= conv_std_logic_vector(4496,24); manlo <= conv_std_logic_vector(161726574,28); WHEN "0100011010" => manhi <= conv_std_logic_vector(4512,24); manlo <= conv_std_logic_vector(162879753,28); WHEN "0100011011" => manhi <= conv_std_logic_vector(4528,24); manlo <= conv_std_logic_vector(164037029,28); WHEN "0100011100" => manhi <= conv_std_logic_vector(4544,24); manlo <= conv_std_logic_vector(165198402,28); WHEN "0100011101" => manhi <= conv_std_logic_vector(4560,24); manlo <= conv_std_logic_vector(166363872,28); WHEN "0100011110" => manhi <= conv_std_logic_vector(4576,24); manlo <= conv_std_logic_vector(167533439,28); WHEN "0100011111" => manhi <= conv_std_logic_vector(4592,24); manlo <= conv_std_logic_vector(168707104,28); WHEN "0100100000" => manhi <= conv_std_logic_vector(4608,24); manlo <= conv_std_logic_vector(169884865,28); WHEN "0100100001" => manhi <= conv_std_logic_vector(4624,24); manlo <= conv_std_logic_vector(171066724,28); WHEN "0100100010" => manhi <= conv_std_logic_vector(4640,24); manlo <= conv_std_logic_vector(172252679,28); WHEN "0100100011" => manhi <= conv_std_logic_vector(4656,24); manlo <= conv_std_logic_vector(173442732,28); WHEN "0100100100" => manhi <= conv_std_logic_vector(4672,24); manlo <= conv_std_logic_vector(174636882,28); WHEN "0100100101" => manhi <= conv_std_logic_vector(4688,24); manlo <= conv_std_logic_vector(175835129,28); WHEN "0100100110" => manhi <= conv_std_logic_vector(4704,24); manlo <= conv_std_logic_vector(177037474,28); WHEN "0100100111" => manhi <= conv_std_logic_vector(4720,24); manlo <= conv_std_logic_vector(178243915,28); WHEN "0100101000" => manhi <= conv_std_logic_vector(4736,24); manlo <= conv_std_logic_vector(179454454,28); WHEN "0100101001" => manhi <= conv_std_logic_vector(4752,24); manlo <= conv_std_logic_vector(180669089,28); WHEN "0100101010" => manhi <= conv_std_logic_vector(4768,24); manlo <= conv_std_logic_vector(181887822,28); WHEN "0100101011" => manhi <= conv_std_logic_vector(4784,24); manlo <= conv_std_logic_vector(183110652,28); WHEN "0100101100" => manhi <= conv_std_logic_vector(4800,24); manlo <= conv_std_logic_vector(184337579,28); WHEN "0100101101" => manhi <= conv_std_logic_vector(4816,24); manlo <= conv_std_logic_vector(185568604,28); WHEN "0100101110" => manhi <= conv_std_logic_vector(4832,24); manlo <= conv_std_logic_vector(186803725,28); WHEN "0100101111" => manhi <= conv_std_logic_vector(4848,24); manlo <= conv_std_logic_vector(188042944,28); WHEN "0100110000" => manhi <= conv_std_logic_vector(4864,24); manlo <= conv_std_logic_vector(189286260,28); WHEN "0100110001" => manhi <= conv_std_logic_vector(4880,24); manlo <= conv_std_logic_vector(190533673,28); WHEN "0100110010" => manhi <= conv_std_logic_vector(4896,24); manlo <= conv_std_logic_vector(191785183,28); WHEN "0100110011" => manhi <= conv_std_logic_vector(4912,24); manlo <= conv_std_logic_vector(193040791,28); WHEN "0100110100" => manhi <= conv_std_logic_vector(4928,24); manlo <= conv_std_logic_vector(194300496,28); WHEN "0100110101" => manhi <= conv_std_logic_vector(4944,24); manlo <= conv_std_logic_vector(195564298,28); WHEN "0100110110" => manhi <= conv_std_logic_vector(4960,24); manlo <= conv_std_logic_vector(196832197,28); WHEN "0100110111" => manhi <= conv_std_logic_vector(4976,24); manlo <= conv_std_logic_vector(198104193,28); WHEN "0100111000" => manhi <= conv_std_logic_vector(4992,24); manlo <= conv_std_logic_vector(199380286,28); WHEN "0100111001" => manhi <= conv_std_logic_vector(5008,24); manlo <= conv_std_logic_vector(200660477,28); WHEN "0100111010" => manhi <= conv_std_logic_vector(5024,24); manlo <= conv_std_logic_vector(201944765,28); WHEN "0100111011" => manhi <= conv_std_logic_vector(5040,24); manlo <= conv_std_logic_vector(203233150,28); WHEN "0100111100" => manhi <= conv_std_logic_vector(5056,24); manlo <= conv_std_logic_vector(204525633,28); WHEN "0100111101" => manhi <= conv_std_logic_vector(5072,24); manlo <= conv_std_logic_vector(205822213,28); WHEN "0100111110" => manhi <= conv_std_logic_vector(5088,24); manlo <= conv_std_logic_vector(207122889,28); WHEN "0100111111" => manhi <= conv_std_logic_vector(5104,24); manlo <= conv_std_logic_vector(208427664,28); WHEN "0101000000" => manhi <= conv_std_logic_vector(5120,24); manlo <= conv_std_logic_vector(209736535,28); WHEN "0101000001" => manhi <= conv_std_logic_vector(5136,24); manlo <= conv_std_logic_vector(211049504,28); WHEN "0101000010" => manhi <= conv_std_logic_vector(5152,24); manlo <= conv_std_logic_vector(212366570,28); WHEN "0101000011" => manhi <= conv_std_logic_vector(5168,24); manlo <= conv_std_logic_vector(213687733,28); WHEN "0101000100" => manhi <= conv_std_logic_vector(5184,24); manlo <= conv_std_logic_vector(215012993,28); WHEN "0101000101" => manhi <= conv_std_logic_vector(5200,24); manlo <= conv_std_logic_vector(216342351,28); WHEN "0101000110" => manhi <= conv_std_logic_vector(5216,24); manlo <= conv_std_logic_vector(217675806,28); WHEN "0101000111" => manhi <= conv_std_logic_vector(5232,24); manlo <= conv_std_logic_vector(219013358,28); WHEN "0101001000" => manhi <= conv_std_logic_vector(5248,24); manlo <= conv_std_logic_vector(220355007,28); WHEN "0101001001" => manhi <= conv_std_logic_vector(5264,24); manlo <= conv_std_logic_vector(221700754,28); WHEN "0101001010" => manhi <= conv_std_logic_vector(5280,24); manlo <= conv_std_logic_vector(223050598,28); WHEN "0101001011" => manhi <= conv_std_logic_vector(5296,24); manlo <= conv_std_logic_vector(224404540,28); WHEN "0101001100" => manhi <= conv_std_logic_vector(5312,24); manlo <= conv_std_logic_vector(225762578,28); WHEN "0101001101" => manhi <= conv_std_logic_vector(5328,24); manlo <= conv_std_logic_vector(227124714,28); WHEN "0101001110" => manhi <= conv_std_logic_vector(5344,24); manlo <= conv_std_logic_vector(228490948,28); WHEN "0101001111" => manhi <= conv_std_logic_vector(5360,24); manlo <= conv_std_logic_vector(229861278,28); WHEN "0101010000" => manhi <= conv_std_logic_vector(5376,24); manlo <= conv_std_logic_vector(231235706,28); WHEN "0101010001" => manhi <= conv_std_logic_vector(5392,24); manlo <= conv_std_logic_vector(232614231,28); WHEN "0101010010" => manhi <= conv_std_logic_vector(5408,24); manlo <= conv_std_logic_vector(233996854,28); WHEN "0101010011" => manhi <= conv_std_logic_vector(5424,24); manlo <= conv_std_logic_vector(235383573,28); WHEN "0101010100" => manhi <= conv_std_logic_vector(5440,24); manlo <= conv_std_logic_vector(236774391,28); WHEN "0101010101" => manhi <= conv_std_logic_vector(5456,24); manlo <= conv_std_logic_vector(238169305,28); WHEN "0101010110" => manhi <= conv_std_logic_vector(5472,24); manlo <= conv_std_logic_vector(239568317,28); WHEN "0101010111" => manhi <= conv_std_logic_vector(5488,24); manlo <= conv_std_logic_vector(240971426,28); WHEN "0101011000" => manhi <= conv_std_logic_vector(5504,24); manlo <= conv_std_logic_vector(242378633,28); WHEN "0101011001" => manhi <= conv_std_logic_vector(5520,24); manlo <= conv_std_logic_vector(243789936,28); WHEN "0101011010" => manhi <= conv_std_logic_vector(5536,24); manlo <= conv_std_logic_vector(245205338,28); WHEN "0101011011" => manhi <= conv_std_logic_vector(5552,24); manlo <= conv_std_logic_vector(246624836,28); WHEN "0101011100" => manhi <= conv_std_logic_vector(5568,24); manlo <= conv_std_logic_vector(248048432,28); WHEN "0101011101" => manhi <= conv_std_logic_vector(5584,24); manlo <= conv_std_logic_vector(249476125,28); WHEN "0101011110" => manhi <= conv_std_logic_vector(5600,24); manlo <= conv_std_logic_vector(250907916,28); WHEN "0101011111" => manhi <= conv_std_logic_vector(5616,24); manlo <= conv_std_logic_vector(252343804,28); WHEN "0101100000" => manhi <= conv_std_logic_vector(5632,24); manlo <= conv_std_logic_vector(253783789,28); WHEN "0101100001" => manhi <= conv_std_logic_vector(5648,24); manlo <= conv_std_logic_vector(255227872,28); WHEN "0101100010" => manhi <= conv_std_logic_vector(5664,24); manlo <= conv_std_logic_vector(256676052,28); WHEN "0101100011" => manhi <= conv_std_logic_vector(5680,24); manlo <= conv_std_logic_vector(258128329,28); WHEN "0101100100" => manhi <= conv_std_logic_vector(5696,24); manlo <= conv_std_logic_vector(259584704,28); WHEN "0101100101" => manhi <= conv_std_logic_vector(5712,24); manlo <= conv_std_logic_vector(261045176,28); WHEN "0101100110" => manhi <= conv_std_logic_vector(5728,24); manlo <= conv_std_logic_vector(262509746,28); WHEN "0101100111" => manhi <= conv_std_logic_vector(5744,24); manlo <= conv_std_logic_vector(263978413,28); WHEN "0101101000" => manhi <= conv_std_logic_vector(5760,24); manlo <= conv_std_logic_vector(265451178,28); WHEN "0101101001" => manhi <= conv_std_logic_vector(5776,24); manlo <= conv_std_logic_vector(266928039,28); WHEN "0101101010" => manhi <= conv_std_logic_vector(5792,24); manlo <= conv_std_logic_vector(268408999,28); WHEN "0101101011" => manhi <= conv_std_logic_vector(5809,24); manlo <= conv_std_logic_vector(1458599,28); WHEN "0101101100" => manhi <= conv_std_logic_vector(5825,24); manlo <= conv_std_logic_vector(2947754,28); WHEN "0101101101" => manhi <= conv_std_logic_vector(5841,24); manlo <= conv_std_logic_vector(4441005,28); WHEN "0101101110" => manhi <= conv_std_logic_vector(5857,24); manlo <= conv_std_logic_vector(5938354,28); WHEN "0101101111" => manhi <= conv_std_logic_vector(5873,24); manlo <= conv_std_logic_vector(7439800,28); WHEN "0101110000" => manhi <= conv_std_logic_vector(5889,24); manlo <= conv_std_logic_vector(8945344,28); WHEN "0101110001" => manhi <= conv_std_logic_vector(5905,24); manlo <= conv_std_logic_vector(10454985,28); WHEN "0101110010" => manhi <= conv_std_logic_vector(5921,24); manlo <= conv_std_logic_vector(11968724,28); WHEN "0101110011" => manhi <= conv_std_logic_vector(5937,24); manlo <= conv_std_logic_vector(13486560,28); WHEN "0101110100" => manhi <= conv_std_logic_vector(5953,24); manlo <= conv_std_logic_vector(15008494,28); WHEN "0101110101" => manhi <= conv_std_logic_vector(5969,24); manlo <= conv_std_logic_vector(16534525,28); WHEN "0101110110" => manhi <= conv_std_logic_vector(5985,24); manlo <= conv_std_logic_vector(18064653,28); WHEN "0101110111" => manhi <= conv_std_logic_vector(6001,24); manlo <= conv_std_logic_vector(19598879,28); WHEN "0101111000" => manhi <= conv_std_logic_vector(6017,24); manlo <= conv_std_logic_vector(21137203,28); WHEN "0101111001" => manhi <= conv_std_logic_vector(6033,24); manlo <= conv_std_logic_vector(22679624,28); WHEN "0101111010" => manhi <= conv_std_logic_vector(6049,24); manlo <= conv_std_logic_vector(24226142,28); WHEN "0101111011" => manhi <= conv_std_logic_vector(6065,24); manlo <= conv_std_logic_vector(25776758,28); WHEN "0101111100" => manhi <= conv_std_logic_vector(6081,24); manlo <= conv_std_logic_vector(27331471,28); WHEN "0101111101" => manhi <= conv_std_logic_vector(6097,24); manlo <= conv_std_logic_vector(28890282,28); WHEN "0101111110" => manhi <= conv_std_logic_vector(6113,24); manlo <= conv_std_logic_vector(30453190,28); WHEN "0101111111" => manhi <= conv_std_logic_vector(6129,24); manlo <= conv_std_logic_vector(32020196,28); WHEN "0110000000" => manhi <= conv_std_logic_vector(6145,24); manlo <= conv_std_logic_vector(33591299,28); WHEN "0110000001" => manhi <= conv_std_logic_vector(6161,24); manlo <= conv_std_logic_vector(35166500,28); WHEN "0110000010" => manhi <= conv_std_logic_vector(6177,24); manlo <= conv_std_logic_vector(36745798,28); WHEN "0110000011" => manhi <= conv_std_logic_vector(6193,24); manlo <= conv_std_logic_vector(38329194,28); WHEN "0110000100" => manhi <= conv_std_logic_vector(6209,24); manlo <= conv_std_logic_vector(39916688,28); WHEN "0110000101" => manhi <= conv_std_logic_vector(6225,24); manlo <= conv_std_logic_vector(41508278,28); WHEN "0110000110" => manhi <= conv_std_logic_vector(6241,24); manlo <= conv_std_logic_vector(43103967,28); WHEN "0110000111" => manhi <= conv_std_logic_vector(6257,24); manlo <= conv_std_logic_vector(44703753,28); WHEN "0110001000" => manhi <= conv_std_logic_vector(6273,24); manlo <= conv_std_logic_vector(46307636,28); WHEN "0110001001" => manhi <= conv_std_logic_vector(6289,24); manlo <= conv_std_logic_vector(47915617,28); WHEN "0110001010" => manhi <= conv_std_logic_vector(6305,24); manlo <= conv_std_logic_vector(49527695,28); WHEN "0110001011" => manhi <= conv_std_logic_vector(6321,24); manlo <= conv_std_logic_vector(51143871,28); WHEN "0110001100" => manhi <= conv_std_logic_vector(6337,24); manlo <= conv_std_logic_vector(52764145,28); WHEN "0110001101" => manhi <= conv_std_logic_vector(6353,24); manlo <= conv_std_logic_vector(54388516,28); WHEN "0110001110" => manhi <= conv_std_logic_vector(6369,24); manlo <= conv_std_logic_vector(56016985,28); WHEN "0110001111" => manhi <= conv_std_logic_vector(6385,24); manlo <= conv_std_logic_vector(57649551,28); WHEN "0110010000" => manhi <= conv_std_logic_vector(6401,24); manlo <= conv_std_logic_vector(59286215,28); WHEN "0110010001" => manhi <= conv_std_logic_vector(6417,24); manlo <= conv_std_logic_vector(60926976,28); WHEN "0110010010" => manhi <= conv_std_logic_vector(6433,24); manlo <= conv_std_logic_vector(62571835,28); WHEN "0110010011" => manhi <= conv_std_logic_vector(6449,24); manlo <= conv_std_logic_vector(64220791,28); WHEN "0110010100" => manhi <= conv_std_logic_vector(6465,24); manlo <= conv_std_logic_vector(65873845,28); WHEN "0110010101" => manhi <= conv_std_logic_vector(6481,24); manlo <= conv_std_logic_vector(67530997,28); WHEN "0110010110" => manhi <= conv_std_logic_vector(6497,24); manlo <= conv_std_logic_vector(69192246,28); WHEN "0110010111" => manhi <= conv_std_logic_vector(6513,24); manlo <= conv_std_logic_vector(70857593,28); WHEN "0110011000" => manhi <= conv_std_logic_vector(6529,24); manlo <= conv_std_logic_vector(72527037,28); WHEN "0110011001" => manhi <= conv_std_logic_vector(6545,24); manlo <= conv_std_logic_vector(74200579,28); WHEN "0110011010" => manhi <= conv_std_logic_vector(6561,24); manlo <= conv_std_logic_vector(75878219,28); WHEN "0110011011" => manhi <= conv_std_logic_vector(6577,24); manlo <= conv_std_logic_vector(77559956,28); WHEN "0110011100" => manhi <= conv_std_logic_vector(6593,24); manlo <= conv_std_logic_vector(79245791,28); WHEN "0110011101" => manhi <= conv_std_logic_vector(6609,24); manlo <= conv_std_logic_vector(80935723,28); WHEN "0110011110" => manhi <= conv_std_logic_vector(6625,24); manlo <= conv_std_logic_vector(82629753,28); WHEN "0110011111" => manhi <= conv_std_logic_vector(6641,24); manlo <= conv_std_logic_vector(84327881,28); WHEN "0110100000" => manhi <= conv_std_logic_vector(6657,24); manlo <= conv_std_logic_vector(86030106,28); WHEN "0110100001" => manhi <= conv_std_logic_vector(6673,24); manlo <= conv_std_logic_vector(87736429,28); WHEN "0110100010" => manhi <= conv_std_logic_vector(6689,24); manlo <= conv_std_logic_vector(89446849,28); WHEN "0110100011" => manhi <= conv_std_logic_vector(6705,24); manlo <= conv_std_logic_vector(91161367,28); WHEN "0110100100" => manhi <= conv_std_logic_vector(6721,24); manlo <= conv_std_logic_vector(92879983,28); WHEN "0110100101" => manhi <= conv_std_logic_vector(6737,24); manlo <= conv_std_logic_vector(94602697,28); WHEN "0110100110" => manhi <= conv_std_logic_vector(6753,24); manlo <= conv_std_logic_vector(96329508,28); WHEN "0110100111" => manhi <= conv_std_logic_vector(6769,24); manlo <= conv_std_logic_vector(98060416,28); WHEN "0110101000" => manhi <= conv_std_logic_vector(6785,24); manlo <= conv_std_logic_vector(99795423,28); WHEN "0110101001" => manhi <= conv_std_logic_vector(6801,24); manlo <= conv_std_logic_vector(101534527,28); WHEN "0110101010" => manhi <= conv_std_logic_vector(6817,24); manlo <= conv_std_logic_vector(103277728,28); WHEN "0110101011" => manhi <= conv_std_logic_vector(6833,24); manlo <= conv_std_logic_vector(105025028,28); WHEN "0110101100" => manhi <= conv_std_logic_vector(6849,24); manlo <= conv_std_logic_vector(106776425,28); WHEN "0110101101" => manhi <= conv_std_logic_vector(6865,24); manlo <= conv_std_logic_vector(108531919,28); WHEN "0110101110" => manhi <= conv_std_logic_vector(6881,24); manlo <= conv_std_logic_vector(110291512,28); WHEN "0110101111" => manhi <= conv_std_logic_vector(6897,24); manlo <= conv_std_logic_vector(112055202,28); WHEN "0110110000" => manhi <= conv_std_logic_vector(6913,24); manlo <= conv_std_logic_vector(113822989,28); WHEN "0110110001" => manhi <= conv_std_logic_vector(6929,24); manlo <= conv_std_logic_vector(115594875,28); WHEN "0110110010" => manhi <= conv_std_logic_vector(6945,24); manlo <= conv_std_logic_vector(117370858,28); WHEN "0110110011" => manhi <= conv_std_logic_vector(6961,24); manlo <= conv_std_logic_vector(119150939,28); WHEN "0110110100" => manhi <= conv_std_logic_vector(6977,24); manlo <= conv_std_logic_vector(120935117,28); WHEN "0110110101" => manhi <= conv_std_logic_vector(6993,24); manlo <= conv_std_logic_vector(122723393,28); WHEN "0110110110" => manhi <= conv_std_logic_vector(7009,24); manlo <= conv_std_logic_vector(124515767,28); WHEN "0110110111" => manhi <= conv_std_logic_vector(7025,24); manlo <= conv_std_logic_vector(126312239,28); WHEN "0110111000" => manhi <= conv_std_logic_vector(7041,24); manlo <= conv_std_logic_vector(128112808,28); WHEN "0110111001" => manhi <= conv_std_logic_vector(7057,24); manlo <= conv_std_logic_vector(129917475,28); WHEN "0110111010" => manhi <= conv_std_logic_vector(7073,24); manlo <= conv_std_logic_vector(131726240,28); WHEN "0110111011" => manhi <= conv_std_logic_vector(7089,24); manlo <= conv_std_logic_vector(133539102,28); WHEN "0110111100" => manhi <= conv_std_logic_vector(7105,24); manlo <= conv_std_logic_vector(135356063,28); WHEN "0110111101" => manhi <= conv_std_logic_vector(7121,24); manlo <= conv_std_logic_vector(137177121,28); WHEN "0110111110" => manhi <= conv_std_logic_vector(7137,24); manlo <= conv_std_logic_vector(139002276,28); WHEN "0110111111" => manhi <= conv_std_logic_vector(7153,24); manlo <= conv_std_logic_vector(140831530,28); WHEN "0111000000" => manhi <= conv_std_logic_vector(7169,24); manlo <= conv_std_logic_vector(142664881,28); WHEN "0111000001" => manhi <= conv_std_logic_vector(7185,24); manlo <= conv_std_logic_vector(144502330,28); WHEN "0111000010" => manhi <= conv_std_logic_vector(7201,24); manlo <= conv_std_logic_vector(146343877,28); WHEN "0111000011" => manhi <= conv_std_logic_vector(7217,24); manlo <= conv_std_logic_vector(148189521,28); WHEN "0111000100" => manhi <= conv_std_logic_vector(7233,24); manlo <= conv_std_logic_vector(150039263,28); WHEN "0111000101" => manhi <= conv_std_logic_vector(7249,24); manlo <= conv_std_logic_vector(151893103,28); WHEN "0111000110" => manhi <= conv_std_logic_vector(7265,24); manlo <= conv_std_logic_vector(153751041,28); WHEN "0111000111" => manhi <= conv_std_logic_vector(7281,24); manlo <= conv_std_logic_vector(155613076,28); WHEN "0111001000" => manhi <= conv_std_logic_vector(7297,24); manlo <= conv_std_logic_vector(157479210,28); WHEN "0111001001" => manhi <= conv_std_logic_vector(7313,24); manlo <= conv_std_logic_vector(159349441,28); WHEN "0111001010" => manhi <= conv_std_logic_vector(7329,24); manlo <= conv_std_logic_vector(161223770,28); WHEN "0111001011" => manhi <= conv_std_logic_vector(7345,24); manlo <= conv_std_logic_vector(163102196,28); WHEN "0111001100" => manhi <= conv_std_logic_vector(7361,24); manlo <= conv_std_logic_vector(164984721,28); WHEN "0111001101" => manhi <= conv_std_logic_vector(7377,24); manlo <= conv_std_logic_vector(166871343,28); WHEN "0111001110" => manhi <= conv_std_logic_vector(7393,24); manlo <= conv_std_logic_vector(168762063,28); WHEN "0111001111" => manhi <= conv_std_logic_vector(7409,24); manlo <= conv_std_logic_vector(170656881,28); WHEN "0111010000" => manhi <= conv_std_logic_vector(7425,24); manlo <= conv_std_logic_vector(172555797,28); WHEN "0111010001" => manhi <= conv_std_logic_vector(7441,24); manlo <= conv_std_logic_vector(174458810,28); WHEN "0111010010" => manhi <= conv_std_logic_vector(7457,24); manlo <= conv_std_logic_vector(176365921,28); WHEN "0111010011" => manhi <= conv_std_logic_vector(7473,24); manlo <= conv_std_logic_vector(178277130,28); WHEN "0111010100" => manhi <= conv_std_logic_vector(7489,24); manlo <= conv_std_logic_vector(180192437,28); WHEN "0111010101" => manhi <= conv_std_logic_vector(7505,24); manlo <= conv_std_logic_vector(182111842,28); WHEN "0111010110" => manhi <= conv_std_logic_vector(7521,24); manlo <= conv_std_logic_vector(184035345,28); WHEN "0111010111" => manhi <= conv_std_logic_vector(7537,24); manlo <= conv_std_logic_vector(185962945,28); WHEN "0111011000" => manhi <= conv_std_logic_vector(7553,24); manlo <= conv_std_logic_vector(187894643,28); WHEN "0111011001" => manhi <= conv_std_logic_vector(7569,24); manlo <= conv_std_logic_vector(189830439,28); WHEN "0111011010" => manhi <= conv_std_logic_vector(7585,24); manlo <= conv_std_logic_vector(191770333,28); WHEN "0111011011" => manhi <= conv_std_logic_vector(7601,24); manlo <= conv_std_logic_vector(193714325,28); WHEN "0111011100" => manhi <= conv_std_logic_vector(7617,24); manlo <= conv_std_logic_vector(195662415,28); WHEN "0111011101" => manhi <= conv_std_logic_vector(7633,24); manlo <= conv_std_logic_vector(197614602,28); WHEN "0111011110" => manhi <= conv_std_logic_vector(7649,24); manlo <= conv_std_logic_vector(199570888,28); WHEN "0111011111" => manhi <= conv_std_logic_vector(7665,24); manlo <= conv_std_logic_vector(201531271,28); WHEN "0111100000" => manhi <= conv_std_logic_vector(7681,24); manlo <= conv_std_logic_vector(203495752,28); WHEN "0111100001" => manhi <= conv_std_logic_vector(7697,24); manlo <= conv_std_logic_vector(205464331,28); WHEN "0111100010" => manhi <= conv_std_logic_vector(7713,24); manlo <= conv_std_logic_vector(207437008,28); WHEN "0111100011" => manhi <= conv_std_logic_vector(7729,24); manlo <= conv_std_logic_vector(209413783,28); WHEN "0111100100" => manhi <= conv_std_logic_vector(7745,24); manlo <= conv_std_logic_vector(211394656,28); WHEN "0111100101" => manhi <= conv_std_logic_vector(7761,24); manlo <= conv_std_logic_vector(213379626,28); WHEN "0111100110" => manhi <= conv_std_logic_vector(7777,24); manlo <= conv_std_logic_vector(215368695,28); WHEN "0111100111" => manhi <= conv_std_logic_vector(7793,24); manlo <= conv_std_logic_vector(217361861,28); WHEN "0111101000" => manhi <= conv_std_logic_vector(7809,24); manlo <= conv_std_logic_vector(219359125,28); WHEN "0111101001" => manhi <= conv_std_logic_vector(7825,24); manlo <= conv_std_logic_vector(221360487,28); WHEN "0111101010" => manhi <= conv_std_logic_vector(7841,24); manlo <= conv_std_logic_vector(223365947,28); WHEN "0111101011" => manhi <= conv_std_logic_vector(7857,24); manlo <= conv_std_logic_vector(225375505,28); WHEN "0111101100" => manhi <= conv_std_logic_vector(7873,24); manlo <= conv_std_logic_vector(227389161,28); WHEN "0111101101" => manhi <= conv_std_logic_vector(7889,24); manlo <= conv_std_logic_vector(229406915,28); WHEN "0111101110" => manhi <= conv_std_logic_vector(7905,24); manlo <= conv_std_logic_vector(231428767,28); WHEN "0111101111" => manhi <= conv_std_logic_vector(7921,24); manlo <= conv_std_logic_vector(233454716,28); WHEN "0111110000" => manhi <= conv_std_logic_vector(7937,24); manlo <= conv_std_logic_vector(235484764,28); WHEN "0111110001" => manhi <= conv_std_logic_vector(7953,24); manlo <= conv_std_logic_vector(237518910,28); WHEN "0111110010" => manhi <= conv_std_logic_vector(7969,24); manlo <= conv_std_logic_vector(239557153,28); WHEN "0111110011" => manhi <= conv_std_logic_vector(7985,24); manlo <= conv_std_logic_vector(241599495,28); WHEN "0111110100" => manhi <= conv_std_logic_vector(8001,24); manlo <= conv_std_logic_vector(243645934,28); WHEN "0111110101" => manhi <= conv_std_logic_vector(8017,24); manlo <= conv_std_logic_vector(245696471,28); WHEN "0111110110" => manhi <= conv_std_logic_vector(8033,24); manlo <= conv_std_logic_vector(247751107,28); WHEN "0111110111" => manhi <= conv_std_logic_vector(8049,24); manlo <= conv_std_logic_vector(249809840,28); WHEN "0111111000" => manhi <= conv_std_logic_vector(8065,24); manlo <= conv_std_logic_vector(251872671,28); WHEN "0111111001" => manhi <= conv_std_logic_vector(8081,24); manlo <= conv_std_logic_vector(253939600,28); WHEN "0111111010" => manhi <= conv_std_logic_vector(8097,24); manlo <= conv_std_logic_vector(256010627,28); WHEN "0111111011" => manhi <= conv_std_logic_vector(8113,24); manlo <= conv_std_logic_vector(258085753,28); WHEN "0111111100" => manhi <= conv_std_logic_vector(8129,24); manlo <= conv_std_logic_vector(260164976,28); WHEN "0111111101" => manhi <= conv_std_logic_vector(8145,24); manlo <= conv_std_logic_vector(262248297,28); WHEN "0111111110" => manhi <= conv_std_logic_vector(8161,24); manlo <= conv_std_logic_vector(264335716,28); WHEN "0111111111" => manhi <= conv_std_logic_vector(8177,24); manlo <= conv_std_logic_vector(266427233,28); WHEN "1000000000" => manhi <= conv_std_logic_vector(8194,24); manlo <= conv_std_logic_vector(87392,28); WHEN "1000000001" => manhi <= conv_std_logic_vector(8210,24); manlo <= conv_std_logic_vector(2187105,28); WHEN "1000000010" => manhi <= conv_std_logic_vector(8226,24); manlo <= conv_std_logic_vector(4290916,28); WHEN "1000000011" => manhi <= conv_std_logic_vector(8242,24); manlo <= conv_std_logic_vector(6398825,28); WHEN "1000000100" => manhi <= conv_std_logic_vector(8258,24); manlo <= conv_std_logic_vector(8510832,28); WHEN "1000000101" => manhi <= conv_std_logic_vector(8274,24); manlo <= conv_std_logic_vector(10626938,28); WHEN "1000000110" => manhi <= conv_std_logic_vector(8290,24); manlo <= conv_std_logic_vector(12747141,28); WHEN "1000000111" => manhi <= conv_std_logic_vector(8306,24); manlo <= conv_std_logic_vector(14871442,28); WHEN "1000001000" => manhi <= conv_std_logic_vector(8322,24); manlo <= conv_std_logic_vector(16999841,28); WHEN "1000001001" => manhi <= conv_std_logic_vector(8338,24); manlo <= conv_std_logic_vector(19132338,28); WHEN "1000001010" => manhi <= conv_std_logic_vector(8354,24); manlo <= conv_std_logic_vector(21268934,28); WHEN "1000001011" => manhi <= conv_std_logic_vector(8370,24); manlo <= conv_std_logic_vector(23409627,28); WHEN "1000001100" => manhi <= conv_std_logic_vector(8386,24); manlo <= conv_std_logic_vector(25554418,28); WHEN "1000001101" => manhi <= conv_std_logic_vector(8402,24); manlo <= conv_std_logic_vector(27703308,28); WHEN "1000001110" => manhi <= conv_std_logic_vector(8418,24); manlo <= conv_std_logic_vector(29856295,28); WHEN "1000001111" => manhi <= conv_std_logic_vector(8434,24); manlo <= conv_std_logic_vector(32013381,28); WHEN "1000010000" => manhi <= conv_std_logic_vector(8450,24); manlo <= conv_std_logic_vector(34174564,28); WHEN "1000010001" => manhi <= conv_std_logic_vector(8466,24); manlo <= conv_std_logic_vector(36339846,28); WHEN "1000010010" => manhi <= conv_std_logic_vector(8482,24); manlo <= conv_std_logic_vector(38509225,28); WHEN "1000010011" => manhi <= conv_std_logic_vector(8498,24); manlo <= conv_std_logic_vector(40682703,28); WHEN "1000010100" => manhi <= conv_std_logic_vector(8514,24); manlo <= conv_std_logic_vector(42860279,28); WHEN "1000010101" => manhi <= conv_std_logic_vector(8530,24); manlo <= conv_std_logic_vector(45041953,28); WHEN "1000010110" => manhi <= conv_std_logic_vector(8546,24); manlo <= conv_std_logic_vector(47227725,28); WHEN "1000010111" => manhi <= conv_std_logic_vector(8562,24); manlo <= conv_std_logic_vector(49417595,28); WHEN "1000011000" => manhi <= conv_std_logic_vector(8578,24); manlo <= conv_std_logic_vector(51611563,28); WHEN "1000011001" => manhi <= conv_std_logic_vector(8594,24); manlo <= conv_std_logic_vector(53809629,28); WHEN "1000011010" => manhi <= conv_std_logic_vector(8610,24); manlo <= conv_std_logic_vector(56011794,28); WHEN "1000011011" => manhi <= conv_std_logic_vector(8626,24); manlo <= conv_std_logic_vector(58218056,28); WHEN "1000011100" => manhi <= conv_std_logic_vector(8642,24); manlo <= conv_std_logic_vector(60428417,28); WHEN "1000011101" => manhi <= conv_std_logic_vector(8658,24); manlo <= conv_std_logic_vector(62642876,28); WHEN "1000011110" => manhi <= conv_std_logic_vector(8674,24); manlo <= conv_std_logic_vector(64861432,28); WHEN "1000011111" => manhi <= conv_std_logic_vector(8690,24); manlo <= conv_std_logic_vector(67084087,28); WHEN "1000100000" => manhi <= conv_std_logic_vector(8706,24); manlo <= conv_std_logic_vector(69310840,28); WHEN "1000100001" => manhi <= conv_std_logic_vector(8722,24); manlo <= conv_std_logic_vector(71541691,28); WHEN "1000100010" => manhi <= conv_std_logic_vector(8738,24); manlo <= conv_std_logic_vector(73776641,28); WHEN "1000100011" => manhi <= conv_std_logic_vector(8754,24); manlo <= conv_std_logic_vector(76015688,28); WHEN "1000100100" => manhi <= conv_std_logic_vector(8770,24); manlo <= conv_std_logic_vector(78258834,28); WHEN "1000100101" => manhi <= conv_std_logic_vector(8786,24); manlo <= conv_std_logic_vector(80506077,28); WHEN "1000100110" => manhi <= conv_std_logic_vector(8802,24); manlo <= conv_std_logic_vector(82757419,28); WHEN "1000100111" => manhi <= conv_std_logic_vector(8818,24); manlo <= conv_std_logic_vector(85012859,28); WHEN "1000101000" => manhi <= conv_std_logic_vector(8834,24); manlo <= conv_std_logic_vector(87272397,28); WHEN "1000101001" => manhi <= conv_std_logic_vector(8850,24); manlo <= conv_std_logic_vector(89536034,28); WHEN "1000101010" => manhi <= conv_std_logic_vector(8866,24); manlo <= conv_std_logic_vector(91803768,28); WHEN "1000101011" => manhi <= conv_std_logic_vector(8882,24); manlo <= conv_std_logic_vector(94075601,28); WHEN "1000101100" => manhi <= conv_std_logic_vector(8898,24); manlo <= conv_std_logic_vector(96351532,28); WHEN "1000101101" => manhi <= conv_std_logic_vector(8914,24); manlo <= conv_std_logic_vector(98631561,28); WHEN "1000101110" => manhi <= conv_std_logic_vector(8930,24); manlo <= conv_std_logic_vector(100915688,28); WHEN "1000101111" => manhi <= conv_std_logic_vector(8946,24); manlo <= conv_std_logic_vector(103203913,28); WHEN "1000110000" => manhi <= conv_std_logic_vector(8962,24); manlo <= conv_std_logic_vector(105496237,28); WHEN "1000110001" => manhi <= conv_std_logic_vector(8978,24); manlo <= conv_std_logic_vector(107792658,28); WHEN "1000110010" => manhi <= conv_std_logic_vector(8994,24); manlo <= conv_std_logic_vector(110093178,28); WHEN "1000110011" => manhi <= conv_std_logic_vector(9010,24); manlo <= conv_std_logic_vector(112397796,28); WHEN "1000110100" => manhi <= conv_std_logic_vector(9026,24); manlo <= conv_std_logic_vector(114706513,28); WHEN "1000110101" => manhi <= conv_std_logic_vector(9042,24); manlo <= conv_std_logic_vector(117019327,28); WHEN "1000110110" => manhi <= conv_std_logic_vector(9058,24); manlo <= conv_std_logic_vector(119336240,28); WHEN "1000110111" => manhi <= conv_std_logic_vector(9074,24); manlo <= conv_std_logic_vector(121657251,28); WHEN "1000111000" => manhi <= conv_std_logic_vector(9090,24); manlo <= conv_std_logic_vector(123982360,28); WHEN "1000111001" => manhi <= conv_std_logic_vector(9106,24); manlo <= conv_std_logic_vector(126311567,28); WHEN "1000111010" => manhi <= conv_std_logic_vector(9122,24); manlo <= conv_std_logic_vector(128644873,28); WHEN "1000111011" => manhi <= conv_std_logic_vector(9138,24); manlo <= conv_std_logic_vector(130982277,28); WHEN "1000111100" => manhi <= conv_std_logic_vector(9154,24); manlo <= conv_std_logic_vector(133323779,28); WHEN "1000111101" => manhi <= conv_std_logic_vector(9170,24); manlo <= conv_std_logic_vector(135669379,28); WHEN "1000111110" => manhi <= conv_std_logic_vector(9186,24); manlo <= conv_std_logic_vector(138019077,28); WHEN "1000111111" => manhi <= conv_std_logic_vector(9202,24); manlo <= conv_std_logic_vector(140372874,28); WHEN "1001000000" => manhi <= conv_std_logic_vector(9218,24); manlo <= conv_std_logic_vector(142730769,28); WHEN "1001000001" => manhi <= conv_std_logic_vector(9234,24); manlo <= conv_std_logic_vector(145092762,28); WHEN "1001000010" => manhi <= conv_std_logic_vector(9250,24); manlo <= conv_std_logic_vector(147458854,28); WHEN "1001000011" => manhi <= conv_std_logic_vector(9266,24); manlo <= conv_std_logic_vector(149829044,28); WHEN "1001000100" => manhi <= conv_std_logic_vector(9282,24); manlo <= conv_std_logic_vector(152203332,28); WHEN "1001000101" => manhi <= conv_std_logic_vector(9298,24); manlo <= conv_std_logic_vector(154581718,28); WHEN "1001000110" => manhi <= conv_std_logic_vector(9314,24); manlo <= conv_std_logic_vector(156964202,28); WHEN "1001000111" => manhi <= conv_std_logic_vector(9330,24); manlo <= conv_std_logic_vector(159350785,28); WHEN "1001001000" => manhi <= conv_std_logic_vector(9346,24); manlo <= conv_std_logic_vector(161741466,28); WHEN "1001001001" => manhi <= conv_std_logic_vector(9362,24); manlo <= conv_std_logic_vector(164136246,28); WHEN "1001001010" => manhi <= conv_std_logic_vector(9378,24); manlo <= conv_std_logic_vector(166535123,28); WHEN "1001001011" => manhi <= conv_std_logic_vector(9394,24); manlo <= conv_std_logic_vector(168938099,28); WHEN "1001001100" => manhi <= conv_std_logic_vector(9410,24); manlo <= conv_std_logic_vector(171345174,28); WHEN "1001001101" => manhi <= conv_std_logic_vector(9426,24); manlo <= conv_std_logic_vector(173756346,28); WHEN "1001001110" => manhi <= conv_std_logic_vector(9442,24); manlo <= conv_std_logic_vector(176171617,28); WHEN "1001001111" => manhi <= conv_std_logic_vector(9458,24); manlo <= conv_std_logic_vector(178590986,28); WHEN "1001010000" => manhi <= conv_std_logic_vector(9474,24); manlo <= conv_std_logic_vector(181014454,28); WHEN "1001010001" => manhi <= conv_std_logic_vector(9490,24); manlo <= conv_std_logic_vector(183442020,28); WHEN "1001010010" => manhi <= conv_std_logic_vector(9506,24); manlo <= conv_std_logic_vector(185873684,28); WHEN "1001010011" => manhi <= conv_std_logic_vector(9522,24); manlo <= conv_std_logic_vector(188309446,28); WHEN "1001010100" => manhi <= conv_std_logic_vector(9538,24); manlo <= conv_std_logic_vector(190749307,28); WHEN "1001010101" => manhi <= conv_std_logic_vector(9554,24); manlo <= conv_std_logic_vector(193193266,28); WHEN "1001010110" => manhi <= conv_std_logic_vector(9570,24); manlo <= conv_std_logic_vector(195641323,28); WHEN "1001010111" => manhi <= conv_std_logic_vector(9586,24); manlo <= conv_std_logic_vector(198093479,28); WHEN "1001011000" => manhi <= conv_std_logic_vector(9602,24); manlo <= conv_std_logic_vector(200549733,28); WHEN "1001011001" => manhi <= conv_std_logic_vector(9618,24); manlo <= conv_std_logic_vector(203010086,28); WHEN "1001011010" => manhi <= conv_std_logic_vector(9634,24); manlo <= conv_std_logic_vector(205474536,28); WHEN "1001011011" => manhi <= conv_std_logic_vector(9650,24); manlo <= conv_std_logic_vector(207943085,28); WHEN "1001011100" => manhi <= conv_std_logic_vector(9666,24); manlo <= conv_std_logic_vector(210415733,28); WHEN "1001011101" => manhi <= conv_std_logic_vector(9682,24); manlo <= conv_std_logic_vector(212892479,28); WHEN "1001011110" => manhi <= conv_std_logic_vector(9698,24); manlo <= conv_std_logic_vector(215373323,28); WHEN "1001011111" => manhi <= conv_std_logic_vector(9714,24); manlo <= conv_std_logic_vector(217858266,28); WHEN "1001100000" => manhi <= conv_std_logic_vector(9730,24); manlo <= conv_std_logic_vector(220347307,28); WHEN "1001100001" => manhi <= conv_std_logic_vector(9746,24); manlo <= conv_std_logic_vector(222840446,28); WHEN "1001100010" => manhi <= conv_std_logic_vector(9762,24); manlo <= conv_std_logic_vector(225337684,28); WHEN "1001100011" => manhi <= conv_std_logic_vector(9778,24); manlo <= conv_std_logic_vector(227839020,28); WHEN "1001100100" => manhi <= conv_std_logic_vector(9794,24); manlo <= conv_std_logic_vector(230344454,28); WHEN "1001100101" => manhi <= conv_std_logic_vector(9810,24); manlo <= conv_std_logic_vector(232853987,28); WHEN "1001100110" => manhi <= conv_std_logic_vector(9826,24); manlo <= conv_std_logic_vector(235367618,28); WHEN "1001100111" => manhi <= conv_std_logic_vector(9842,24); manlo <= conv_std_logic_vector(237885348,28); WHEN "1001101000" => manhi <= conv_std_logic_vector(9858,24); manlo <= conv_std_logic_vector(240407176,28); WHEN "1001101001" => manhi <= conv_std_logic_vector(9874,24); manlo <= conv_std_logic_vector(242933102,28); WHEN "1001101010" => manhi <= conv_std_logic_vector(9890,24); manlo <= conv_std_logic_vector(245463127,28); WHEN "1001101011" => manhi <= conv_std_logic_vector(9906,24); manlo <= conv_std_logic_vector(247997251,28); WHEN "1001101100" => manhi <= conv_std_logic_vector(9922,24); manlo <= conv_std_logic_vector(250535472,28); WHEN "1001101101" => manhi <= conv_std_logic_vector(9938,24); manlo <= conv_std_logic_vector(253077793,28); WHEN "1001101110" => manhi <= conv_std_logic_vector(9954,24); manlo <= conv_std_logic_vector(255624211,28); WHEN "1001101111" => manhi <= conv_std_logic_vector(9970,24); manlo <= conv_std_logic_vector(258174728,28); WHEN "1001110000" => manhi <= conv_std_logic_vector(9986,24); manlo <= conv_std_logic_vector(260729344,28); WHEN "1001110001" => manhi <= conv_std_logic_vector(10002,24); manlo <= conv_std_logic_vector(263288057,28); WHEN "1001110010" => manhi <= conv_std_logic_vector(10018,24); manlo <= conv_std_logic_vector(265850870,28); WHEN "1001110011" => manhi <= conv_std_logic_vector(10034,24); manlo <= conv_std_logic_vector(268417780,28); WHEN "1001110100" => manhi <= conv_std_logic_vector(10051,24); manlo <= conv_std_logic_vector(2553334,28); WHEN "1001110101" => manhi <= conv_std_logic_vector(10067,24); manlo <= conv_std_logic_vector(5128441,28); WHEN "1001110110" => manhi <= conv_std_logic_vector(10083,24); manlo <= conv_std_logic_vector(7707647,28); WHEN "1001110111" => manhi <= conv_std_logic_vector(10099,24); manlo <= conv_std_logic_vector(10290952,28); WHEN "1001111000" => manhi <= conv_std_logic_vector(10115,24); manlo <= conv_std_logic_vector(12878355,28); WHEN "1001111001" => manhi <= conv_std_logic_vector(10131,24); manlo <= conv_std_logic_vector(15469857,28); WHEN "1001111010" => manhi <= conv_std_logic_vector(10147,24); manlo <= conv_std_logic_vector(18065457,28); WHEN "1001111011" => manhi <= conv_std_logic_vector(10163,24); manlo <= conv_std_logic_vector(20665155,28); WHEN "1001111100" => manhi <= conv_std_logic_vector(10179,24); manlo <= conv_std_logic_vector(23268952,28); WHEN "1001111101" => manhi <= conv_std_logic_vector(10195,24); manlo <= conv_std_logic_vector(25876847,28); WHEN "1001111110" => manhi <= conv_std_logic_vector(10211,24); manlo <= conv_std_logic_vector(28488841,28); WHEN "1001111111" => manhi <= conv_std_logic_vector(10227,24); manlo <= conv_std_logic_vector(31104934,28); WHEN "1010000000" => manhi <= conv_std_logic_vector(10243,24); manlo <= conv_std_logic_vector(33725125,28); WHEN "1010000001" => manhi <= conv_std_logic_vector(10259,24); manlo <= conv_std_logic_vector(36349414,28); WHEN "1010000010" => manhi <= conv_std_logic_vector(10275,24); manlo <= conv_std_logic_vector(38977802,28); WHEN "1010000011" => manhi <= conv_std_logic_vector(10291,24); manlo <= conv_std_logic_vector(41610288,28); WHEN "1010000100" => manhi <= conv_std_logic_vector(10307,24); manlo <= conv_std_logic_vector(44246873,28); WHEN "1010000101" => manhi <= conv_std_logic_vector(10323,24); manlo <= conv_std_logic_vector(46887557,28); WHEN "1010000110" => manhi <= conv_std_logic_vector(10339,24); manlo <= conv_std_logic_vector(49532339,28); WHEN "1010000111" => manhi <= conv_std_logic_vector(10355,24); manlo <= conv_std_logic_vector(52181219,28); WHEN "1010001000" => manhi <= conv_std_logic_vector(10371,24); manlo <= conv_std_logic_vector(54834198,28); WHEN "1010001001" => manhi <= conv_std_logic_vector(10387,24); manlo <= conv_std_logic_vector(57491276,28); WHEN "1010001010" => manhi <= conv_std_logic_vector(10403,24); manlo <= conv_std_logic_vector(60152452,28); WHEN "1010001011" => manhi <= conv_std_logic_vector(10419,24); manlo <= conv_std_logic_vector(62817727,28); WHEN "1010001100" => manhi <= conv_std_logic_vector(10435,24); manlo <= conv_std_logic_vector(65487100,28); WHEN "1010001101" => manhi <= conv_std_logic_vector(10451,24); manlo <= conv_std_logic_vector(68160572,28); WHEN "1010001110" => manhi <= conv_std_logic_vector(10467,24); manlo <= conv_std_logic_vector(70838142,28); WHEN "1010001111" => manhi <= conv_std_logic_vector(10483,24); manlo <= conv_std_logic_vector(73519811,28); WHEN "1010010000" => manhi <= conv_std_logic_vector(10499,24); manlo <= conv_std_logic_vector(76205578,28); WHEN "1010010001" => manhi <= conv_std_logic_vector(10515,24); manlo <= conv_std_logic_vector(78895444,28); WHEN "1010010010" => manhi <= conv_std_logic_vector(10531,24); manlo <= conv_std_logic_vector(81589409,28); WHEN "1010010011" => manhi <= conv_std_logic_vector(10547,24); manlo <= conv_std_logic_vector(84287472,28); WHEN "1010010100" => manhi <= conv_std_logic_vector(10563,24); manlo <= conv_std_logic_vector(86989633,28); WHEN "1010010101" => manhi <= conv_std_logic_vector(10579,24); manlo <= conv_std_logic_vector(89695894,28); WHEN "1010010110" => manhi <= conv_std_logic_vector(10595,24); manlo <= conv_std_logic_vector(92406252,28); WHEN "1010010111" => manhi <= conv_std_logic_vector(10611,24); manlo <= conv_std_logic_vector(95120710,28); WHEN "1010011000" => manhi <= conv_std_logic_vector(10627,24); manlo <= conv_std_logic_vector(97839266,28); WHEN "1010011001" => manhi <= conv_std_logic_vector(10643,24); manlo <= conv_std_logic_vector(100561920,28); WHEN "1010011010" => manhi <= conv_std_logic_vector(10659,24); manlo <= conv_std_logic_vector(103288674,28); WHEN "1010011011" => manhi <= conv_std_logic_vector(10675,24); manlo <= conv_std_logic_vector(106019525,28); WHEN "1010011100" => manhi <= conv_std_logic_vector(10691,24); manlo <= conv_std_logic_vector(108754476,28); WHEN "1010011101" => manhi <= conv_std_logic_vector(10707,24); manlo <= conv_std_logic_vector(111493525,28); WHEN "1010011110" => manhi <= conv_std_logic_vector(10723,24); manlo <= conv_std_logic_vector(114236673,28); WHEN "1010011111" => manhi <= conv_std_logic_vector(10739,24); manlo <= conv_std_logic_vector(116983919,28); WHEN "1010100000" => manhi <= conv_std_logic_vector(10755,24); manlo <= conv_std_logic_vector(119735264,28); WHEN "1010100001" => manhi <= conv_std_logic_vector(10771,24); manlo <= conv_std_logic_vector(122490707,28); WHEN "1010100010" => manhi <= conv_std_logic_vector(10787,24); manlo <= conv_std_logic_vector(125250249,28); WHEN "1010100011" => manhi <= conv_std_logic_vector(10803,24); manlo <= conv_std_logic_vector(128013890,28); WHEN "1010100100" => manhi <= conv_std_logic_vector(10819,24); manlo <= conv_std_logic_vector(130781629,28); WHEN "1010100101" => manhi <= conv_std_logic_vector(10835,24); manlo <= conv_std_logic_vector(133553468,28); WHEN "1010100110" => manhi <= conv_std_logic_vector(10851,24); manlo <= conv_std_logic_vector(136329404,28); WHEN "1010100111" => manhi <= conv_std_logic_vector(10867,24); manlo <= conv_std_logic_vector(139109440,28); WHEN "1010101000" => manhi <= conv_std_logic_vector(10883,24); manlo <= conv_std_logic_vector(141893574,28); WHEN "1010101001" => manhi <= conv_std_logic_vector(10899,24); manlo <= conv_std_logic_vector(144681806,28); WHEN "1010101010" => manhi <= conv_std_logic_vector(10915,24); manlo <= conv_std_logic_vector(147474137,28); WHEN "1010101011" => manhi <= conv_std_logic_vector(10931,24); manlo <= conv_std_logic_vector(150270567,28); WHEN "1010101100" => manhi <= conv_std_logic_vector(10947,24); manlo <= conv_std_logic_vector(153071096,28); WHEN "1010101101" => manhi <= conv_std_logic_vector(10963,24); manlo <= conv_std_logic_vector(155875723,28); WHEN "1010101110" => manhi <= conv_std_logic_vector(10979,24); manlo <= conv_std_logic_vector(158684449,28); WHEN "1010101111" => manhi <= conv_std_logic_vector(10995,24); manlo <= conv_std_logic_vector(161497274,28); WHEN "1010110000" => manhi <= conv_std_logic_vector(11011,24); manlo <= conv_std_logic_vector(164314197,28); WHEN "1010110001" => manhi <= conv_std_logic_vector(11027,24); manlo <= conv_std_logic_vector(167135219,28); WHEN "1010110010" => manhi <= conv_std_logic_vector(11043,24); manlo <= conv_std_logic_vector(169960340,28); WHEN "1010110011" => manhi <= conv_std_logic_vector(11059,24); manlo <= conv_std_logic_vector(172789560,28); WHEN "1010110100" => manhi <= conv_std_logic_vector(11075,24); manlo <= conv_std_logic_vector(175622878,28); WHEN "1010110101" => manhi <= conv_std_logic_vector(11091,24); manlo <= conv_std_logic_vector(178460295,28); WHEN "1010110110" => manhi <= conv_std_logic_vector(11107,24); manlo <= conv_std_logic_vector(181301810,28); WHEN "1010110111" => manhi <= conv_std_logic_vector(11123,24); manlo <= conv_std_logic_vector(184147424,28); WHEN "1010111000" => manhi <= conv_std_logic_vector(11139,24); manlo <= conv_std_logic_vector(186997137,28); WHEN "1010111001" => manhi <= conv_std_logic_vector(11155,24); manlo <= conv_std_logic_vector(189850949,28); WHEN "1010111010" => manhi <= conv_std_logic_vector(11171,24); manlo <= conv_std_logic_vector(192708860,28); WHEN "1010111011" => manhi <= conv_std_logic_vector(11187,24); manlo <= conv_std_logic_vector(195570869,28); WHEN "1010111100" => manhi <= conv_std_logic_vector(11203,24); manlo <= conv_std_logic_vector(198436977,28); WHEN "1010111101" => manhi <= conv_std_logic_vector(11219,24); manlo <= conv_std_logic_vector(201307183,28); WHEN "1010111110" => manhi <= conv_std_logic_vector(11235,24); manlo <= conv_std_logic_vector(204181489,28); WHEN "1010111111" => manhi <= conv_std_logic_vector(11251,24); manlo <= conv_std_logic_vector(207059893,28); WHEN "1011000000" => manhi <= conv_std_logic_vector(11267,24); manlo <= conv_std_logic_vector(209942395,28); WHEN "1011000001" => manhi <= conv_std_logic_vector(11283,24); manlo <= conv_std_logic_vector(212828997,28); WHEN "1011000010" => manhi <= conv_std_logic_vector(11299,24); manlo <= conv_std_logic_vector(215719697,28); WHEN "1011000011" => manhi <= conv_std_logic_vector(11315,24); manlo <= conv_std_logic_vector(218614497,28); WHEN "1011000100" => manhi <= conv_std_logic_vector(11331,24); manlo <= conv_std_logic_vector(221513394,28); WHEN "1011000101" => manhi <= conv_std_logic_vector(11347,24); manlo <= conv_std_logic_vector(224416391,28); WHEN "1011000110" => manhi <= conv_std_logic_vector(11363,24); manlo <= conv_std_logic_vector(227323486,28); WHEN "1011000111" => manhi <= conv_std_logic_vector(11379,24); manlo <= conv_std_logic_vector(230234681,28); WHEN "1011001000" => manhi <= conv_std_logic_vector(11395,24); manlo <= conv_std_logic_vector(233149974,28); WHEN "1011001001" => manhi <= conv_std_logic_vector(11411,24); manlo <= conv_std_logic_vector(236069365,28); WHEN "1011001010" => manhi <= conv_std_logic_vector(11427,24); manlo <= conv_std_logic_vector(238992856,28); WHEN "1011001011" => manhi <= conv_std_logic_vector(11443,24); manlo <= conv_std_logic_vector(241920445,28); WHEN "1011001100" => manhi <= conv_std_logic_vector(11459,24); manlo <= conv_std_logic_vector(244852133,28); WHEN "1011001101" => manhi <= conv_std_logic_vector(11475,24); manlo <= conv_std_logic_vector(247787920,28); WHEN "1011001110" => manhi <= conv_std_logic_vector(11491,24); manlo <= conv_std_logic_vector(250727806,28); WHEN "1011001111" => manhi <= conv_std_logic_vector(11507,24); manlo <= conv_std_logic_vector(253671790,28); WHEN "1011010000" => manhi <= conv_std_logic_vector(11523,24); manlo <= conv_std_logic_vector(256619874,28); WHEN "1011010001" => manhi <= conv_std_logic_vector(11539,24); manlo <= conv_std_logic_vector(259572056,28); WHEN "1011010010" => manhi <= conv_std_logic_vector(11555,24); manlo <= conv_std_logic_vector(262528337,28); WHEN "1011010011" => manhi <= conv_std_logic_vector(11571,24); manlo <= conv_std_logic_vector(265488717,28); WHEN "1011010100" => manhi <= conv_std_logic_vector(11588,24); manlo <= conv_std_logic_vector(17739,28); WHEN "1011010101" => manhi <= conv_std_logic_vector(11604,24); manlo <= conv_std_logic_vector(2986317,28); WHEN "1011010110" => manhi <= conv_std_logic_vector(11620,24); manlo <= conv_std_logic_vector(5958993,28); WHEN "1011010111" => manhi <= conv_std_logic_vector(11636,24); manlo <= conv_std_logic_vector(8935768,28); WHEN "1011011000" => manhi <= conv_std_logic_vector(11652,24); manlo <= conv_std_logic_vector(11916642,28); WHEN "1011011001" => manhi <= conv_std_logic_vector(11668,24); manlo <= conv_std_logic_vector(14901615,28); WHEN "1011011010" => manhi <= conv_std_logic_vector(11684,24); manlo <= conv_std_logic_vector(17890686,28); WHEN "1011011011" => manhi <= conv_std_logic_vector(11700,24); manlo <= conv_std_logic_vector(20883857,28); WHEN "1011011100" => manhi <= conv_std_logic_vector(11716,24); manlo <= conv_std_logic_vector(23881126,28); WHEN "1011011101" => manhi <= conv_std_logic_vector(11732,24); manlo <= conv_std_logic_vector(26882494,28); WHEN "1011011110" => manhi <= conv_std_logic_vector(11748,24); manlo <= conv_std_logic_vector(29887961,28); WHEN "1011011111" => manhi <= conv_std_logic_vector(11764,24); manlo <= conv_std_logic_vector(32897527,28); WHEN "1011100000" => manhi <= conv_std_logic_vector(11780,24); manlo <= conv_std_logic_vector(35911192,28); WHEN "1011100001" => manhi <= conv_std_logic_vector(11796,24); manlo <= conv_std_logic_vector(38928956,28); WHEN "1011100010" => manhi <= conv_std_logic_vector(11812,24); manlo <= conv_std_logic_vector(41950818,28); WHEN "1011100011" => manhi <= conv_std_logic_vector(11828,24); manlo <= conv_std_logic_vector(44976780,28); WHEN "1011100100" => manhi <= conv_std_logic_vector(11844,24); manlo <= conv_std_logic_vector(48006840,28); WHEN "1011100101" => manhi <= conv_std_logic_vector(11860,24); manlo <= conv_std_logic_vector(51040999,28); WHEN "1011100110" => manhi <= conv_std_logic_vector(11876,24); manlo <= conv_std_logic_vector(54079258,28); WHEN "1011100111" => manhi <= conv_std_logic_vector(11892,24); manlo <= conv_std_logic_vector(57121615,28); WHEN "1011101000" => manhi <= conv_std_logic_vector(11908,24); manlo <= conv_std_logic_vector(60168071,28); WHEN "1011101001" => manhi <= conv_std_logic_vector(11924,24); manlo <= conv_std_logic_vector(63218625,28); WHEN "1011101010" => manhi <= conv_std_logic_vector(11940,24); manlo <= conv_std_logic_vector(66273279,28); WHEN "1011101011" => manhi <= conv_std_logic_vector(11956,24); manlo <= conv_std_logic_vector(69332032,28); WHEN "1011101100" => manhi <= conv_std_logic_vector(11972,24); manlo <= conv_std_logic_vector(72394883,28); WHEN "1011101101" => manhi <= conv_std_logic_vector(11988,24); manlo <= conv_std_logic_vector(75461834,28); WHEN "1011101110" => manhi <= conv_std_logic_vector(12004,24); manlo <= conv_std_logic_vector(78532883,28); WHEN "1011101111" => manhi <= conv_std_logic_vector(12020,24); manlo <= conv_std_logic_vector(81608032,28); WHEN "1011110000" => manhi <= conv_std_logic_vector(12036,24); manlo <= conv_std_logic_vector(84687279,28); WHEN "1011110001" => manhi <= conv_std_logic_vector(12052,24); manlo <= conv_std_logic_vector(87770625,28); WHEN "1011110010" => manhi <= conv_std_logic_vector(12068,24); manlo <= conv_std_logic_vector(90858070,28); WHEN "1011110011" => manhi <= conv_std_logic_vector(12084,24); manlo <= conv_std_logic_vector(93949615,28); WHEN "1011110100" => manhi <= conv_std_logic_vector(12100,24); manlo <= conv_std_logic_vector(97045258,28); WHEN "1011110101" => manhi <= conv_std_logic_vector(12116,24); manlo <= conv_std_logic_vector(100145000,28); WHEN "1011110110" => manhi <= conv_std_logic_vector(12132,24); manlo <= conv_std_logic_vector(103248841,28); WHEN "1011110111" => manhi <= conv_std_logic_vector(12148,24); manlo <= conv_std_logic_vector(106356781,28); WHEN "1011111000" => manhi <= conv_std_logic_vector(12164,24); manlo <= conv_std_logic_vector(109468819,28); WHEN "1011111001" => manhi <= conv_std_logic_vector(12180,24); manlo <= conv_std_logic_vector(112584957,28); WHEN "1011111010" => manhi <= conv_std_logic_vector(12196,24); manlo <= conv_std_logic_vector(115705194,28); WHEN "1011111011" => manhi <= conv_std_logic_vector(12212,24); manlo <= conv_std_logic_vector(118829530,28); WHEN "1011111100" => manhi <= conv_std_logic_vector(12228,24); manlo <= conv_std_logic_vector(121957965,28); WHEN "1011111101" => manhi <= conv_std_logic_vector(12244,24); manlo <= conv_std_logic_vector(125090499,28); WHEN "1011111110" => manhi <= conv_std_logic_vector(12260,24); manlo <= conv_std_logic_vector(128227131,28); WHEN "1011111111" => manhi <= conv_std_logic_vector(12276,24); manlo <= conv_std_logic_vector(131367863,28); WHEN "1100000000" => manhi <= conv_std_logic_vector(12292,24); manlo <= conv_std_logic_vector(134512694,28); WHEN "1100000001" => manhi <= conv_std_logic_vector(12308,24); manlo <= conv_std_logic_vector(137661624,28); WHEN "1100000010" => manhi <= conv_std_logic_vector(12324,24); manlo <= conv_std_logic_vector(140814653,28); WHEN "1100000011" => manhi <= conv_std_logic_vector(12340,24); manlo <= conv_std_logic_vector(143971780,28); WHEN "1100000100" => manhi <= conv_std_logic_vector(12356,24); manlo <= conv_std_logic_vector(147133007,28); WHEN "1100000101" => manhi <= conv_std_logic_vector(12372,24); manlo <= conv_std_logic_vector(150298333,28); WHEN "1100000110" => manhi <= conv_std_logic_vector(12388,24); manlo <= conv_std_logic_vector(153467758,28); WHEN "1100000111" => manhi <= conv_std_logic_vector(12404,24); manlo <= conv_std_logic_vector(156641282,28); WHEN "1100001000" => manhi <= conv_std_logic_vector(12420,24); manlo <= conv_std_logic_vector(159818905,28); WHEN "1100001001" => manhi <= conv_std_logic_vector(12436,24); manlo <= conv_std_logic_vector(163000627,28); WHEN "1100001010" => manhi <= conv_std_logic_vector(12452,24); manlo <= conv_std_logic_vector(166186448,28); WHEN "1100001011" => manhi <= conv_std_logic_vector(12468,24); manlo <= conv_std_logic_vector(169376368,28); WHEN "1100001100" => manhi <= conv_std_logic_vector(12484,24); manlo <= conv_std_logic_vector(172570387,28); WHEN "1100001101" => manhi <= conv_std_logic_vector(12500,24); manlo <= conv_std_logic_vector(175768505,28); WHEN "1100001110" => manhi <= conv_std_logic_vector(12516,24); manlo <= conv_std_logic_vector(178970722,28); WHEN "1100001111" => manhi <= conv_std_logic_vector(12532,24); manlo <= conv_std_logic_vector(182177038,28); WHEN "1100010000" => manhi <= conv_std_logic_vector(12548,24); manlo <= conv_std_logic_vector(185387453,28); WHEN "1100010001" => manhi <= conv_std_logic_vector(12564,24); manlo <= conv_std_logic_vector(188601968,28); WHEN "1100010010" => manhi <= conv_std_logic_vector(12580,24); manlo <= conv_std_logic_vector(191820581,28); WHEN "1100010011" => manhi <= conv_std_logic_vector(12596,24); manlo <= conv_std_logic_vector(195043294,28); WHEN "1100010100" => manhi <= conv_std_logic_vector(12612,24); manlo <= conv_std_logic_vector(198270105,28); WHEN "1100010101" => manhi <= conv_std_logic_vector(12628,24); manlo <= conv_std_logic_vector(201501016,28); WHEN "1100010110" => manhi <= conv_std_logic_vector(12644,24); manlo <= conv_std_logic_vector(204736025,28); WHEN "1100010111" => manhi <= conv_std_logic_vector(12660,24); manlo <= conv_std_logic_vector(207975134,28); WHEN "1100011000" => manhi <= conv_std_logic_vector(12676,24); manlo <= conv_std_logic_vector(211218342,28); WHEN "1100011001" => manhi <= conv_std_logic_vector(12692,24); manlo <= conv_std_logic_vector(214465649,28); WHEN "1100011010" => manhi <= conv_std_logic_vector(12708,24); manlo <= conv_std_logic_vector(217717055,28); WHEN "1100011011" => manhi <= conv_std_logic_vector(12724,24); manlo <= conv_std_logic_vector(220972560,28); WHEN "1100011100" => manhi <= conv_std_logic_vector(12740,24); manlo <= conv_std_logic_vector(224232165,28); WHEN "1100011101" => manhi <= conv_std_logic_vector(12756,24); manlo <= conv_std_logic_vector(227495868,28); WHEN "1100011110" => manhi <= conv_std_logic_vector(12772,24); manlo <= conv_std_logic_vector(230763671,28); WHEN "1100011111" => manhi <= conv_std_logic_vector(12788,24); manlo <= conv_std_logic_vector(234035572,28); WHEN "1100100000" => manhi <= conv_std_logic_vector(12804,24); manlo <= conv_std_logic_vector(237311573,28); WHEN "1100100001" => manhi <= conv_std_logic_vector(12820,24); manlo <= conv_std_logic_vector(240591673,28); WHEN "1100100010" => manhi <= conv_std_logic_vector(12836,24); manlo <= conv_std_logic_vector(243875872,28); WHEN "1100100011" => manhi <= conv_std_logic_vector(12852,24); manlo <= conv_std_logic_vector(247164170,28); WHEN "1100100100" => manhi <= conv_std_logic_vector(12868,24); manlo <= conv_std_logic_vector(250456567,28); WHEN "1100100101" => manhi <= conv_std_logic_vector(12884,24); manlo <= conv_std_logic_vector(253753064,28); WHEN "1100100110" => manhi <= conv_std_logic_vector(12900,24); manlo <= conv_std_logic_vector(257053659,28); WHEN "1100100111" => manhi <= conv_std_logic_vector(12916,24); manlo <= conv_std_logic_vector(260358354,28); WHEN "1100101000" => manhi <= conv_std_logic_vector(12932,24); manlo <= conv_std_logic_vector(263667148,28); WHEN "1100101001" => manhi <= conv_std_logic_vector(12948,24); manlo <= conv_std_logic_vector(266980041,28); WHEN "1100101010" => manhi <= conv_std_logic_vector(12965,24); manlo <= conv_std_logic_vector(1861577,28); WHEN "1100101011" => manhi <= conv_std_logic_vector(12981,24); manlo <= conv_std_logic_vector(5182668,28); WHEN "1100101100" => manhi <= conv_std_logic_vector(12997,24); manlo <= conv_std_logic_vector(8507859,28); WHEN "1100101101" => manhi <= conv_std_logic_vector(13013,24); manlo <= conv_std_logic_vector(11837149,28); WHEN "1100101110" => manhi <= conv_std_logic_vector(13029,24); manlo <= conv_std_logic_vector(15170538,28); WHEN "1100101111" => manhi <= conv_std_logic_vector(13045,24); manlo <= conv_std_logic_vector(18508026,28); WHEN "1100110000" => manhi <= conv_std_logic_vector(13061,24); manlo <= conv_std_logic_vector(21849613,28); WHEN "1100110001" => manhi <= conv_std_logic_vector(13077,24); manlo <= conv_std_logic_vector(25195299,28); WHEN "1100110010" => manhi <= conv_std_logic_vector(13093,24); manlo <= conv_std_logic_vector(28545085,28); WHEN "1100110011" => manhi <= conv_std_logic_vector(13109,24); manlo <= conv_std_logic_vector(31898970,28); WHEN "1100110100" => manhi <= conv_std_logic_vector(13125,24); manlo <= conv_std_logic_vector(35256954,28); WHEN "1100110101" => manhi <= conv_std_logic_vector(13141,24); manlo <= conv_std_logic_vector(38619037,28); WHEN "1100110110" => manhi <= conv_std_logic_vector(13157,24); manlo <= conv_std_logic_vector(41985219,28); WHEN "1100110111" => manhi <= conv_std_logic_vector(13173,24); manlo <= conv_std_logic_vector(45355501,28); WHEN "1100111000" => manhi <= conv_std_logic_vector(13189,24); manlo <= conv_std_logic_vector(48729882,28); WHEN "1100111001" => manhi <= conv_std_logic_vector(13205,24); manlo <= conv_std_logic_vector(52108362,28); WHEN "1100111010" => manhi <= conv_std_logic_vector(13221,24); manlo <= conv_std_logic_vector(55490941,28); WHEN "1100111011" => manhi <= conv_std_logic_vector(13237,24); manlo <= conv_std_logic_vector(58877620,28); WHEN "1100111100" => manhi <= conv_std_logic_vector(13253,24); manlo <= conv_std_logic_vector(62268398,28); WHEN "1100111101" => manhi <= conv_std_logic_vector(13269,24); manlo <= conv_std_logic_vector(65663275,28); WHEN "1100111110" => manhi <= conv_std_logic_vector(13285,24); manlo <= conv_std_logic_vector(69062251,28); WHEN "1100111111" => manhi <= conv_std_logic_vector(13301,24); manlo <= conv_std_logic_vector(72465326,28); WHEN "1101000000" => manhi <= conv_std_logic_vector(13317,24); manlo <= conv_std_logic_vector(75872501,28); WHEN "1101000001" => manhi <= conv_std_logic_vector(13333,24); manlo <= conv_std_logic_vector(79283775,28); WHEN "1101000010" => manhi <= conv_std_logic_vector(13349,24); manlo <= conv_std_logic_vector(82699148,28); WHEN "1101000011" => manhi <= conv_std_logic_vector(13365,24); manlo <= conv_std_logic_vector(86118621,28); WHEN "1101000100" => manhi <= conv_std_logic_vector(13381,24); manlo <= conv_std_logic_vector(89542193,28); WHEN "1101000101" => manhi <= conv_std_logic_vector(13397,24); manlo <= conv_std_logic_vector(92969864,28); WHEN "1101000110" => manhi <= conv_std_logic_vector(13413,24); manlo <= conv_std_logic_vector(96401634,28); WHEN "1101000111" => manhi <= conv_std_logic_vector(13429,24); manlo <= conv_std_logic_vector(99837503,28); WHEN "1101001000" => manhi <= conv_std_logic_vector(13445,24); manlo <= conv_std_logic_vector(103277472,28); WHEN "1101001001" => manhi <= conv_std_logic_vector(13461,24); manlo <= conv_std_logic_vector(106721540,28); WHEN "1101001010" => manhi <= conv_std_logic_vector(13477,24); manlo <= conv_std_logic_vector(110169708,28); WHEN "1101001011" => manhi <= conv_std_logic_vector(13493,24); manlo <= conv_std_logic_vector(113621975,28); WHEN "1101001100" => manhi <= conv_std_logic_vector(13509,24); manlo <= conv_std_logic_vector(117078341,28); WHEN "1101001101" => manhi <= conv_std_logic_vector(13525,24); manlo <= conv_std_logic_vector(120538806,28); WHEN "1101001110" => manhi <= conv_std_logic_vector(13541,24); manlo <= conv_std_logic_vector(124003370,28); WHEN "1101001111" => manhi <= conv_std_logic_vector(13557,24); manlo <= conv_std_logic_vector(127472034,28); WHEN "1101010000" => manhi <= conv_std_logic_vector(13573,24); manlo <= conv_std_logic_vector(130944798,28); WHEN "1101010001" => manhi <= conv_std_logic_vector(13589,24); manlo <= conv_std_logic_vector(134421660,28); WHEN "1101010010" => manhi <= conv_std_logic_vector(13605,24); manlo <= conv_std_logic_vector(137902622,28); WHEN "1101010011" => manhi <= conv_std_logic_vector(13621,24); manlo <= conv_std_logic_vector(141387683,28); WHEN "1101010100" => manhi <= conv_std_logic_vector(13637,24); manlo <= conv_std_logic_vector(144876844,28); WHEN "1101010101" => manhi <= conv_std_logic_vector(13653,24); manlo <= conv_std_logic_vector(148370104,28); WHEN "1101010110" => manhi <= conv_std_logic_vector(13669,24); manlo <= conv_std_logic_vector(151867463,28); WHEN "1101010111" => manhi <= conv_std_logic_vector(13685,24); manlo <= conv_std_logic_vector(155368921,28); WHEN "1101011000" => manhi <= conv_std_logic_vector(13701,24); manlo <= conv_std_logic_vector(158874479,28); WHEN "1101011001" => manhi <= conv_std_logic_vector(13717,24); manlo <= conv_std_logic_vector(162384136,28); WHEN "1101011010" => manhi <= conv_std_logic_vector(13733,24); manlo <= conv_std_logic_vector(165897893,28); WHEN "1101011011" => manhi <= conv_std_logic_vector(13749,24); manlo <= conv_std_logic_vector(169415749,28); WHEN "1101011100" => manhi <= conv_std_logic_vector(13765,24); manlo <= conv_std_logic_vector(172937704,28); WHEN "1101011101" => manhi <= conv_std_logic_vector(13781,24); manlo <= conv_std_logic_vector(176463758,28); WHEN "1101011110" => manhi <= conv_std_logic_vector(13797,24); manlo <= conv_std_logic_vector(179993912,28); WHEN "1101011111" => manhi <= conv_std_logic_vector(13813,24); manlo <= conv_std_logic_vector(183528166,28); WHEN "1101100000" => manhi <= conv_std_logic_vector(13829,24); manlo <= conv_std_logic_vector(187066519,28); WHEN "1101100001" => manhi <= conv_std_logic_vector(13845,24); manlo <= conv_std_logic_vector(190608971,28); WHEN "1101100010" => manhi <= conv_std_logic_vector(13861,24); manlo <= conv_std_logic_vector(194155522,28); WHEN "1101100011" => manhi <= conv_std_logic_vector(13877,24); manlo <= conv_std_logic_vector(197706173,28); WHEN "1101100100" => manhi <= conv_std_logic_vector(13893,24); manlo <= conv_std_logic_vector(201260923,28); WHEN "1101100101" => manhi <= conv_std_logic_vector(13909,24); manlo <= conv_std_logic_vector(204819773,28); WHEN "1101100110" => manhi <= conv_std_logic_vector(13925,24); manlo <= conv_std_logic_vector(208382722,28); WHEN "1101100111" => manhi <= conv_std_logic_vector(13941,24); manlo <= conv_std_logic_vector(211949770,28); WHEN "1101101000" => manhi <= conv_std_logic_vector(13957,24); manlo <= conv_std_logic_vector(215520918,28); WHEN "1101101001" => manhi <= conv_std_logic_vector(13973,24); manlo <= conv_std_logic_vector(219096165,28); WHEN "1101101010" => manhi <= conv_std_logic_vector(13989,24); manlo <= conv_std_logic_vector(222675512,28); WHEN "1101101011" => manhi <= conv_std_logic_vector(14005,24); manlo <= conv_std_logic_vector(226258958,28); WHEN "1101101100" => manhi <= conv_std_logic_vector(14021,24); manlo <= conv_std_logic_vector(229846504,28); WHEN "1101101101" => manhi <= conv_std_logic_vector(14037,24); manlo <= conv_std_logic_vector(233438148,28); WHEN "1101101110" => manhi <= conv_std_logic_vector(14053,24); manlo <= conv_std_logic_vector(237033893,28); WHEN "1101101111" => manhi <= conv_std_logic_vector(14069,24); manlo <= conv_std_logic_vector(240633737,28); WHEN "1101110000" => manhi <= conv_std_logic_vector(14085,24); manlo <= conv_std_logic_vector(244237680,28); WHEN "1101110001" => manhi <= conv_std_logic_vector(14101,24); manlo <= conv_std_logic_vector(247845722,28); WHEN "1101110010" => manhi <= conv_std_logic_vector(14117,24); manlo <= conv_std_logic_vector(251457864,28); WHEN "1101110011" => manhi <= conv_std_logic_vector(14133,24); manlo <= conv_std_logic_vector(255074106,28); WHEN "1101110100" => manhi <= conv_std_logic_vector(14149,24); manlo <= conv_std_logic_vector(258694447,28); WHEN "1101110101" => manhi <= conv_std_logic_vector(14165,24); manlo <= conv_std_logic_vector(262318887,28); WHEN "1101110110" => manhi <= conv_std_logic_vector(14181,24); manlo <= conv_std_logic_vector(265947427,28); WHEN "1101110111" => manhi <= conv_std_logic_vector(14198,24); manlo <= conv_std_logic_vector(1144611,28); WHEN "1101111000" => manhi <= conv_std_logic_vector(14214,24); manlo <= conv_std_logic_vector(4781350,28); WHEN "1101111001" => manhi <= conv_std_logic_vector(14230,24); manlo <= conv_std_logic_vector(8422188,28); WHEN "1101111010" => manhi <= conv_std_logic_vector(14246,24); manlo <= conv_std_logic_vector(12067126,28); WHEN "1101111011" => manhi <= conv_std_logic_vector(14262,24); manlo <= conv_std_logic_vector(15716163,28); WHEN "1101111100" => manhi <= conv_std_logic_vector(14278,24); manlo <= conv_std_logic_vector(19369300,28); WHEN "1101111101" => manhi <= conv_std_logic_vector(14294,24); manlo <= conv_std_logic_vector(23026536,28); WHEN "1101111110" => manhi <= conv_std_logic_vector(14310,24); manlo <= conv_std_logic_vector(26687871,28); WHEN "1101111111" => manhi <= conv_std_logic_vector(14326,24); manlo <= conv_std_logic_vector(30353307,28); WHEN "1110000000" => manhi <= conv_std_logic_vector(14342,24); manlo <= conv_std_logic_vector(34022841,28); WHEN "1110000001" => manhi <= conv_std_logic_vector(14358,24); manlo <= conv_std_logic_vector(37696476,28); WHEN "1110000010" => manhi <= conv_std_logic_vector(14374,24); manlo <= conv_std_logic_vector(41374209,28); WHEN "1110000011" => manhi <= conv_std_logic_vector(14390,24); manlo <= conv_std_logic_vector(45056043,28); WHEN "1110000100" => manhi <= conv_std_logic_vector(14406,24); manlo <= conv_std_logic_vector(48741975,28); WHEN "1110000101" => manhi <= conv_std_logic_vector(14422,24); manlo <= conv_std_logic_vector(52432007,28); WHEN "1110000110" => manhi <= conv_std_logic_vector(14438,24); manlo <= conv_std_logic_vector(56126139,28); WHEN "1110000111" => manhi <= conv_std_logic_vector(14454,24); manlo <= conv_std_logic_vector(59824371,28); WHEN "1110001000" => manhi <= conv_std_logic_vector(14470,24); manlo <= conv_std_logic_vector(63526701,28); WHEN "1110001001" => manhi <= conv_std_logic_vector(14486,24); manlo <= conv_std_logic_vector(67233132,28); WHEN "1110001010" => manhi <= conv_std_logic_vector(14502,24); manlo <= conv_std_logic_vector(70943662,28); WHEN "1110001011" => manhi <= conv_std_logic_vector(14518,24); manlo <= conv_std_logic_vector(74658291,28); WHEN "1110001100" => manhi <= conv_std_logic_vector(14534,24); manlo <= conv_std_logic_vector(78377020,28); WHEN "1110001101" => manhi <= conv_std_logic_vector(14550,24); manlo <= conv_std_logic_vector(82099849,28); WHEN "1110001110" => manhi <= conv_std_logic_vector(14566,24); manlo <= conv_std_logic_vector(85826777,28); WHEN "1110001111" => manhi <= conv_std_logic_vector(14582,24); manlo <= conv_std_logic_vector(89557804,28); WHEN "1110010000" => manhi <= conv_std_logic_vector(14598,24); manlo <= conv_std_logic_vector(93292931,28); WHEN "1110010001" => manhi <= conv_std_logic_vector(14614,24); manlo <= conv_std_logic_vector(97032158,28); WHEN "1110010010" => manhi <= conv_std_logic_vector(14630,24); manlo <= conv_std_logic_vector(100775484,28); WHEN "1110010011" => manhi <= conv_std_logic_vector(14646,24); manlo <= conv_std_logic_vector(104522910,28); WHEN "1110010100" => manhi <= conv_std_logic_vector(14662,24); manlo <= conv_std_logic_vector(108274436,28); WHEN "1110010101" => manhi <= conv_std_logic_vector(14678,24); manlo <= conv_std_logic_vector(112030061,28); WHEN "1110010110" => manhi <= conv_std_logic_vector(14694,24); manlo <= conv_std_logic_vector(115789786,28); WHEN "1110010111" => manhi <= conv_std_logic_vector(14710,24); manlo <= conv_std_logic_vector(119553610,28); WHEN "1110011000" => manhi <= conv_std_logic_vector(14726,24); manlo <= conv_std_logic_vector(123321534,28); WHEN "1110011001" => manhi <= conv_std_logic_vector(14742,24); manlo <= conv_std_logic_vector(127093557,28); WHEN "1110011010" => manhi <= conv_std_logic_vector(14758,24); manlo <= conv_std_logic_vector(130869680,28); WHEN "1110011011" => manhi <= conv_std_logic_vector(14774,24); manlo <= conv_std_logic_vector(134649903,28); WHEN "1110011100" => manhi <= conv_std_logic_vector(14790,24); manlo <= conv_std_logic_vector(138434225,28); WHEN "1110011101" => manhi <= conv_std_logic_vector(14806,24); manlo <= conv_std_logic_vector(142222647,28); WHEN "1110011110" => manhi <= conv_std_logic_vector(14822,24); manlo <= conv_std_logic_vector(146015168,28); WHEN "1110011111" => manhi <= conv_std_logic_vector(14838,24); manlo <= conv_std_logic_vector(149811789,28); WHEN "1110100000" => manhi <= conv_std_logic_vector(14854,24); manlo <= conv_std_logic_vector(153612510,28); WHEN "1110100001" => manhi <= conv_std_logic_vector(14870,24); manlo <= conv_std_logic_vector(157417330,28); WHEN "1110100010" => manhi <= conv_std_logic_vector(14886,24); manlo <= conv_std_logic_vector(161226250,28); WHEN "1110100011" => manhi <= conv_std_logic_vector(14902,24); manlo <= conv_std_logic_vector(165039270,28); WHEN "1110100100" => manhi <= conv_std_logic_vector(14918,24); manlo <= conv_std_logic_vector(168856389,28); WHEN "1110100101" => manhi <= conv_std_logic_vector(14934,24); manlo <= conv_std_logic_vector(172677608,28); WHEN "1110100110" => manhi <= conv_std_logic_vector(14950,24); manlo <= conv_std_logic_vector(176502926,28); WHEN "1110100111" => manhi <= conv_std_logic_vector(14966,24); manlo <= conv_std_logic_vector(180332344,28); WHEN "1110101000" => manhi <= conv_std_logic_vector(14982,24); manlo <= conv_std_logic_vector(184165862,28); WHEN "1110101001" => manhi <= conv_std_logic_vector(14998,24); manlo <= conv_std_logic_vector(188003480,28); WHEN "1110101010" => manhi <= conv_std_logic_vector(15014,24); manlo <= conv_std_logic_vector(191845197,28); WHEN "1110101011" => manhi <= conv_std_logic_vector(15030,24); manlo <= conv_std_logic_vector(195691014,28); WHEN "1110101100" => manhi <= conv_std_logic_vector(15046,24); manlo <= conv_std_logic_vector(199540930,28); WHEN "1110101101" => manhi <= conv_std_logic_vector(15062,24); manlo <= conv_std_logic_vector(203394946,28); WHEN "1110101110" => manhi <= conv_std_logic_vector(15078,24); manlo <= conv_std_logic_vector(207253062,28); WHEN "1110101111" => manhi <= conv_std_logic_vector(15094,24); manlo <= conv_std_logic_vector(211115277,28); WHEN "1110110000" => manhi <= conv_std_logic_vector(15110,24); manlo <= conv_std_logic_vector(214981593,28); WHEN "1110110001" => manhi <= conv_std_logic_vector(15126,24); manlo <= conv_std_logic_vector(218852007,28); WHEN "1110110010" => manhi <= conv_std_logic_vector(15142,24); manlo <= conv_std_logic_vector(222726522,28); WHEN "1110110011" => manhi <= conv_std_logic_vector(15158,24); manlo <= conv_std_logic_vector(226605136,28); WHEN "1110110100" => manhi <= conv_std_logic_vector(15174,24); manlo <= conv_std_logic_vector(230487850,28); WHEN "1110110101" => manhi <= conv_std_logic_vector(15190,24); manlo <= conv_std_logic_vector(234374664,28); WHEN "1110110110" => manhi <= conv_std_logic_vector(15206,24); manlo <= conv_std_logic_vector(238265577,28); WHEN "1110110111" => manhi <= conv_std_logic_vector(15222,24); manlo <= conv_std_logic_vector(242160590,28); WHEN "1110111000" => manhi <= conv_std_logic_vector(15238,24); manlo <= conv_std_logic_vector(246059703,28); WHEN "1110111001" => manhi <= conv_std_logic_vector(15254,24); manlo <= conv_std_logic_vector(249962916,28); WHEN "1110111010" => manhi <= conv_std_logic_vector(15270,24); manlo <= conv_std_logic_vector(253870228,28); WHEN "1110111011" => manhi <= conv_std_logic_vector(15286,24); manlo <= conv_std_logic_vector(257781640,28); WHEN "1110111100" => manhi <= conv_std_logic_vector(15302,24); manlo <= conv_std_logic_vector(261697152,28); WHEN "1110111101" => manhi <= conv_std_logic_vector(15318,24); manlo <= conv_std_logic_vector(265616763,28); WHEN "1110111110" => manhi <= conv_std_logic_vector(15335,24); manlo <= conv_std_logic_vector(1105018,28); WHEN "1110111111" => manhi <= conv_std_logic_vector(15351,24); manlo <= conv_std_logic_vector(5032829,28); WHEN "1111000000" => manhi <= conv_std_logic_vector(15367,24); manlo <= conv_std_logic_vector(8964740,28); WHEN "1111000001" => manhi <= conv_std_logic_vector(15383,24); manlo <= conv_std_logic_vector(12900750,28); WHEN "1111000010" => manhi <= conv_std_logic_vector(15399,24); manlo <= conv_std_logic_vector(16840860,28); WHEN "1111000011" => manhi <= conv_std_logic_vector(15415,24); manlo <= conv_std_logic_vector(20785070,28); WHEN "1111000100" => manhi <= conv_std_logic_vector(15431,24); manlo <= conv_std_logic_vector(24733380,28); WHEN "1111000101" => manhi <= conv_std_logic_vector(15447,24); manlo <= conv_std_logic_vector(28685790,28); WHEN "1111000110" => manhi <= conv_std_logic_vector(15463,24); manlo <= conv_std_logic_vector(32642299,28); WHEN "1111000111" => manhi <= conv_std_logic_vector(15479,24); manlo <= conv_std_logic_vector(36602908,28); WHEN "1111001000" => manhi <= conv_std_logic_vector(15495,24); manlo <= conv_std_logic_vector(40567617,28); WHEN "1111001001" => manhi <= conv_std_logic_vector(15511,24); manlo <= conv_std_logic_vector(44536425,28); WHEN "1111001010" => manhi <= conv_std_logic_vector(15527,24); manlo <= conv_std_logic_vector(48509334,28); WHEN "1111001011" => manhi <= conv_std_logic_vector(15543,24); manlo <= conv_std_logic_vector(52486342,28); WHEN "1111001100" => manhi <= conv_std_logic_vector(15559,24); manlo <= conv_std_logic_vector(56467450,28); WHEN "1111001101" => manhi <= conv_std_logic_vector(15575,24); manlo <= conv_std_logic_vector(60452657,28); WHEN "1111001110" => manhi <= conv_std_logic_vector(15591,24); manlo <= conv_std_logic_vector(64441965,28); WHEN "1111001111" => manhi <= conv_std_logic_vector(15607,24); manlo <= conv_std_logic_vector(68435372,28); WHEN "1111010000" => manhi <= conv_std_logic_vector(15623,24); manlo <= conv_std_logic_vector(72432880,28); WHEN "1111010001" => manhi <= conv_std_logic_vector(15639,24); manlo <= conv_std_logic_vector(76434487,28); WHEN "1111010010" => manhi <= conv_std_logic_vector(15655,24); manlo <= conv_std_logic_vector(80440193,28); WHEN "1111010011" => manhi <= conv_std_logic_vector(15671,24); manlo <= conv_std_logic_vector(84450000,28); WHEN "1111010100" => manhi <= conv_std_logic_vector(15687,24); manlo <= conv_std_logic_vector(88463906,28); WHEN "1111010101" => manhi <= conv_std_logic_vector(15703,24); manlo <= conv_std_logic_vector(92481913,28); WHEN "1111010110" => manhi <= conv_std_logic_vector(15719,24); manlo <= conv_std_logic_vector(96504019,28); WHEN "1111010111" => manhi <= conv_std_logic_vector(15735,24); manlo <= conv_std_logic_vector(100530225,28); WHEN "1111011000" => manhi <= conv_std_logic_vector(15751,24); manlo <= conv_std_logic_vector(104560531,28); WHEN "1111011001" => manhi <= conv_std_logic_vector(15767,24); manlo <= conv_std_logic_vector(108594936,28); WHEN "1111011010" => manhi <= conv_std_logic_vector(15783,24); manlo <= conv_std_logic_vector(112633442,28); WHEN "1111011011" => manhi <= conv_std_logic_vector(15799,24); manlo <= conv_std_logic_vector(116676047,28); WHEN "1111011100" => manhi <= conv_std_logic_vector(15815,24); manlo <= conv_std_logic_vector(120722752,28); WHEN "1111011101" => manhi <= conv_std_logic_vector(15831,24); manlo <= conv_std_logic_vector(124773557,28); WHEN "1111011110" => manhi <= conv_std_logic_vector(15847,24); manlo <= conv_std_logic_vector(128828462,28); WHEN "1111011111" => manhi <= conv_std_logic_vector(15863,24); manlo <= conv_std_logic_vector(132887467,28); WHEN "1111100000" => manhi <= conv_std_logic_vector(15879,24); manlo <= conv_std_logic_vector(136950572,28); WHEN "1111100001" => manhi <= conv_std_logic_vector(15895,24); manlo <= conv_std_logic_vector(141017776,28); WHEN "1111100010" => manhi <= conv_std_logic_vector(15911,24); manlo <= conv_std_logic_vector(145089081,28); WHEN "1111100011" => manhi <= conv_std_logic_vector(15927,24); manlo <= conv_std_logic_vector(149164485,28); WHEN "1111100100" => manhi <= conv_std_logic_vector(15943,24); manlo <= conv_std_logic_vector(153243989,28); WHEN "1111100101" => manhi <= conv_std_logic_vector(15959,24); manlo <= conv_std_logic_vector(157327593,28); WHEN "1111100110" => manhi <= conv_std_logic_vector(15975,24); manlo <= conv_std_logic_vector(161415297,28); WHEN "1111100111" => manhi <= conv_std_logic_vector(15991,24); manlo <= conv_std_logic_vector(165507101,28); WHEN "1111101000" => manhi <= conv_std_logic_vector(16007,24); manlo <= conv_std_logic_vector(169603005,28); WHEN "1111101001" => manhi <= conv_std_logic_vector(16023,24); manlo <= conv_std_logic_vector(173703009,28); WHEN "1111101010" => manhi <= conv_std_logic_vector(16039,24); manlo <= conv_std_logic_vector(177807112,28); WHEN "1111101011" => manhi <= conv_std_logic_vector(16055,24); manlo <= conv_std_logic_vector(181915316,28); WHEN "1111101100" => manhi <= conv_std_logic_vector(16071,24); manlo <= conv_std_logic_vector(186027619,28); WHEN "1111101101" => manhi <= conv_std_logic_vector(16087,24); manlo <= conv_std_logic_vector(190144023,28); WHEN "1111101110" => manhi <= conv_std_logic_vector(16103,24); manlo <= conv_std_logic_vector(194264526,28); WHEN "1111101111" => manhi <= conv_std_logic_vector(16119,24); manlo <= conv_std_logic_vector(198389129,28); WHEN "1111110000" => manhi <= conv_std_logic_vector(16135,24); manlo <= conv_std_logic_vector(202517832,28); WHEN "1111110001" => manhi <= conv_std_logic_vector(16151,24); manlo <= conv_std_logic_vector(206650635,28); WHEN "1111110010" => manhi <= conv_std_logic_vector(16167,24); manlo <= conv_std_logic_vector(210787538,28); WHEN "1111110011" => manhi <= conv_std_logic_vector(16183,24); manlo <= conv_std_logic_vector(214928541,28); WHEN "1111110100" => manhi <= conv_std_logic_vector(16199,24); manlo <= conv_std_logic_vector(219073644,28); WHEN "1111110101" => manhi <= conv_std_logic_vector(16215,24); manlo <= conv_std_logic_vector(223222847,28); WHEN "1111110110" => manhi <= conv_std_logic_vector(16231,24); manlo <= conv_std_logic_vector(227376150,28); WHEN "1111110111" => manhi <= conv_std_logic_vector(16247,24); manlo <= conv_std_logic_vector(231533553,28); WHEN "1111111000" => manhi <= conv_std_logic_vector(16263,24); manlo <= conv_std_logic_vector(235695056,28); WHEN "1111111001" => manhi <= conv_std_logic_vector(16279,24); manlo <= conv_std_logic_vector(239860659,28); WHEN "1111111010" => manhi <= conv_std_logic_vector(16295,24); manlo <= conv_std_logic_vector(244030361,28); WHEN "1111111011" => manhi <= conv_std_logic_vector(16311,24); manlo <= conv_std_logic_vector(248204164,28); WHEN "1111111100" => manhi <= conv_std_logic_vector(16327,24); manlo <= conv_std_logic_vector(252382067,28); WHEN "1111111101" => manhi <= conv_std_logic_vector(16343,24); manlo <= conv_std_logic_vector(256564069,28); WHEN "1111111110" => manhi <= conv_std_logic_vector(16359,24); manlo <= conv_std_logic_vector(260750172,28); WHEN "1111111111" => manhi <= conv_std_logic_vector(16375,24); manlo <= conv_std_logic_vector(264940375,28); WHEN others => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); END CASE; END PROCESS; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** DP_EXPLUT20.VHD *** --*** *** --*** Function: Look Up Table - EXP() *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 18/02/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY dp_explut20 IS PORT ( add : IN STD_LOGIC_VECTOR (10 DOWNTO 1); manhi : OUT STD_LOGIC_VECTOR (24 DOWNTO 1); manlo : OUT STD_LOGIC_VECTOR (28 DOWNTO 1) ); END dp_explut20; ARCHITECTURE rtl OF dp_explut20 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "0000000000" => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); WHEN "0000000001" => manhi <= conv_std_logic_vector(16,24); manlo <= conv_std_logic_vector(2048,28); WHEN "0000000010" => manhi <= conv_std_logic_vector(32,24); manlo <= conv_std_logic_vector(8192,28); WHEN "0000000011" => manhi <= conv_std_logic_vector(48,24); manlo <= conv_std_logic_vector(18432,28); WHEN "0000000100" => manhi <= conv_std_logic_vector(64,24); manlo <= conv_std_logic_vector(32768,28); WHEN "0000000101" => manhi <= conv_std_logic_vector(80,24); manlo <= conv_std_logic_vector(51200,28); WHEN "0000000110" => manhi <= conv_std_logic_vector(96,24); manlo <= conv_std_logic_vector(73728,28); WHEN "0000000111" => manhi <= conv_std_logic_vector(112,24); manlo <= conv_std_logic_vector(100352,28); WHEN "0000001000" => manhi <= conv_std_logic_vector(128,24); manlo <= conv_std_logic_vector(131072,28); WHEN "0000001001" => manhi <= conv_std_logic_vector(144,24); manlo <= conv_std_logic_vector(165888,28); WHEN "0000001010" => manhi <= conv_std_logic_vector(160,24); manlo <= conv_std_logic_vector(204801,28); WHEN "0000001011" => manhi <= conv_std_logic_vector(176,24); manlo <= conv_std_logic_vector(247809,28); WHEN "0000001100" => manhi <= conv_std_logic_vector(192,24); manlo <= conv_std_logic_vector(294913,28); WHEN "0000001101" => manhi <= conv_std_logic_vector(208,24); manlo <= conv_std_logic_vector(346113,28); WHEN "0000001110" => manhi <= conv_std_logic_vector(224,24); manlo <= conv_std_logic_vector(401410,28); WHEN "0000001111" => manhi <= conv_std_logic_vector(240,24); manlo <= conv_std_logic_vector(460802,28); WHEN "0000010000" => manhi <= conv_std_logic_vector(256,24); manlo <= conv_std_logic_vector(524291,28); WHEN "0000010001" => manhi <= conv_std_logic_vector(272,24); manlo <= conv_std_logic_vector(591875,28); WHEN "0000010010" => manhi <= conv_std_logic_vector(288,24); manlo <= conv_std_logic_vector(663556,28); WHEN "0000010011" => manhi <= conv_std_logic_vector(304,24); manlo <= conv_std_logic_vector(739332,28); WHEN "0000010100" => manhi <= conv_std_logic_vector(320,24); manlo <= conv_std_logic_vector(819205,28); WHEN "0000010101" => manhi <= conv_std_logic_vector(336,24); manlo <= conv_std_logic_vector(903174,28); WHEN "0000010110" => manhi <= conv_std_logic_vector(352,24); manlo <= conv_std_logic_vector(991239,28); WHEN "0000010111" => manhi <= conv_std_logic_vector(368,24); manlo <= conv_std_logic_vector(1083400,28); WHEN "0000011000" => manhi <= conv_std_logic_vector(384,24); manlo <= conv_std_logic_vector(1179657,28); WHEN "0000011001" => manhi <= conv_std_logic_vector(400,24); manlo <= conv_std_logic_vector(1280010,28); WHEN "0000011010" => manhi <= conv_std_logic_vector(416,24); manlo <= conv_std_logic_vector(1384459,28); WHEN "0000011011" => manhi <= conv_std_logic_vector(432,24); manlo <= conv_std_logic_vector(1493005,28); WHEN "0000011100" => manhi <= conv_std_logic_vector(448,24); manlo <= conv_std_logic_vector(1605646,28); WHEN "0000011101" => manhi <= conv_std_logic_vector(464,24); manlo <= conv_std_logic_vector(1722384,28); WHEN "0000011110" => manhi <= conv_std_logic_vector(480,24); manlo <= conv_std_logic_vector(1843218,28); WHEN "0000011111" => manhi <= conv_std_logic_vector(496,24); manlo <= conv_std_logic_vector(1968147,28); WHEN "0000100000" => manhi <= conv_std_logic_vector(512,24); manlo <= conv_std_logic_vector(2097173,28); WHEN "0000100001" => manhi <= conv_std_logic_vector(528,24); manlo <= conv_std_logic_vector(2230295,28); WHEN "0000100010" => manhi <= conv_std_logic_vector(544,24); manlo <= conv_std_logic_vector(2367514,28); WHEN "0000100011" => manhi <= conv_std_logic_vector(560,24); manlo <= conv_std_logic_vector(2508828,28); WHEN "0000100100" => manhi <= conv_std_logic_vector(576,24); manlo <= conv_std_logic_vector(2654238,28); WHEN "0000100101" => manhi <= conv_std_logic_vector(592,24); manlo <= conv_std_logic_vector(2803745,28); WHEN "0000100110" => manhi <= conv_std_logic_vector(608,24); manlo <= conv_std_logic_vector(2957348,28); WHEN "0000100111" => manhi <= conv_std_logic_vector(624,24); manlo <= conv_std_logic_vector(3115047,28); WHEN "0000101000" => manhi <= conv_std_logic_vector(640,24); manlo <= conv_std_logic_vector(3276842,28); WHEN "0000101001" => manhi <= conv_std_logic_vector(656,24); manlo <= conv_std_logic_vector(3442733,28); WHEN "0000101010" => manhi <= conv_std_logic_vector(672,24); manlo <= conv_std_logic_vector(3612720,28); WHEN "0000101011" => manhi <= conv_std_logic_vector(688,24); manlo <= conv_std_logic_vector(3786804,28); WHEN "0000101100" => manhi <= conv_std_logic_vector(704,24); manlo <= conv_std_logic_vector(3964983,28); WHEN "0000101101" => manhi <= conv_std_logic_vector(720,24); manlo <= conv_std_logic_vector(4147259,28); WHEN "0000101110" => manhi <= conv_std_logic_vector(736,24); manlo <= conv_std_logic_vector(4333631,28); WHEN "0000101111" => manhi <= conv_std_logic_vector(752,24); manlo <= conv_std_logic_vector(4524100,28); WHEN "0000110000" => manhi <= conv_std_logic_vector(768,24); manlo <= conv_std_logic_vector(4718664,28); WHEN "0000110001" => manhi <= conv_std_logic_vector(784,24); manlo <= conv_std_logic_vector(4917325,28); WHEN "0000110010" => manhi <= conv_std_logic_vector(800,24); manlo <= conv_std_logic_vector(5120081,28); WHEN "0000110011" => manhi <= conv_std_logic_vector(816,24); manlo <= conv_std_logic_vector(5326934,28); WHEN "0000110100" => manhi <= conv_std_logic_vector(832,24); manlo <= conv_std_logic_vector(5537884,28); WHEN "0000110101" => manhi <= conv_std_logic_vector(848,24); manlo <= conv_std_logic_vector(5752929,28); WHEN "0000110110" => manhi <= conv_std_logic_vector(864,24); manlo <= conv_std_logic_vector(5972071,28); WHEN "0000110111" => manhi <= conv_std_logic_vector(880,24); manlo <= conv_std_logic_vector(6195308,28); WHEN "0000111000" => manhi <= conv_std_logic_vector(896,24); manlo <= conv_std_logic_vector(6422642,28); WHEN "0000111001" => manhi <= conv_std_logic_vector(912,24); manlo <= conv_std_logic_vector(6654073,28); WHEN "0000111010" => manhi <= conv_std_logic_vector(928,24); manlo <= conv_std_logic_vector(6889599,28); WHEN "0000111011" => manhi <= conv_std_logic_vector(944,24); manlo <= conv_std_logic_vector(7129222,28); WHEN "0000111100" => manhi <= conv_std_logic_vector(960,24); manlo <= conv_std_logic_vector(7372941,28); WHEN "0000111101" => manhi <= conv_std_logic_vector(976,24); manlo <= conv_std_logic_vector(7620756,28); WHEN "0000111110" => manhi <= conv_std_logic_vector(992,24); manlo <= conv_std_logic_vector(7872667,28); WHEN "0000111111" => manhi <= conv_std_logic_vector(1008,24); manlo <= conv_std_logic_vector(8128675,28); WHEN "0001000000" => manhi <= conv_std_logic_vector(1024,24); manlo <= conv_std_logic_vector(8388779,28); WHEN "0001000001" => manhi <= conv_std_logic_vector(1040,24); manlo <= conv_std_logic_vector(8652979,28); WHEN "0001000010" => manhi <= conv_std_logic_vector(1056,24); manlo <= conv_std_logic_vector(8921275,28); WHEN "0001000011" => manhi <= conv_std_logic_vector(1072,24); manlo <= conv_std_logic_vector(9193668,28); WHEN "0001000100" => manhi <= conv_std_logic_vector(1088,24); manlo <= conv_std_logic_vector(9470157,28); WHEN "0001000101" => manhi <= conv_std_logic_vector(1104,24); manlo <= conv_std_logic_vector(9750742,28); WHEN "0001000110" => manhi <= conv_std_logic_vector(1120,24); manlo <= conv_std_logic_vector(10035423,28); WHEN "0001000111" => manhi <= conv_std_logic_vector(1136,24); manlo <= conv_std_logic_vector(10324201,28); WHEN "0001001000" => manhi <= conv_std_logic_vector(1152,24); manlo <= conv_std_logic_vector(10617075,28); WHEN "0001001001" => manhi <= conv_std_logic_vector(1168,24); manlo <= conv_std_logic_vector(10914045,28); WHEN "0001001010" => manhi <= conv_std_logic_vector(1184,24); manlo <= conv_std_logic_vector(11215112,28); WHEN "0001001011" => manhi <= conv_std_logic_vector(1200,24); manlo <= conv_std_logic_vector(11520275,28); WHEN "0001001100" => manhi <= conv_std_logic_vector(1216,24); manlo <= conv_std_logic_vector(11829534,28); WHEN "0001001101" => manhi <= conv_std_logic_vector(1232,24); manlo <= conv_std_logic_vector(12142889,28); WHEN "0001001110" => manhi <= conv_std_logic_vector(1248,24); manlo <= conv_std_logic_vector(12460341,28); WHEN "0001001111" => manhi <= conv_std_logic_vector(1264,24); manlo <= conv_std_logic_vector(12781889,28); WHEN "0001010000" => manhi <= conv_std_logic_vector(1280,24); manlo <= conv_std_logic_vector(13107533,28); WHEN "0001010001" => manhi <= conv_std_logic_vector(1296,24); manlo <= conv_std_logic_vector(13437274,28); WHEN "0001010010" => manhi <= conv_std_logic_vector(1312,24); manlo <= conv_std_logic_vector(13771111,28); WHEN "0001010011" => manhi <= conv_std_logic_vector(1328,24); manlo <= conv_std_logic_vector(14109044,28); WHEN "0001010100" => manhi <= conv_std_logic_vector(1344,24); manlo <= conv_std_logic_vector(14451074,28); WHEN "0001010101" => manhi <= conv_std_logic_vector(1360,24); manlo <= conv_std_logic_vector(14797200,28); WHEN "0001010110" => manhi <= conv_std_logic_vector(1376,24); manlo <= conv_std_logic_vector(15147422,28); WHEN "0001010111" => manhi <= conv_std_logic_vector(1392,24); manlo <= conv_std_logic_vector(15501741,28); WHEN "0001011000" => manhi <= conv_std_logic_vector(1408,24); manlo <= conv_std_logic_vector(15860156,28); WHEN "0001011001" => manhi <= conv_std_logic_vector(1424,24); manlo <= conv_std_logic_vector(16222667,28); WHEN "0001011010" => manhi <= conv_std_logic_vector(1440,24); manlo <= conv_std_logic_vector(16589275,28); WHEN "0001011011" => manhi <= conv_std_logic_vector(1456,24); manlo <= conv_std_logic_vector(16959979,28); WHEN "0001011100" => manhi <= conv_std_logic_vector(1472,24); manlo <= conv_std_logic_vector(17334779,28); WHEN "0001011101" => manhi <= conv_std_logic_vector(1488,24); manlo <= conv_std_logic_vector(17713676,28); WHEN "0001011110" => manhi <= conv_std_logic_vector(1504,24); manlo <= conv_std_logic_vector(18096669,28); WHEN "0001011111" => manhi <= conv_std_logic_vector(1520,24); manlo <= conv_std_logic_vector(18483758,28); WHEN "0001100000" => manhi <= conv_std_logic_vector(1536,24); manlo <= conv_std_logic_vector(18874944,28); WHEN "0001100001" => manhi <= conv_std_logic_vector(1552,24); manlo <= conv_std_logic_vector(19270226,28); WHEN "0001100010" => manhi <= conv_std_logic_vector(1568,24); manlo <= conv_std_logic_vector(19669605,28); WHEN "0001100011" => manhi <= conv_std_logic_vector(1584,24); manlo <= conv_std_logic_vector(20073080,28); WHEN "0001100100" => manhi <= conv_std_logic_vector(1600,24); manlo <= conv_std_logic_vector(20480651,28); WHEN "0001100101" => manhi <= conv_std_logic_vector(1616,24); manlo <= conv_std_logic_vector(20892319,28); WHEN "0001100110" => manhi <= conv_std_logic_vector(1632,24); manlo <= conv_std_logic_vector(21308083,28); WHEN "0001100111" => manhi <= conv_std_logic_vector(1648,24); manlo <= conv_std_logic_vector(21727943,28); WHEN "0001101000" => manhi <= conv_std_logic_vector(1664,24); manlo <= conv_std_logic_vector(22151900,28); WHEN "0001101001" => manhi <= conv_std_logic_vector(1680,24); manlo <= conv_std_logic_vector(22579954,28); WHEN "0001101010" => manhi <= conv_std_logic_vector(1696,24); manlo <= conv_std_logic_vector(23012103,28); WHEN "0001101011" => manhi <= conv_std_logic_vector(1712,24); manlo <= conv_std_logic_vector(23448350,28); WHEN "0001101100" => manhi <= conv_std_logic_vector(1728,24); manlo <= conv_std_logic_vector(23888692,28); WHEN "0001101101" => manhi <= conv_std_logic_vector(1744,24); manlo <= conv_std_logic_vector(24333131,28); WHEN "0001101110" => manhi <= conv_std_logic_vector(1760,24); manlo <= conv_std_logic_vector(24781667,28); WHEN "0001101111" => manhi <= conv_std_logic_vector(1776,24); manlo <= conv_std_logic_vector(25234298,28); WHEN "0001110000" => manhi <= conv_std_logic_vector(1792,24); manlo <= conv_std_logic_vector(25691027,28); WHEN "0001110001" => manhi <= conv_std_logic_vector(1808,24); manlo <= conv_std_logic_vector(26151851,28); WHEN "0001110010" => manhi <= conv_std_logic_vector(1824,24); manlo <= conv_std_logic_vector(26616773,28); WHEN "0001110011" => manhi <= conv_std_logic_vector(1840,24); manlo <= conv_std_logic_vector(27085790,28); WHEN "0001110100" => manhi <= conv_std_logic_vector(1856,24); manlo <= conv_std_logic_vector(27558904,28); WHEN "0001110101" => manhi <= conv_std_logic_vector(1872,24); manlo <= conv_std_logic_vector(28036115,28); WHEN "0001110110" => manhi <= conv_std_logic_vector(1888,24); manlo <= conv_std_logic_vector(28517422,28); WHEN "0001110111" => manhi <= conv_std_logic_vector(1904,24); manlo <= conv_std_logic_vector(29002825,28); WHEN "0001111000" => manhi <= conv_std_logic_vector(1920,24); manlo <= conv_std_logic_vector(29492325,28); WHEN "0001111001" => manhi <= conv_std_logic_vector(1936,24); manlo <= conv_std_logic_vector(29985921,28); WHEN "0001111010" => manhi <= conv_std_logic_vector(1952,24); manlo <= conv_std_logic_vector(30483614,28); WHEN "0001111011" => manhi <= conv_std_logic_vector(1968,24); manlo <= conv_std_logic_vector(30985404,28); WHEN "0001111100" => manhi <= conv_std_logic_vector(1984,24); manlo <= conv_std_logic_vector(31491289,28); WHEN "0001111101" => manhi <= conv_std_logic_vector(2000,24); manlo <= conv_std_logic_vector(32001272,28); WHEN "0001111110" => manhi <= conv_std_logic_vector(2016,24); manlo <= conv_std_logic_vector(32515350,28); WHEN "0001111111" => manhi <= conv_std_logic_vector(2032,24); manlo <= conv_std_logic_vector(33033526,28); WHEN "0010000000" => manhi <= conv_std_logic_vector(2048,24); manlo <= conv_std_logic_vector(33555797,28); WHEN "0010000001" => manhi <= conv_std_logic_vector(2064,24); manlo <= conv_std_logic_vector(34082166,28); WHEN "0010000010" => manhi <= conv_std_logic_vector(2080,24); manlo <= conv_std_logic_vector(34612630,28); WHEN "0010000011" => manhi <= conv_std_logic_vector(2096,24); manlo <= conv_std_logic_vector(35147192,28); WHEN "0010000100" => manhi <= conv_std_logic_vector(2112,24); manlo <= conv_std_logic_vector(35685849,28); WHEN "0010000101" => manhi <= conv_std_logic_vector(2128,24); manlo <= conv_std_logic_vector(36228604,28); WHEN "0010000110" => manhi <= conv_std_logic_vector(2144,24); manlo <= conv_std_logic_vector(36775455,28); WHEN "0010000111" => manhi <= conv_std_logic_vector(2160,24); manlo <= conv_std_logic_vector(37326402,28); WHEN "0010001000" => manhi <= conv_std_logic_vector(2176,24); manlo <= conv_std_logic_vector(37881446,28); WHEN "0010001001" => manhi <= conv_std_logic_vector(2192,24); manlo <= conv_std_logic_vector(38440586,28); WHEN "0010001010" => manhi <= conv_std_logic_vector(2208,24); manlo <= conv_std_logic_vector(39003823,28); WHEN "0010001011" => manhi <= conv_std_logic_vector(2224,24); manlo <= conv_std_logic_vector(39571157,28); WHEN "0010001100" => manhi <= conv_std_logic_vector(2240,24); manlo <= conv_std_logic_vector(40142587,28); WHEN "0010001101" => manhi <= conv_std_logic_vector(2256,24); manlo <= conv_std_logic_vector(40718113,28); WHEN "0010001110" => manhi <= conv_std_logic_vector(2272,24); manlo <= conv_std_logic_vector(41297736,28); WHEN "0010001111" => manhi <= conv_std_logic_vector(2288,24); manlo <= conv_std_logic_vector(41881456,28); WHEN "0010010000" => manhi <= conv_std_logic_vector(2304,24); manlo <= conv_std_logic_vector(42469272,28); WHEN "0010010001" => manhi <= conv_std_logic_vector(2320,24); manlo <= conv_std_logic_vector(43061185,28); WHEN "0010010010" => manhi <= conv_std_logic_vector(2336,24); manlo <= conv_std_logic_vector(43657194,28); WHEN "0010010011" => manhi <= conv_std_logic_vector(2352,24); manlo <= conv_std_logic_vector(44257300,28); WHEN "0010010100" => manhi <= conv_std_logic_vector(2368,24); manlo <= conv_std_logic_vector(44861503,28); WHEN "0010010101" => manhi <= conv_std_logic_vector(2384,24); manlo <= conv_std_logic_vector(45469802,28); WHEN "0010010110" => manhi <= conv_std_logic_vector(2400,24); manlo <= conv_std_logic_vector(46082197,28); WHEN "0010010111" => manhi <= conv_std_logic_vector(2416,24); manlo <= conv_std_logic_vector(46698690,28); WHEN "0010011000" => manhi <= conv_std_logic_vector(2432,24); manlo <= conv_std_logic_vector(47319278,28); WHEN "0010011001" => manhi <= conv_std_logic_vector(2448,24); manlo <= conv_std_logic_vector(47943964,28); WHEN "0010011010" => manhi <= conv_std_logic_vector(2464,24); manlo <= conv_std_logic_vector(48572746,28); WHEN "0010011011" => manhi <= conv_std_logic_vector(2480,24); manlo <= conv_std_logic_vector(49205624,28); WHEN "0010011100" => manhi <= conv_std_logic_vector(2496,24); manlo <= conv_std_logic_vector(49842600,28); WHEN "0010011101" => manhi <= conv_std_logic_vector(2512,24); manlo <= conv_std_logic_vector(50483672,28); WHEN "0010011110" => manhi <= conv_std_logic_vector(2528,24); manlo <= conv_std_logic_vector(51128840,28); WHEN "0010011111" => manhi <= conv_std_logic_vector(2544,24); manlo <= conv_std_logic_vector(51778105,28); WHEN "0010100000" => manhi <= conv_std_logic_vector(2560,24); manlo <= conv_std_logic_vector(52431467,28); WHEN "0010100001" => manhi <= conv_std_logic_vector(2576,24); manlo <= conv_std_logic_vector(53088925,28); WHEN "0010100010" => manhi <= conv_std_logic_vector(2592,24); manlo <= conv_std_logic_vector(53750480,28); WHEN "0010100011" => manhi <= conv_std_logic_vector(2608,24); manlo <= conv_std_logic_vector(54416132,28); WHEN "0010100100" => manhi <= conv_std_logic_vector(2624,24); manlo <= conv_std_logic_vector(55085880,28); WHEN "0010100101" => manhi <= conv_std_logic_vector(2640,24); manlo <= conv_std_logic_vector(55759725,28); WHEN "0010100110" => manhi <= conv_std_logic_vector(2656,24); manlo <= conv_std_logic_vector(56437666,28); WHEN "0010100111" => manhi <= conv_std_logic_vector(2672,24); manlo <= conv_std_logic_vector(57119704,28); WHEN "0010101000" => manhi <= conv_std_logic_vector(2688,24); manlo <= conv_std_logic_vector(57805839,28); WHEN "0010101001" => manhi <= conv_std_logic_vector(2704,24); manlo <= conv_std_logic_vector(58496071,28); WHEN "0010101010" => manhi <= conv_std_logic_vector(2720,24); manlo <= conv_std_logic_vector(59190399,28); WHEN "0010101011" => manhi <= conv_std_logic_vector(2736,24); manlo <= conv_std_logic_vector(59888823,28); WHEN "0010101100" => manhi <= conv_std_logic_vector(2752,24); manlo <= conv_std_logic_vector(60591345,28); WHEN "0010101101" => manhi <= conv_std_logic_vector(2768,24); manlo <= conv_std_logic_vector(61297963,28); WHEN "0010101110" => manhi <= conv_std_logic_vector(2784,24); manlo <= conv_std_logic_vector(62008678,28); WHEN "0010101111" => manhi <= conv_std_logic_vector(2800,24); manlo <= conv_std_logic_vector(62723489,28); WHEN "0010110000" => manhi <= conv_std_logic_vector(2816,24); manlo <= conv_std_logic_vector(63442397,28); WHEN "0010110001" => manhi <= conv_std_logic_vector(2832,24); manlo <= conv_std_logic_vector(64165402,28); WHEN "0010110010" => manhi <= conv_std_logic_vector(2848,24); manlo <= conv_std_logic_vector(64892504,28); WHEN "0010110011" => manhi <= conv_std_logic_vector(2864,24); manlo <= conv_std_logic_vector(65623702,28); WHEN "0010110100" => manhi <= conv_std_logic_vector(2880,24); manlo <= conv_std_logic_vector(66358997,28); WHEN "0010110101" => manhi <= conv_std_logic_vector(2896,24); manlo <= conv_std_logic_vector(67098389,28); WHEN "0010110110" => manhi <= conv_std_logic_vector(2912,24); manlo <= conv_std_logic_vector(67841877,28); WHEN "0010110111" => manhi <= conv_std_logic_vector(2928,24); manlo <= conv_std_logic_vector(68589462,28); WHEN "0010111000" => manhi <= conv_std_logic_vector(2944,24); manlo <= conv_std_logic_vector(69341144,28); WHEN "0010111001" => manhi <= conv_std_logic_vector(2960,24); manlo <= conv_std_logic_vector(70096922,28); WHEN "0010111010" => manhi <= conv_std_logic_vector(2976,24); manlo <= conv_std_logic_vector(70856798,28); WHEN "0010111011" => manhi <= conv_std_logic_vector(2992,24); manlo <= conv_std_logic_vector(71620769,28); WHEN "0010111100" => manhi <= conv_std_logic_vector(3008,24); manlo <= conv_std_logic_vector(72388838,28); WHEN "0010111101" => manhi <= conv_std_logic_vector(3024,24); manlo <= conv_std_logic_vector(73161004,28); WHEN "0010111110" => manhi <= conv_std_logic_vector(3040,24); manlo <= conv_std_logic_vector(73937266,28); WHEN "0010111111" => manhi <= conv_std_logic_vector(3056,24); manlo <= conv_std_logic_vector(74717625,28); WHEN "0011000000" => manhi <= conv_std_logic_vector(3072,24); manlo <= conv_std_logic_vector(75502080,28); WHEN "0011000001" => manhi <= conv_std_logic_vector(3088,24); manlo <= conv_std_logic_vector(76290633,28); WHEN "0011000010" => manhi <= conv_std_logic_vector(3104,24); manlo <= conv_std_logic_vector(77083282,28); WHEN "0011000011" => manhi <= conv_std_logic_vector(3120,24); manlo <= conv_std_logic_vector(77880028,28); WHEN "0011000100" => manhi <= conv_std_logic_vector(3136,24); manlo <= conv_std_logic_vector(78680870,28); WHEN "0011000101" => manhi <= conv_std_logic_vector(3152,24); manlo <= conv_std_logic_vector(79485810,28); WHEN "0011000110" => manhi <= conv_std_logic_vector(3168,24); manlo <= conv_std_logic_vector(80294846,28); WHEN "0011000111" => manhi <= conv_std_logic_vector(3184,24); manlo <= conv_std_logic_vector(81107979,28); WHEN "0011001000" => manhi <= conv_std_logic_vector(3200,24); manlo <= conv_std_logic_vector(81925209,28); WHEN "0011001001" => manhi <= conv_std_logic_vector(3216,24); manlo <= conv_std_logic_vector(82746535,28); WHEN "0011001010" => manhi <= conv_std_logic_vector(3232,24); manlo <= conv_std_logic_vector(83571958,28); WHEN "0011001011" => manhi <= conv_std_logic_vector(3248,24); manlo <= conv_std_logic_vector(84401479,28); WHEN "0011001100" => manhi <= conv_std_logic_vector(3264,24); manlo <= conv_std_logic_vector(85235095,28); WHEN "0011001101" => manhi <= conv_std_logic_vector(3280,24); manlo <= conv_std_logic_vector(86072809,28); WHEN "0011001110" => manhi <= conv_std_logic_vector(3296,24); manlo <= conv_std_logic_vector(86914620,28); WHEN "0011001111" => manhi <= conv_std_logic_vector(3312,24); manlo <= conv_std_logic_vector(87760527,28); WHEN "0011010000" => manhi <= conv_std_logic_vector(3328,24); manlo <= conv_std_logic_vector(88610531,28); WHEN "0011010001" => manhi <= conv_std_logic_vector(3344,24); manlo <= conv_std_logic_vector(89464632,28); WHEN "0011010010" => manhi <= conv_std_logic_vector(3360,24); manlo <= conv_std_logic_vector(90322830,28); WHEN "0011010011" => manhi <= conv_std_logic_vector(3376,24); manlo <= conv_std_logic_vector(91185124,28); WHEN "0011010100" => manhi <= conv_std_logic_vector(3392,24); manlo <= conv_std_logic_vector(92051516,28); WHEN "0011010101" => manhi <= conv_std_logic_vector(3408,24); manlo <= conv_std_logic_vector(92922004,28); WHEN "0011010110" => manhi <= conv_std_logic_vector(3424,24); manlo <= conv_std_logic_vector(93796589,28); WHEN "0011010111" => manhi <= conv_std_logic_vector(3440,24); manlo <= conv_std_logic_vector(94675271,28); WHEN "0011011000" => manhi <= conv_std_logic_vector(3456,24); manlo <= conv_std_logic_vector(95558049,28); WHEN "0011011001" => manhi <= conv_std_logic_vector(3472,24); manlo <= conv_std_logic_vector(96444925,28); WHEN "0011011010" => manhi <= conv_std_logic_vector(3488,24); manlo <= conv_std_logic_vector(97335897,28); WHEN "0011011011" => manhi <= conv_std_logic_vector(3504,24); manlo <= conv_std_logic_vector(98230967,28); WHEN "0011011100" => manhi <= conv_std_logic_vector(3520,24); manlo <= conv_std_logic_vector(99130133,28); WHEN "0011011101" => manhi <= conv_std_logic_vector(3536,24); manlo <= conv_std_logic_vector(100033396,28); WHEN "0011011110" => manhi <= conv_std_logic_vector(3552,24); manlo <= conv_std_logic_vector(100940755,28); WHEN "0011011111" => manhi <= conv_std_logic_vector(3568,24); manlo <= conv_std_logic_vector(101852212,28); WHEN "0011100000" => manhi <= conv_std_logic_vector(3584,24); manlo <= conv_std_logic_vector(102767766,28); WHEN "0011100001" => manhi <= conv_std_logic_vector(3600,24); manlo <= conv_std_logic_vector(103687416,28); WHEN "0011100010" => manhi <= conv_std_logic_vector(3616,24); manlo <= conv_std_logic_vector(104611163,28); WHEN "0011100011" => manhi <= conv_std_logic_vector(3632,24); manlo <= conv_std_logic_vector(105539008,28); WHEN "0011100100" => manhi <= conv_std_logic_vector(3648,24); manlo <= conv_std_logic_vector(106470949,28); WHEN "0011100101" => manhi <= conv_std_logic_vector(3664,24); manlo <= conv_std_logic_vector(107406987,28); WHEN "0011100110" => manhi <= conv_std_logic_vector(3680,24); manlo <= conv_std_logic_vector(108347122,28); WHEN "0011100111" => manhi <= conv_std_logic_vector(3696,24); manlo <= conv_std_logic_vector(109291353,28); WHEN "0011101000" => manhi <= conv_std_logic_vector(3712,24); manlo <= conv_std_logic_vector(110239682,28); WHEN "0011101001" => manhi <= conv_std_logic_vector(3728,24); manlo <= conv_std_logic_vector(111192108,28); WHEN "0011101010" => manhi <= conv_std_logic_vector(3744,24); manlo <= conv_std_logic_vector(112148630,28); WHEN "0011101011" => manhi <= conv_std_logic_vector(3760,24); manlo <= conv_std_logic_vector(113109250,28); WHEN "0011101100" => manhi <= conv_std_logic_vector(3776,24); manlo <= conv_std_logic_vector(114073966,28); WHEN "0011101101" => manhi <= conv_std_logic_vector(3792,24); manlo <= conv_std_logic_vector(115042779,28); WHEN "0011101110" => manhi <= conv_std_logic_vector(3808,24); manlo <= conv_std_logic_vector(116015689,28); WHEN "0011101111" => manhi <= conv_std_logic_vector(3824,24); manlo <= conv_std_logic_vector(116992696,28); WHEN "0011110000" => manhi <= conv_std_logic_vector(3840,24); manlo <= conv_std_logic_vector(117973801,28); WHEN "0011110001" => manhi <= conv_std_logic_vector(3856,24); manlo <= conv_std_logic_vector(118959001,28); WHEN "0011110010" => manhi <= conv_std_logic_vector(3872,24); manlo <= conv_std_logic_vector(119948299,28); WHEN "0011110011" => manhi <= conv_std_logic_vector(3888,24); manlo <= conv_std_logic_vector(120941694,28); WHEN "0011110100" => manhi <= conv_std_logic_vector(3904,24); manlo <= conv_std_logic_vector(121939186,28); WHEN "0011110101" => manhi <= conv_std_logic_vector(3920,24); manlo <= conv_std_logic_vector(122940775,28); WHEN "0011110110" => manhi <= conv_std_logic_vector(3936,24); manlo <= conv_std_logic_vector(123946461,28); WHEN "0011110111" => manhi <= conv_std_logic_vector(3952,24); manlo <= conv_std_logic_vector(124956243,28); WHEN "0011111000" => manhi <= conv_std_logic_vector(3968,24); manlo <= conv_std_logic_vector(125970123,28); WHEN "0011111001" => manhi <= conv_std_logic_vector(3984,24); manlo <= conv_std_logic_vector(126988100,28); WHEN "0011111010" => manhi <= conv_std_logic_vector(4000,24); manlo <= conv_std_logic_vector(128010173,28); WHEN "0011111011" => manhi <= conv_std_logic_vector(4016,24); manlo <= conv_std_logic_vector(129036344,28); WHEN "0011111100" => manhi <= conv_std_logic_vector(4032,24); manlo <= conv_std_logic_vector(130066611,28); WHEN "0011111101" => manhi <= conv_std_logic_vector(4048,24); manlo <= conv_std_logic_vector(131100976,28); WHEN "0011111110" => manhi <= conv_std_logic_vector(4064,24); manlo <= conv_std_logic_vector(132139437,28); WHEN "0011111111" => manhi <= conv_std_logic_vector(4080,24); manlo <= conv_std_logic_vector(133181996,28); WHEN "0100000000" => manhi <= conv_std_logic_vector(4096,24); manlo <= conv_std_logic_vector(134228651,28); WHEN "0100000001" => manhi <= conv_std_logic_vector(4112,24); manlo <= conv_std_logic_vector(135279404,28); WHEN "0100000010" => manhi <= conv_std_logic_vector(4128,24); manlo <= conv_std_logic_vector(136334253,28); WHEN "0100000011" => manhi <= conv_std_logic_vector(4144,24); manlo <= conv_std_logic_vector(137393200,28); WHEN "0100000100" => manhi <= conv_std_logic_vector(4160,24); manlo <= conv_std_logic_vector(138456243,28); WHEN "0100000101" => manhi <= conv_std_logic_vector(4176,24); manlo <= conv_std_logic_vector(139523384,28); WHEN "0100000110" => manhi <= conv_std_logic_vector(4192,24); manlo <= conv_std_logic_vector(140594622,28); WHEN "0100000111" => manhi <= conv_std_logic_vector(4208,24); manlo <= conv_std_logic_vector(141669956,28); WHEN "0100001000" => manhi <= conv_std_logic_vector(4224,24); manlo <= conv_std_logic_vector(142749388,28); WHEN "0100001001" => manhi <= conv_std_logic_vector(4240,24); manlo <= conv_std_logic_vector(143832916,28); WHEN "0100001010" => manhi <= conv_std_logic_vector(4256,24); manlo <= conv_std_logic_vector(144920542,28); WHEN "0100001011" => manhi <= conv_std_logic_vector(4272,24); manlo <= conv_std_logic_vector(146012265,28); WHEN "0100001100" => manhi <= conv_std_logic_vector(4288,24); manlo <= conv_std_logic_vector(147108085,28); WHEN "0100001101" => manhi <= conv_std_logic_vector(4304,24); manlo <= conv_std_logic_vector(148208001,28); WHEN "0100001110" => manhi <= conv_std_logic_vector(4320,24); manlo <= conv_std_logic_vector(149312015,28); WHEN "0100001111" => manhi <= conv_std_logic_vector(4336,24); manlo <= conv_std_logic_vector(150420126,28); WHEN "0100010000" => manhi <= conv_std_logic_vector(4352,24); manlo <= conv_std_logic_vector(151532334,28); WHEN "0100010001" => manhi <= conv_std_logic_vector(4368,24); manlo <= conv_std_logic_vector(152648639,28); WHEN "0100010010" => manhi <= conv_std_logic_vector(4384,24); manlo <= conv_std_logic_vector(153769041,28); WHEN "0100010011" => manhi <= conv_std_logic_vector(4400,24); manlo <= conv_std_logic_vector(154893541,28); WHEN "0100010100" => manhi <= conv_std_logic_vector(4416,24); manlo <= conv_std_logic_vector(156022137,28); WHEN "0100010101" => manhi <= conv_std_logic_vector(4432,24); manlo <= conv_std_logic_vector(157154830,28); WHEN "0100010110" => manhi <= conv_std_logic_vector(4448,24); manlo <= conv_std_logic_vector(158291621,28); WHEN "0100010111" => manhi <= conv_std_logic_vector(4464,24); manlo <= conv_std_logic_vector(159432508,28); WHEN "0100011000" => manhi <= conv_std_logic_vector(4480,24); manlo <= conv_std_logic_vector(160577493,28); WHEN "0100011001" => manhi <= conv_std_logic_vector(4496,24); manlo <= conv_std_logic_vector(161726574,28); WHEN "0100011010" => manhi <= conv_std_logic_vector(4512,24); manlo <= conv_std_logic_vector(162879753,28); WHEN "0100011011" => manhi <= conv_std_logic_vector(4528,24); manlo <= conv_std_logic_vector(164037029,28); WHEN "0100011100" => manhi <= conv_std_logic_vector(4544,24); manlo <= conv_std_logic_vector(165198402,28); WHEN "0100011101" => manhi <= conv_std_logic_vector(4560,24); manlo <= conv_std_logic_vector(166363872,28); WHEN "0100011110" => manhi <= conv_std_logic_vector(4576,24); manlo <= conv_std_logic_vector(167533439,28); WHEN "0100011111" => manhi <= conv_std_logic_vector(4592,24); manlo <= conv_std_logic_vector(168707104,28); WHEN "0100100000" => manhi <= conv_std_logic_vector(4608,24); manlo <= conv_std_logic_vector(169884865,28); WHEN "0100100001" => manhi <= conv_std_logic_vector(4624,24); manlo <= conv_std_logic_vector(171066724,28); WHEN "0100100010" => manhi <= conv_std_logic_vector(4640,24); manlo <= conv_std_logic_vector(172252679,28); WHEN "0100100011" => manhi <= conv_std_logic_vector(4656,24); manlo <= conv_std_logic_vector(173442732,28); WHEN "0100100100" => manhi <= conv_std_logic_vector(4672,24); manlo <= conv_std_logic_vector(174636882,28); WHEN "0100100101" => manhi <= conv_std_logic_vector(4688,24); manlo <= conv_std_logic_vector(175835129,28); WHEN "0100100110" => manhi <= conv_std_logic_vector(4704,24); manlo <= conv_std_logic_vector(177037474,28); WHEN "0100100111" => manhi <= conv_std_logic_vector(4720,24); manlo <= conv_std_logic_vector(178243915,28); WHEN "0100101000" => manhi <= conv_std_logic_vector(4736,24); manlo <= conv_std_logic_vector(179454454,28); WHEN "0100101001" => manhi <= conv_std_logic_vector(4752,24); manlo <= conv_std_logic_vector(180669089,28); WHEN "0100101010" => manhi <= conv_std_logic_vector(4768,24); manlo <= conv_std_logic_vector(181887822,28); WHEN "0100101011" => manhi <= conv_std_logic_vector(4784,24); manlo <= conv_std_logic_vector(183110652,28); WHEN "0100101100" => manhi <= conv_std_logic_vector(4800,24); manlo <= conv_std_logic_vector(184337579,28); WHEN "0100101101" => manhi <= conv_std_logic_vector(4816,24); manlo <= conv_std_logic_vector(185568604,28); WHEN "0100101110" => manhi <= conv_std_logic_vector(4832,24); manlo <= conv_std_logic_vector(186803725,28); WHEN "0100101111" => manhi <= conv_std_logic_vector(4848,24); manlo <= conv_std_logic_vector(188042944,28); WHEN "0100110000" => manhi <= conv_std_logic_vector(4864,24); manlo <= conv_std_logic_vector(189286260,28); WHEN "0100110001" => manhi <= conv_std_logic_vector(4880,24); manlo <= conv_std_logic_vector(190533673,28); WHEN "0100110010" => manhi <= conv_std_logic_vector(4896,24); manlo <= conv_std_logic_vector(191785183,28); WHEN "0100110011" => manhi <= conv_std_logic_vector(4912,24); manlo <= conv_std_logic_vector(193040791,28); WHEN "0100110100" => manhi <= conv_std_logic_vector(4928,24); manlo <= conv_std_logic_vector(194300496,28); WHEN "0100110101" => manhi <= conv_std_logic_vector(4944,24); manlo <= conv_std_logic_vector(195564298,28); WHEN "0100110110" => manhi <= conv_std_logic_vector(4960,24); manlo <= conv_std_logic_vector(196832197,28); WHEN "0100110111" => manhi <= conv_std_logic_vector(4976,24); manlo <= conv_std_logic_vector(198104193,28); WHEN "0100111000" => manhi <= conv_std_logic_vector(4992,24); manlo <= conv_std_logic_vector(199380286,28); WHEN "0100111001" => manhi <= conv_std_logic_vector(5008,24); manlo <= conv_std_logic_vector(200660477,28); WHEN "0100111010" => manhi <= conv_std_logic_vector(5024,24); manlo <= conv_std_logic_vector(201944765,28); WHEN "0100111011" => manhi <= conv_std_logic_vector(5040,24); manlo <= conv_std_logic_vector(203233150,28); WHEN "0100111100" => manhi <= conv_std_logic_vector(5056,24); manlo <= conv_std_logic_vector(204525633,28); WHEN "0100111101" => manhi <= conv_std_logic_vector(5072,24); manlo <= conv_std_logic_vector(205822213,28); WHEN "0100111110" => manhi <= conv_std_logic_vector(5088,24); manlo <= conv_std_logic_vector(207122889,28); WHEN "0100111111" => manhi <= conv_std_logic_vector(5104,24); manlo <= conv_std_logic_vector(208427664,28); WHEN "0101000000" => manhi <= conv_std_logic_vector(5120,24); manlo <= conv_std_logic_vector(209736535,28); WHEN "0101000001" => manhi <= conv_std_logic_vector(5136,24); manlo <= conv_std_logic_vector(211049504,28); WHEN "0101000010" => manhi <= conv_std_logic_vector(5152,24); manlo <= conv_std_logic_vector(212366570,28); WHEN "0101000011" => manhi <= conv_std_logic_vector(5168,24); manlo <= conv_std_logic_vector(213687733,28); WHEN "0101000100" => manhi <= conv_std_logic_vector(5184,24); manlo <= conv_std_logic_vector(215012993,28); WHEN "0101000101" => manhi <= conv_std_logic_vector(5200,24); manlo <= conv_std_logic_vector(216342351,28); WHEN "0101000110" => manhi <= conv_std_logic_vector(5216,24); manlo <= conv_std_logic_vector(217675806,28); WHEN "0101000111" => manhi <= conv_std_logic_vector(5232,24); manlo <= conv_std_logic_vector(219013358,28); WHEN "0101001000" => manhi <= conv_std_logic_vector(5248,24); manlo <= conv_std_logic_vector(220355007,28); WHEN "0101001001" => manhi <= conv_std_logic_vector(5264,24); manlo <= conv_std_logic_vector(221700754,28); WHEN "0101001010" => manhi <= conv_std_logic_vector(5280,24); manlo <= conv_std_logic_vector(223050598,28); WHEN "0101001011" => manhi <= conv_std_logic_vector(5296,24); manlo <= conv_std_logic_vector(224404540,28); WHEN "0101001100" => manhi <= conv_std_logic_vector(5312,24); manlo <= conv_std_logic_vector(225762578,28); WHEN "0101001101" => manhi <= conv_std_logic_vector(5328,24); manlo <= conv_std_logic_vector(227124714,28); WHEN "0101001110" => manhi <= conv_std_logic_vector(5344,24); manlo <= conv_std_logic_vector(228490948,28); WHEN "0101001111" => manhi <= conv_std_logic_vector(5360,24); manlo <= conv_std_logic_vector(229861278,28); WHEN "0101010000" => manhi <= conv_std_logic_vector(5376,24); manlo <= conv_std_logic_vector(231235706,28); WHEN "0101010001" => manhi <= conv_std_logic_vector(5392,24); manlo <= conv_std_logic_vector(232614231,28); WHEN "0101010010" => manhi <= conv_std_logic_vector(5408,24); manlo <= conv_std_logic_vector(233996854,28); WHEN "0101010011" => manhi <= conv_std_logic_vector(5424,24); manlo <= conv_std_logic_vector(235383573,28); WHEN "0101010100" => manhi <= conv_std_logic_vector(5440,24); manlo <= conv_std_logic_vector(236774391,28); WHEN "0101010101" => manhi <= conv_std_logic_vector(5456,24); manlo <= conv_std_logic_vector(238169305,28); WHEN "0101010110" => manhi <= conv_std_logic_vector(5472,24); manlo <= conv_std_logic_vector(239568317,28); WHEN "0101010111" => manhi <= conv_std_logic_vector(5488,24); manlo <= conv_std_logic_vector(240971426,28); WHEN "0101011000" => manhi <= conv_std_logic_vector(5504,24); manlo <= conv_std_logic_vector(242378633,28); WHEN "0101011001" => manhi <= conv_std_logic_vector(5520,24); manlo <= conv_std_logic_vector(243789936,28); WHEN "0101011010" => manhi <= conv_std_logic_vector(5536,24); manlo <= conv_std_logic_vector(245205338,28); WHEN "0101011011" => manhi <= conv_std_logic_vector(5552,24); manlo <= conv_std_logic_vector(246624836,28); WHEN "0101011100" => manhi <= conv_std_logic_vector(5568,24); manlo <= conv_std_logic_vector(248048432,28); WHEN "0101011101" => manhi <= conv_std_logic_vector(5584,24); manlo <= conv_std_logic_vector(249476125,28); WHEN "0101011110" => manhi <= conv_std_logic_vector(5600,24); manlo <= conv_std_logic_vector(250907916,28); WHEN "0101011111" => manhi <= conv_std_logic_vector(5616,24); manlo <= conv_std_logic_vector(252343804,28); WHEN "0101100000" => manhi <= conv_std_logic_vector(5632,24); manlo <= conv_std_logic_vector(253783789,28); WHEN "0101100001" => manhi <= conv_std_logic_vector(5648,24); manlo <= conv_std_logic_vector(255227872,28); WHEN "0101100010" => manhi <= conv_std_logic_vector(5664,24); manlo <= conv_std_logic_vector(256676052,28); WHEN "0101100011" => manhi <= conv_std_logic_vector(5680,24); manlo <= conv_std_logic_vector(258128329,28); WHEN "0101100100" => manhi <= conv_std_logic_vector(5696,24); manlo <= conv_std_logic_vector(259584704,28); WHEN "0101100101" => manhi <= conv_std_logic_vector(5712,24); manlo <= conv_std_logic_vector(261045176,28); WHEN "0101100110" => manhi <= conv_std_logic_vector(5728,24); manlo <= conv_std_logic_vector(262509746,28); WHEN "0101100111" => manhi <= conv_std_logic_vector(5744,24); manlo <= conv_std_logic_vector(263978413,28); WHEN "0101101000" => manhi <= conv_std_logic_vector(5760,24); manlo <= conv_std_logic_vector(265451178,28); WHEN "0101101001" => manhi <= conv_std_logic_vector(5776,24); manlo <= conv_std_logic_vector(266928039,28); WHEN "0101101010" => manhi <= conv_std_logic_vector(5792,24); manlo <= conv_std_logic_vector(268408999,28); WHEN "0101101011" => manhi <= conv_std_logic_vector(5809,24); manlo <= conv_std_logic_vector(1458599,28); WHEN "0101101100" => manhi <= conv_std_logic_vector(5825,24); manlo <= conv_std_logic_vector(2947754,28); WHEN "0101101101" => manhi <= conv_std_logic_vector(5841,24); manlo <= conv_std_logic_vector(4441005,28); WHEN "0101101110" => manhi <= conv_std_logic_vector(5857,24); manlo <= conv_std_logic_vector(5938354,28); WHEN "0101101111" => manhi <= conv_std_logic_vector(5873,24); manlo <= conv_std_logic_vector(7439800,28); WHEN "0101110000" => manhi <= conv_std_logic_vector(5889,24); manlo <= conv_std_logic_vector(8945344,28); WHEN "0101110001" => manhi <= conv_std_logic_vector(5905,24); manlo <= conv_std_logic_vector(10454985,28); WHEN "0101110010" => manhi <= conv_std_logic_vector(5921,24); manlo <= conv_std_logic_vector(11968724,28); WHEN "0101110011" => manhi <= conv_std_logic_vector(5937,24); manlo <= conv_std_logic_vector(13486560,28); WHEN "0101110100" => manhi <= conv_std_logic_vector(5953,24); manlo <= conv_std_logic_vector(15008494,28); WHEN "0101110101" => manhi <= conv_std_logic_vector(5969,24); manlo <= conv_std_logic_vector(16534525,28); WHEN "0101110110" => manhi <= conv_std_logic_vector(5985,24); manlo <= conv_std_logic_vector(18064653,28); WHEN "0101110111" => manhi <= conv_std_logic_vector(6001,24); manlo <= conv_std_logic_vector(19598879,28); WHEN "0101111000" => manhi <= conv_std_logic_vector(6017,24); manlo <= conv_std_logic_vector(21137203,28); WHEN "0101111001" => manhi <= conv_std_logic_vector(6033,24); manlo <= conv_std_logic_vector(22679624,28); WHEN "0101111010" => manhi <= conv_std_logic_vector(6049,24); manlo <= conv_std_logic_vector(24226142,28); WHEN "0101111011" => manhi <= conv_std_logic_vector(6065,24); manlo <= conv_std_logic_vector(25776758,28); WHEN "0101111100" => manhi <= conv_std_logic_vector(6081,24); manlo <= conv_std_logic_vector(27331471,28); WHEN "0101111101" => manhi <= conv_std_logic_vector(6097,24); manlo <= conv_std_logic_vector(28890282,28); WHEN "0101111110" => manhi <= conv_std_logic_vector(6113,24); manlo <= conv_std_logic_vector(30453190,28); WHEN "0101111111" => manhi <= conv_std_logic_vector(6129,24); manlo <= conv_std_logic_vector(32020196,28); WHEN "0110000000" => manhi <= conv_std_logic_vector(6145,24); manlo <= conv_std_logic_vector(33591299,28); WHEN "0110000001" => manhi <= conv_std_logic_vector(6161,24); manlo <= conv_std_logic_vector(35166500,28); WHEN "0110000010" => manhi <= conv_std_logic_vector(6177,24); manlo <= conv_std_logic_vector(36745798,28); WHEN "0110000011" => manhi <= conv_std_logic_vector(6193,24); manlo <= conv_std_logic_vector(38329194,28); WHEN "0110000100" => manhi <= conv_std_logic_vector(6209,24); manlo <= conv_std_logic_vector(39916688,28); WHEN "0110000101" => manhi <= conv_std_logic_vector(6225,24); manlo <= conv_std_logic_vector(41508278,28); WHEN "0110000110" => manhi <= conv_std_logic_vector(6241,24); manlo <= conv_std_logic_vector(43103967,28); WHEN "0110000111" => manhi <= conv_std_logic_vector(6257,24); manlo <= conv_std_logic_vector(44703753,28); WHEN "0110001000" => manhi <= conv_std_logic_vector(6273,24); manlo <= conv_std_logic_vector(46307636,28); WHEN "0110001001" => manhi <= conv_std_logic_vector(6289,24); manlo <= conv_std_logic_vector(47915617,28); WHEN "0110001010" => manhi <= conv_std_logic_vector(6305,24); manlo <= conv_std_logic_vector(49527695,28); WHEN "0110001011" => manhi <= conv_std_logic_vector(6321,24); manlo <= conv_std_logic_vector(51143871,28); WHEN "0110001100" => manhi <= conv_std_logic_vector(6337,24); manlo <= conv_std_logic_vector(52764145,28); WHEN "0110001101" => manhi <= conv_std_logic_vector(6353,24); manlo <= conv_std_logic_vector(54388516,28); WHEN "0110001110" => manhi <= conv_std_logic_vector(6369,24); manlo <= conv_std_logic_vector(56016985,28); WHEN "0110001111" => manhi <= conv_std_logic_vector(6385,24); manlo <= conv_std_logic_vector(57649551,28); WHEN "0110010000" => manhi <= conv_std_logic_vector(6401,24); manlo <= conv_std_logic_vector(59286215,28); WHEN "0110010001" => manhi <= conv_std_logic_vector(6417,24); manlo <= conv_std_logic_vector(60926976,28); WHEN "0110010010" => manhi <= conv_std_logic_vector(6433,24); manlo <= conv_std_logic_vector(62571835,28); WHEN "0110010011" => manhi <= conv_std_logic_vector(6449,24); manlo <= conv_std_logic_vector(64220791,28); WHEN "0110010100" => manhi <= conv_std_logic_vector(6465,24); manlo <= conv_std_logic_vector(65873845,28); WHEN "0110010101" => manhi <= conv_std_logic_vector(6481,24); manlo <= conv_std_logic_vector(67530997,28); WHEN "0110010110" => manhi <= conv_std_logic_vector(6497,24); manlo <= conv_std_logic_vector(69192246,28); WHEN "0110010111" => manhi <= conv_std_logic_vector(6513,24); manlo <= conv_std_logic_vector(70857593,28); WHEN "0110011000" => manhi <= conv_std_logic_vector(6529,24); manlo <= conv_std_logic_vector(72527037,28); WHEN "0110011001" => manhi <= conv_std_logic_vector(6545,24); manlo <= conv_std_logic_vector(74200579,28); WHEN "0110011010" => manhi <= conv_std_logic_vector(6561,24); manlo <= conv_std_logic_vector(75878219,28); WHEN "0110011011" => manhi <= conv_std_logic_vector(6577,24); manlo <= conv_std_logic_vector(77559956,28); WHEN "0110011100" => manhi <= conv_std_logic_vector(6593,24); manlo <= conv_std_logic_vector(79245791,28); WHEN "0110011101" => manhi <= conv_std_logic_vector(6609,24); manlo <= conv_std_logic_vector(80935723,28); WHEN "0110011110" => manhi <= conv_std_logic_vector(6625,24); manlo <= conv_std_logic_vector(82629753,28); WHEN "0110011111" => manhi <= conv_std_logic_vector(6641,24); manlo <= conv_std_logic_vector(84327881,28); WHEN "0110100000" => manhi <= conv_std_logic_vector(6657,24); manlo <= conv_std_logic_vector(86030106,28); WHEN "0110100001" => manhi <= conv_std_logic_vector(6673,24); manlo <= conv_std_logic_vector(87736429,28); WHEN "0110100010" => manhi <= conv_std_logic_vector(6689,24); manlo <= conv_std_logic_vector(89446849,28); WHEN "0110100011" => manhi <= conv_std_logic_vector(6705,24); manlo <= conv_std_logic_vector(91161367,28); WHEN "0110100100" => manhi <= conv_std_logic_vector(6721,24); manlo <= conv_std_logic_vector(92879983,28); WHEN "0110100101" => manhi <= conv_std_logic_vector(6737,24); manlo <= conv_std_logic_vector(94602697,28); WHEN "0110100110" => manhi <= conv_std_logic_vector(6753,24); manlo <= conv_std_logic_vector(96329508,28); WHEN "0110100111" => manhi <= conv_std_logic_vector(6769,24); manlo <= conv_std_logic_vector(98060416,28); WHEN "0110101000" => manhi <= conv_std_logic_vector(6785,24); manlo <= conv_std_logic_vector(99795423,28); WHEN "0110101001" => manhi <= conv_std_logic_vector(6801,24); manlo <= conv_std_logic_vector(101534527,28); WHEN "0110101010" => manhi <= conv_std_logic_vector(6817,24); manlo <= conv_std_logic_vector(103277728,28); WHEN "0110101011" => manhi <= conv_std_logic_vector(6833,24); manlo <= conv_std_logic_vector(105025028,28); WHEN "0110101100" => manhi <= conv_std_logic_vector(6849,24); manlo <= conv_std_logic_vector(106776425,28); WHEN "0110101101" => manhi <= conv_std_logic_vector(6865,24); manlo <= conv_std_logic_vector(108531919,28); WHEN "0110101110" => manhi <= conv_std_logic_vector(6881,24); manlo <= conv_std_logic_vector(110291512,28); WHEN "0110101111" => manhi <= conv_std_logic_vector(6897,24); manlo <= conv_std_logic_vector(112055202,28); WHEN "0110110000" => manhi <= conv_std_logic_vector(6913,24); manlo <= conv_std_logic_vector(113822989,28); WHEN "0110110001" => manhi <= conv_std_logic_vector(6929,24); manlo <= conv_std_logic_vector(115594875,28); WHEN "0110110010" => manhi <= conv_std_logic_vector(6945,24); manlo <= conv_std_logic_vector(117370858,28); WHEN "0110110011" => manhi <= conv_std_logic_vector(6961,24); manlo <= conv_std_logic_vector(119150939,28); WHEN "0110110100" => manhi <= conv_std_logic_vector(6977,24); manlo <= conv_std_logic_vector(120935117,28); WHEN "0110110101" => manhi <= conv_std_logic_vector(6993,24); manlo <= conv_std_logic_vector(122723393,28); WHEN "0110110110" => manhi <= conv_std_logic_vector(7009,24); manlo <= conv_std_logic_vector(124515767,28); WHEN "0110110111" => manhi <= conv_std_logic_vector(7025,24); manlo <= conv_std_logic_vector(126312239,28); WHEN "0110111000" => manhi <= conv_std_logic_vector(7041,24); manlo <= conv_std_logic_vector(128112808,28); WHEN "0110111001" => manhi <= conv_std_logic_vector(7057,24); manlo <= conv_std_logic_vector(129917475,28); WHEN "0110111010" => manhi <= conv_std_logic_vector(7073,24); manlo <= conv_std_logic_vector(131726240,28); WHEN "0110111011" => manhi <= conv_std_logic_vector(7089,24); manlo <= conv_std_logic_vector(133539102,28); WHEN "0110111100" => manhi <= conv_std_logic_vector(7105,24); manlo <= conv_std_logic_vector(135356063,28); WHEN "0110111101" => manhi <= conv_std_logic_vector(7121,24); manlo <= conv_std_logic_vector(137177121,28); WHEN "0110111110" => manhi <= conv_std_logic_vector(7137,24); manlo <= conv_std_logic_vector(139002276,28); WHEN "0110111111" => manhi <= conv_std_logic_vector(7153,24); manlo <= conv_std_logic_vector(140831530,28); WHEN "0111000000" => manhi <= conv_std_logic_vector(7169,24); manlo <= conv_std_logic_vector(142664881,28); WHEN "0111000001" => manhi <= conv_std_logic_vector(7185,24); manlo <= conv_std_logic_vector(144502330,28); WHEN "0111000010" => manhi <= conv_std_logic_vector(7201,24); manlo <= conv_std_logic_vector(146343877,28); WHEN "0111000011" => manhi <= conv_std_logic_vector(7217,24); manlo <= conv_std_logic_vector(148189521,28); WHEN "0111000100" => manhi <= conv_std_logic_vector(7233,24); manlo <= conv_std_logic_vector(150039263,28); WHEN "0111000101" => manhi <= conv_std_logic_vector(7249,24); manlo <= conv_std_logic_vector(151893103,28); WHEN "0111000110" => manhi <= conv_std_logic_vector(7265,24); manlo <= conv_std_logic_vector(153751041,28); WHEN "0111000111" => manhi <= conv_std_logic_vector(7281,24); manlo <= conv_std_logic_vector(155613076,28); WHEN "0111001000" => manhi <= conv_std_logic_vector(7297,24); manlo <= conv_std_logic_vector(157479210,28); WHEN "0111001001" => manhi <= conv_std_logic_vector(7313,24); manlo <= conv_std_logic_vector(159349441,28); WHEN "0111001010" => manhi <= conv_std_logic_vector(7329,24); manlo <= conv_std_logic_vector(161223770,28); WHEN "0111001011" => manhi <= conv_std_logic_vector(7345,24); manlo <= conv_std_logic_vector(163102196,28); WHEN "0111001100" => manhi <= conv_std_logic_vector(7361,24); manlo <= conv_std_logic_vector(164984721,28); WHEN "0111001101" => manhi <= conv_std_logic_vector(7377,24); manlo <= conv_std_logic_vector(166871343,28); WHEN "0111001110" => manhi <= conv_std_logic_vector(7393,24); manlo <= conv_std_logic_vector(168762063,28); WHEN "0111001111" => manhi <= conv_std_logic_vector(7409,24); manlo <= conv_std_logic_vector(170656881,28); WHEN "0111010000" => manhi <= conv_std_logic_vector(7425,24); manlo <= conv_std_logic_vector(172555797,28); WHEN "0111010001" => manhi <= conv_std_logic_vector(7441,24); manlo <= conv_std_logic_vector(174458810,28); WHEN "0111010010" => manhi <= conv_std_logic_vector(7457,24); manlo <= conv_std_logic_vector(176365921,28); WHEN "0111010011" => manhi <= conv_std_logic_vector(7473,24); manlo <= conv_std_logic_vector(178277130,28); WHEN "0111010100" => manhi <= conv_std_logic_vector(7489,24); manlo <= conv_std_logic_vector(180192437,28); WHEN "0111010101" => manhi <= conv_std_logic_vector(7505,24); manlo <= conv_std_logic_vector(182111842,28); WHEN "0111010110" => manhi <= conv_std_logic_vector(7521,24); manlo <= conv_std_logic_vector(184035345,28); WHEN "0111010111" => manhi <= conv_std_logic_vector(7537,24); manlo <= conv_std_logic_vector(185962945,28); WHEN "0111011000" => manhi <= conv_std_logic_vector(7553,24); manlo <= conv_std_logic_vector(187894643,28); WHEN "0111011001" => manhi <= conv_std_logic_vector(7569,24); manlo <= conv_std_logic_vector(189830439,28); WHEN "0111011010" => manhi <= conv_std_logic_vector(7585,24); manlo <= conv_std_logic_vector(191770333,28); WHEN "0111011011" => manhi <= conv_std_logic_vector(7601,24); manlo <= conv_std_logic_vector(193714325,28); WHEN "0111011100" => manhi <= conv_std_logic_vector(7617,24); manlo <= conv_std_logic_vector(195662415,28); WHEN "0111011101" => manhi <= conv_std_logic_vector(7633,24); manlo <= conv_std_logic_vector(197614602,28); WHEN "0111011110" => manhi <= conv_std_logic_vector(7649,24); manlo <= conv_std_logic_vector(199570888,28); WHEN "0111011111" => manhi <= conv_std_logic_vector(7665,24); manlo <= conv_std_logic_vector(201531271,28); WHEN "0111100000" => manhi <= conv_std_logic_vector(7681,24); manlo <= conv_std_logic_vector(203495752,28); WHEN "0111100001" => manhi <= conv_std_logic_vector(7697,24); manlo <= conv_std_logic_vector(205464331,28); WHEN "0111100010" => manhi <= conv_std_logic_vector(7713,24); manlo <= conv_std_logic_vector(207437008,28); WHEN "0111100011" => manhi <= conv_std_logic_vector(7729,24); manlo <= conv_std_logic_vector(209413783,28); WHEN "0111100100" => manhi <= conv_std_logic_vector(7745,24); manlo <= conv_std_logic_vector(211394656,28); WHEN "0111100101" => manhi <= conv_std_logic_vector(7761,24); manlo <= conv_std_logic_vector(213379626,28); WHEN "0111100110" => manhi <= conv_std_logic_vector(7777,24); manlo <= conv_std_logic_vector(215368695,28); WHEN "0111100111" => manhi <= conv_std_logic_vector(7793,24); manlo <= conv_std_logic_vector(217361861,28); WHEN "0111101000" => manhi <= conv_std_logic_vector(7809,24); manlo <= conv_std_logic_vector(219359125,28); WHEN "0111101001" => manhi <= conv_std_logic_vector(7825,24); manlo <= conv_std_logic_vector(221360487,28); WHEN "0111101010" => manhi <= conv_std_logic_vector(7841,24); manlo <= conv_std_logic_vector(223365947,28); WHEN "0111101011" => manhi <= conv_std_logic_vector(7857,24); manlo <= conv_std_logic_vector(225375505,28); WHEN "0111101100" => manhi <= conv_std_logic_vector(7873,24); manlo <= conv_std_logic_vector(227389161,28); WHEN "0111101101" => manhi <= conv_std_logic_vector(7889,24); manlo <= conv_std_logic_vector(229406915,28); WHEN "0111101110" => manhi <= conv_std_logic_vector(7905,24); manlo <= conv_std_logic_vector(231428767,28); WHEN "0111101111" => manhi <= conv_std_logic_vector(7921,24); manlo <= conv_std_logic_vector(233454716,28); WHEN "0111110000" => manhi <= conv_std_logic_vector(7937,24); manlo <= conv_std_logic_vector(235484764,28); WHEN "0111110001" => manhi <= conv_std_logic_vector(7953,24); manlo <= conv_std_logic_vector(237518910,28); WHEN "0111110010" => manhi <= conv_std_logic_vector(7969,24); manlo <= conv_std_logic_vector(239557153,28); WHEN "0111110011" => manhi <= conv_std_logic_vector(7985,24); manlo <= conv_std_logic_vector(241599495,28); WHEN "0111110100" => manhi <= conv_std_logic_vector(8001,24); manlo <= conv_std_logic_vector(243645934,28); WHEN "0111110101" => manhi <= conv_std_logic_vector(8017,24); manlo <= conv_std_logic_vector(245696471,28); WHEN "0111110110" => manhi <= conv_std_logic_vector(8033,24); manlo <= conv_std_logic_vector(247751107,28); WHEN "0111110111" => manhi <= conv_std_logic_vector(8049,24); manlo <= conv_std_logic_vector(249809840,28); WHEN "0111111000" => manhi <= conv_std_logic_vector(8065,24); manlo <= conv_std_logic_vector(251872671,28); WHEN "0111111001" => manhi <= conv_std_logic_vector(8081,24); manlo <= conv_std_logic_vector(253939600,28); WHEN "0111111010" => manhi <= conv_std_logic_vector(8097,24); manlo <= conv_std_logic_vector(256010627,28); WHEN "0111111011" => manhi <= conv_std_logic_vector(8113,24); manlo <= conv_std_logic_vector(258085753,28); WHEN "0111111100" => manhi <= conv_std_logic_vector(8129,24); manlo <= conv_std_logic_vector(260164976,28); WHEN "0111111101" => manhi <= conv_std_logic_vector(8145,24); manlo <= conv_std_logic_vector(262248297,28); WHEN "0111111110" => manhi <= conv_std_logic_vector(8161,24); manlo <= conv_std_logic_vector(264335716,28); WHEN "0111111111" => manhi <= conv_std_logic_vector(8177,24); manlo <= conv_std_logic_vector(266427233,28); WHEN "1000000000" => manhi <= conv_std_logic_vector(8194,24); manlo <= conv_std_logic_vector(87392,28); WHEN "1000000001" => manhi <= conv_std_logic_vector(8210,24); manlo <= conv_std_logic_vector(2187105,28); WHEN "1000000010" => manhi <= conv_std_logic_vector(8226,24); manlo <= conv_std_logic_vector(4290916,28); WHEN "1000000011" => manhi <= conv_std_logic_vector(8242,24); manlo <= conv_std_logic_vector(6398825,28); WHEN "1000000100" => manhi <= conv_std_logic_vector(8258,24); manlo <= conv_std_logic_vector(8510832,28); WHEN "1000000101" => manhi <= conv_std_logic_vector(8274,24); manlo <= conv_std_logic_vector(10626938,28); WHEN "1000000110" => manhi <= conv_std_logic_vector(8290,24); manlo <= conv_std_logic_vector(12747141,28); WHEN "1000000111" => manhi <= conv_std_logic_vector(8306,24); manlo <= conv_std_logic_vector(14871442,28); WHEN "1000001000" => manhi <= conv_std_logic_vector(8322,24); manlo <= conv_std_logic_vector(16999841,28); WHEN "1000001001" => manhi <= conv_std_logic_vector(8338,24); manlo <= conv_std_logic_vector(19132338,28); WHEN "1000001010" => manhi <= conv_std_logic_vector(8354,24); manlo <= conv_std_logic_vector(21268934,28); WHEN "1000001011" => manhi <= conv_std_logic_vector(8370,24); manlo <= conv_std_logic_vector(23409627,28); WHEN "1000001100" => manhi <= conv_std_logic_vector(8386,24); manlo <= conv_std_logic_vector(25554418,28); WHEN "1000001101" => manhi <= conv_std_logic_vector(8402,24); manlo <= conv_std_logic_vector(27703308,28); WHEN "1000001110" => manhi <= conv_std_logic_vector(8418,24); manlo <= conv_std_logic_vector(29856295,28); WHEN "1000001111" => manhi <= conv_std_logic_vector(8434,24); manlo <= conv_std_logic_vector(32013381,28); WHEN "1000010000" => manhi <= conv_std_logic_vector(8450,24); manlo <= conv_std_logic_vector(34174564,28); WHEN "1000010001" => manhi <= conv_std_logic_vector(8466,24); manlo <= conv_std_logic_vector(36339846,28); WHEN "1000010010" => manhi <= conv_std_logic_vector(8482,24); manlo <= conv_std_logic_vector(38509225,28); WHEN "1000010011" => manhi <= conv_std_logic_vector(8498,24); manlo <= conv_std_logic_vector(40682703,28); WHEN "1000010100" => manhi <= conv_std_logic_vector(8514,24); manlo <= conv_std_logic_vector(42860279,28); WHEN "1000010101" => manhi <= conv_std_logic_vector(8530,24); manlo <= conv_std_logic_vector(45041953,28); WHEN "1000010110" => manhi <= conv_std_logic_vector(8546,24); manlo <= conv_std_logic_vector(47227725,28); WHEN "1000010111" => manhi <= conv_std_logic_vector(8562,24); manlo <= conv_std_logic_vector(49417595,28); WHEN "1000011000" => manhi <= conv_std_logic_vector(8578,24); manlo <= conv_std_logic_vector(51611563,28); WHEN "1000011001" => manhi <= conv_std_logic_vector(8594,24); manlo <= conv_std_logic_vector(53809629,28); WHEN "1000011010" => manhi <= conv_std_logic_vector(8610,24); manlo <= conv_std_logic_vector(56011794,28); WHEN "1000011011" => manhi <= conv_std_logic_vector(8626,24); manlo <= conv_std_logic_vector(58218056,28); WHEN "1000011100" => manhi <= conv_std_logic_vector(8642,24); manlo <= conv_std_logic_vector(60428417,28); WHEN "1000011101" => manhi <= conv_std_logic_vector(8658,24); manlo <= conv_std_logic_vector(62642876,28); WHEN "1000011110" => manhi <= conv_std_logic_vector(8674,24); manlo <= conv_std_logic_vector(64861432,28); WHEN "1000011111" => manhi <= conv_std_logic_vector(8690,24); manlo <= conv_std_logic_vector(67084087,28); WHEN "1000100000" => manhi <= conv_std_logic_vector(8706,24); manlo <= conv_std_logic_vector(69310840,28); WHEN "1000100001" => manhi <= conv_std_logic_vector(8722,24); manlo <= conv_std_logic_vector(71541691,28); WHEN "1000100010" => manhi <= conv_std_logic_vector(8738,24); manlo <= conv_std_logic_vector(73776641,28); WHEN "1000100011" => manhi <= conv_std_logic_vector(8754,24); manlo <= conv_std_logic_vector(76015688,28); WHEN "1000100100" => manhi <= conv_std_logic_vector(8770,24); manlo <= conv_std_logic_vector(78258834,28); WHEN "1000100101" => manhi <= conv_std_logic_vector(8786,24); manlo <= conv_std_logic_vector(80506077,28); WHEN "1000100110" => manhi <= conv_std_logic_vector(8802,24); manlo <= conv_std_logic_vector(82757419,28); WHEN "1000100111" => manhi <= conv_std_logic_vector(8818,24); manlo <= conv_std_logic_vector(85012859,28); WHEN "1000101000" => manhi <= conv_std_logic_vector(8834,24); manlo <= conv_std_logic_vector(87272397,28); WHEN "1000101001" => manhi <= conv_std_logic_vector(8850,24); manlo <= conv_std_logic_vector(89536034,28); WHEN "1000101010" => manhi <= conv_std_logic_vector(8866,24); manlo <= conv_std_logic_vector(91803768,28); WHEN "1000101011" => manhi <= conv_std_logic_vector(8882,24); manlo <= conv_std_logic_vector(94075601,28); WHEN "1000101100" => manhi <= conv_std_logic_vector(8898,24); manlo <= conv_std_logic_vector(96351532,28); WHEN "1000101101" => manhi <= conv_std_logic_vector(8914,24); manlo <= conv_std_logic_vector(98631561,28); WHEN "1000101110" => manhi <= conv_std_logic_vector(8930,24); manlo <= conv_std_logic_vector(100915688,28); WHEN "1000101111" => manhi <= conv_std_logic_vector(8946,24); manlo <= conv_std_logic_vector(103203913,28); WHEN "1000110000" => manhi <= conv_std_logic_vector(8962,24); manlo <= conv_std_logic_vector(105496237,28); WHEN "1000110001" => manhi <= conv_std_logic_vector(8978,24); manlo <= conv_std_logic_vector(107792658,28); WHEN "1000110010" => manhi <= conv_std_logic_vector(8994,24); manlo <= conv_std_logic_vector(110093178,28); WHEN "1000110011" => manhi <= conv_std_logic_vector(9010,24); manlo <= conv_std_logic_vector(112397796,28); WHEN "1000110100" => manhi <= conv_std_logic_vector(9026,24); manlo <= conv_std_logic_vector(114706513,28); WHEN "1000110101" => manhi <= conv_std_logic_vector(9042,24); manlo <= conv_std_logic_vector(117019327,28); WHEN "1000110110" => manhi <= conv_std_logic_vector(9058,24); manlo <= conv_std_logic_vector(119336240,28); WHEN "1000110111" => manhi <= conv_std_logic_vector(9074,24); manlo <= conv_std_logic_vector(121657251,28); WHEN "1000111000" => manhi <= conv_std_logic_vector(9090,24); manlo <= conv_std_logic_vector(123982360,28); WHEN "1000111001" => manhi <= conv_std_logic_vector(9106,24); manlo <= conv_std_logic_vector(126311567,28); WHEN "1000111010" => manhi <= conv_std_logic_vector(9122,24); manlo <= conv_std_logic_vector(128644873,28); WHEN "1000111011" => manhi <= conv_std_logic_vector(9138,24); manlo <= conv_std_logic_vector(130982277,28); WHEN "1000111100" => manhi <= conv_std_logic_vector(9154,24); manlo <= conv_std_logic_vector(133323779,28); WHEN "1000111101" => manhi <= conv_std_logic_vector(9170,24); manlo <= conv_std_logic_vector(135669379,28); WHEN "1000111110" => manhi <= conv_std_logic_vector(9186,24); manlo <= conv_std_logic_vector(138019077,28); WHEN "1000111111" => manhi <= conv_std_logic_vector(9202,24); manlo <= conv_std_logic_vector(140372874,28); WHEN "1001000000" => manhi <= conv_std_logic_vector(9218,24); manlo <= conv_std_logic_vector(142730769,28); WHEN "1001000001" => manhi <= conv_std_logic_vector(9234,24); manlo <= conv_std_logic_vector(145092762,28); WHEN "1001000010" => manhi <= conv_std_logic_vector(9250,24); manlo <= conv_std_logic_vector(147458854,28); WHEN "1001000011" => manhi <= conv_std_logic_vector(9266,24); manlo <= conv_std_logic_vector(149829044,28); WHEN "1001000100" => manhi <= conv_std_logic_vector(9282,24); manlo <= conv_std_logic_vector(152203332,28); WHEN "1001000101" => manhi <= conv_std_logic_vector(9298,24); manlo <= conv_std_logic_vector(154581718,28); WHEN "1001000110" => manhi <= conv_std_logic_vector(9314,24); manlo <= conv_std_logic_vector(156964202,28); WHEN "1001000111" => manhi <= conv_std_logic_vector(9330,24); manlo <= conv_std_logic_vector(159350785,28); WHEN "1001001000" => manhi <= conv_std_logic_vector(9346,24); manlo <= conv_std_logic_vector(161741466,28); WHEN "1001001001" => manhi <= conv_std_logic_vector(9362,24); manlo <= conv_std_logic_vector(164136246,28); WHEN "1001001010" => manhi <= conv_std_logic_vector(9378,24); manlo <= conv_std_logic_vector(166535123,28); WHEN "1001001011" => manhi <= conv_std_logic_vector(9394,24); manlo <= conv_std_logic_vector(168938099,28); WHEN "1001001100" => manhi <= conv_std_logic_vector(9410,24); manlo <= conv_std_logic_vector(171345174,28); WHEN "1001001101" => manhi <= conv_std_logic_vector(9426,24); manlo <= conv_std_logic_vector(173756346,28); WHEN "1001001110" => manhi <= conv_std_logic_vector(9442,24); manlo <= conv_std_logic_vector(176171617,28); WHEN "1001001111" => manhi <= conv_std_logic_vector(9458,24); manlo <= conv_std_logic_vector(178590986,28); WHEN "1001010000" => manhi <= conv_std_logic_vector(9474,24); manlo <= conv_std_logic_vector(181014454,28); WHEN "1001010001" => manhi <= conv_std_logic_vector(9490,24); manlo <= conv_std_logic_vector(183442020,28); WHEN "1001010010" => manhi <= conv_std_logic_vector(9506,24); manlo <= conv_std_logic_vector(185873684,28); WHEN "1001010011" => manhi <= conv_std_logic_vector(9522,24); manlo <= conv_std_logic_vector(188309446,28); WHEN "1001010100" => manhi <= conv_std_logic_vector(9538,24); manlo <= conv_std_logic_vector(190749307,28); WHEN "1001010101" => manhi <= conv_std_logic_vector(9554,24); manlo <= conv_std_logic_vector(193193266,28); WHEN "1001010110" => manhi <= conv_std_logic_vector(9570,24); manlo <= conv_std_logic_vector(195641323,28); WHEN "1001010111" => manhi <= conv_std_logic_vector(9586,24); manlo <= conv_std_logic_vector(198093479,28); WHEN "1001011000" => manhi <= conv_std_logic_vector(9602,24); manlo <= conv_std_logic_vector(200549733,28); WHEN "1001011001" => manhi <= conv_std_logic_vector(9618,24); manlo <= conv_std_logic_vector(203010086,28); WHEN "1001011010" => manhi <= conv_std_logic_vector(9634,24); manlo <= conv_std_logic_vector(205474536,28); WHEN "1001011011" => manhi <= conv_std_logic_vector(9650,24); manlo <= conv_std_logic_vector(207943085,28); WHEN "1001011100" => manhi <= conv_std_logic_vector(9666,24); manlo <= conv_std_logic_vector(210415733,28); WHEN "1001011101" => manhi <= conv_std_logic_vector(9682,24); manlo <= conv_std_logic_vector(212892479,28); WHEN "1001011110" => manhi <= conv_std_logic_vector(9698,24); manlo <= conv_std_logic_vector(215373323,28); WHEN "1001011111" => manhi <= conv_std_logic_vector(9714,24); manlo <= conv_std_logic_vector(217858266,28); WHEN "1001100000" => manhi <= conv_std_logic_vector(9730,24); manlo <= conv_std_logic_vector(220347307,28); WHEN "1001100001" => manhi <= conv_std_logic_vector(9746,24); manlo <= conv_std_logic_vector(222840446,28); WHEN "1001100010" => manhi <= conv_std_logic_vector(9762,24); manlo <= conv_std_logic_vector(225337684,28); WHEN "1001100011" => manhi <= conv_std_logic_vector(9778,24); manlo <= conv_std_logic_vector(227839020,28); WHEN "1001100100" => manhi <= conv_std_logic_vector(9794,24); manlo <= conv_std_logic_vector(230344454,28); WHEN "1001100101" => manhi <= conv_std_logic_vector(9810,24); manlo <= conv_std_logic_vector(232853987,28); WHEN "1001100110" => manhi <= conv_std_logic_vector(9826,24); manlo <= conv_std_logic_vector(235367618,28); WHEN "1001100111" => manhi <= conv_std_logic_vector(9842,24); manlo <= conv_std_logic_vector(237885348,28); WHEN "1001101000" => manhi <= conv_std_logic_vector(9858,24); manlo <= conv_std_logic_vector(240407176,28); WHEN "1001101001" => manhi <= conv_std_logic_vector(9874,24); manlo <= conv_std_logic_vector(242933102,28); WHEN "1001101010" => manhi <= conv_std_logic_vector(9890,24); manlo <= conv_std_logic_vector(245463127,28); WHEN "1001101011" => manhi <= conv_std_logic_vector(9906,24); manlo <= conv_std_logic_vector(247997251,28); WHEN "1001101100" => manhi <= conv_std_logic_vector(9922,24); manlo <= conv_std_logic_vector(250535472,28); WHEN "1001101101" => manhi <= conv_std_logic_vector(9938,24); manlo <= conv_std_logic_vector(253077793,28); WHEN "1001101110" => manhi <= conv_std_logic_vector(9954,24); manlo <= conv_std_logic_vector(255624211,28); WHEN "1001101111" => manhi <= conv_std_logic_vector(9970,24); manlo <= conv_std_logic_vector(258174728,28); WHEN "1001110000" => manhi <= conv_std_logic_vector(9986,24); manlo <= conv_std_logic_vector(260729344,28); WHEN "1001110001" => manhi <= conv_std_logic_vector(10002,24); manlo <= conv_std_logic_vector(263288057,28); WHEN "1001110010" => manhi <= conv_std_logic_vector(10018,24); manlo <= conv_std_logic_vector(265850870,28); WHEN "1001110011" => manhi <= conv_std_logic_vector(10034,24); manlo <= conv_std_logic_vector(268417780,28); WHEN "1001110100" => manhi <= conv_std_logic_vector(10051,24); manlo <= conv_std_logic_vector(2553334,28); WHEN "1001110101" => manhi <= conv_std_logic_vector(10067,24); manlo <= conv_std_logic_vector(5128441,28); WHEN "1001110110" => manhi <= conv_std_logic_vector(10083,24); manlo <= conv_std_logic_vector(7707647,28); WHEN "1001110111" => manhi <= conv_std_logic_vector(10099,24); manlo <= conv_std_logic_vector(10290952,28); WHEN "1001111000" => manhi <= conv_std_logic_vector(10115,24); manlo <= conv_std_logic_vector(12878355,28); WHEN "1001111001" => manhi <= conv_std_logic_vector(10131,24); manlo <= conv_std_logic_vector(15469857,28); WHEN "1001111010" => manhi <= conv_std_logic_vector(10147,24); manlo <= conv_std_logic_vector(18065457,28); WHEN "1001111011" => manhi <= conv_std_logic_vector(10163,24); manlo <= conv_std_logic_vector(20665155,28); WHEN "1001111100" => manhi <= conv_std_logic_vector(10179,24); manlo <= conv_std_logic_vector(23268952,28); WHEN "1001111101" => manhi <= conv_std_logic_vector(10195,24); manlo <= conv_std_logic_vector(25876847,28); WHEN "1001111110" => manhi <= conv_std_logic_vector(10211,24); manlo <= conv_std_logic_vector(28488841,28); WHEN "1001111111" => manhi <= conv_std_logic_vector(10227,24); manlo <= conv_std_logic_vector(31104934,28); WHEN "1010000000" => manhi <= conv_std_logic_vector(10243,24); manlo <= conv_std_logic_vector(33725125,28); WHEN "1010000001" => manhi <= conv_std_logic_vector(10259,24); manlo <= conv_std_logic_vector(36349414,28); WHEN "1010000010" => manhi <= conv_std_logic_vector(10275,24); manlo <= conv_std_logic_vector(38977802,28); WHEN "1010000011" => manhi <= conv_std_logic_vector(10291,24); manlo <= conv_std_logic_vector(41610288,28); WHEN "1010000100" => manhi <= conv_std_logic_vector(10307,24); manlo <= conv_std_logic_vector(44246873,28); WHEN "1010000101" => manhi <= conv_std_logic_vector(10323,24); manlo <= conv_std_logic_vector(46887557,28); WHEN "1010000110" => manhi <= conv_std_logic_vector(10339,24); manlo <= conv_std_logic_vector(49532339,28); WHEN "1010000111" => manhi <= conv_std_logic_vector(10355,24); manlo <= conv_std_logic_vector(52181219,28); WHEN "1010001000" => manhi <= conv_std_logic_vector(10371,24); manlo <= conv_std_logic_vector(54834198,28); WHEN "1010001001" => manhi <= conv_std_logic_vector(10387,24); manlo <= conv_std_logic_vector(57491276,28); WHEN "1010001010" => manhi <= conv_std_logic_vector(10403,24); manlo <= conv_std_logic_vector(60152452,28); WHEN "1010001011" => manhi <= conv_std_logic_vector(10419,24); manlo <= conv_std_logic_vector(62817727,28); WHEN "1010001100" => manhi <= conv_std_logic_vector(10435,24); manlo <= conv_std_logic_vector(65487100,28); WHEN "1010001101" => manhi <= conv_std_logic_vector(10451,24); manlo <= conv_std_logic_vector(68160572,28); WHEN "1010001110" => manhi <= conv_std_logic_vector(10467,24); manlo <= conv_std_logic_vector(70838142,28); WHEN "1010001111" => manhi <= conv_std_logic_vector(10483,24); manlo <= conv_std_logic_vector(73519811,28); WHEN "1010010000" => manhi <= conv_std_logic_vector(10499,24); manlo <= conv_std_logic_vector(76205578,28); WHEN "1010010001" => manhi <= conv_std_logic_vector(10515,24); manlo <= conv_std_logic_vector(78895444,28); WHEN "1010010010" => manhi <= conv_std_logic_vector(10531,24); manlo <= conv_std_logic_vector(81589409,28); WHEN "1010010011" => manhi <= conv_std_logic_vector(10547,24); manlo <= conv_std_logic_vector(84287472,28); WHEN "1010010100" => manhi <= conv_std_logic_vector(10563,24); manlo <= conv_std_logic_vector(86989633,28); WHEN "1010010101" => manhi <= conv_std_logic_vector(10579,24); manlo <= conv_std_logic_vector(89695894,28); WHEN "1010010110" => manhi <= conv_std_logic_vector(10595,24); manlo <= conv_std_logic_vector(92406252,28); WHEN "1010010111" => manhi <= conv_std_logic_vector(10611,24); manlo <= conv_std_logic_vector(95120710,28); WHEN "1010011000" => manhi <= conv_std_logic_vector(10627,24); manlo <= conv_std_logic_vector(97839266,28); WHEN "1010011001" => manhi <= conv_std_logic_vector(10643,24); manlo <= conv_std_logic_vector(100561920,28); WHEN "1010011010" => manhi <= conv_std_logic_vector(10659,24); manlo <= conv_std_logic_vector(103288674,28); WHEN "1010011011" => manhi <= conv_std_logic_vector(10675,24); manlo <= conv_std_logic_vector(106019525,28); WHEN "1010011100" => manhi <= conv_std_logic_vector(10691,24); manlo <= conv_std_logic_vector(108754476,28); WHEN "1010011101" => manhi <= conv_std_logic_vector(10707,24); manlo <= conv_std_logic_vector(111493525,28); WHEN "1010011110" => manhi <= conv_std_logic_vector(10723,24); manlo <= conv_std_logic_vector(114236673,28); WHEN "1010011111" => manhi <= conv_std_logic_vector(10739,24); manlo <= conv_std_logic_vector(116983919,28); WHEN "1010100000" => manhi <= conv_std_logic_vector(10755,24); manlo <= conv_std_logic_vector(119735264,28); WHEN "1010100001" => manhi <= conv_std_logic_vector(10771,24); manlo <= conv_std_logic_vector(122490707,28); WHEN "1010100010" => manhi <= conv_std_logic_vector(10787,24); manlo <= conv_std_logic_vector(125250249,28); WHEN "1010100011" => manhi <= conv_std_logic_vector(10803,24); manlo <= conv_std_logic_vector(128013890,28); WHEN "1010100100" => manhi <= conv_std_logic_vector(10819,24); manlo <= conv_std_logic_vector(130781629,28); WHEN "1010100101" => manhi <= conv_std_logic_vector(10835,24); manlo <= conv_std_logic_vector(133553468,28); WHEN "1010100110" => manhi <= conv_std_logic_vector(10851,24); manlo <= conv_std_logic_vector(136329404,28); WHEN "1010100111" => manhi <= conv_std_logic_vector(10867,24); manlo <= conv_std_logic_vector(139109440,28); WHEN "1010101000" => manhi <= conv_std_logic_vector(10883,24); manlo <= conv_std_logic_vector(141893574,28); WHEN "1010101001" => manhi <= conv_std_logic_vector(10899,24); manlo <= conv_std_logic_vector(144681806,28); WHEN "1010101010" => manhi <= conv_std_logic_vector(10915,24); manlo <= conv_std_logic_vector(147474137,28); WHEN "1010101011" => manhi <= conv_std_logic_vector(10931,24); manlo <= conv_std_logic_vector(150270567,28); WHEN "1010101100" => manhi <= conv_std_logic_vector(10947,24); manlo <= conv_std_logic_vector(153071096,28); WHEN "1010101101" => manhi <= conv_std_logic_vector(10963,24); manlo <= conv_std_logic_vector(155875723,28); WHEN "1010101110" => manhi <= conv_std_logic_vector(10979,24); manlo <= conv_std_logic_vector(158684449,28); WHEN "1010101111" => manhi <= conv_std_logic_vector(10995,24); manlo <= conv_std_logic_vector(161497274,28); WHEN "1010110000" => manhi <= conv_std_logic_vector(11011,24); manlo <= conv_std_logic_vector(164314197,28); WHEN "1010110001" => manhi <= conv_std_logic_vector(11027,24); manlo <= conv_std_logic_vector(167135219,28); WHEN "1010110010" => manhi <= conv_std_logic_vector(11043,24); manlo <= conv_std_logic_vector(169960340,28); WHEN "1010110011" => manhi <= conv_std_logic_vector(11059,24); manlo <= conv_std_logic_vector(172789560,28); WHEN "1010110100" => manhi <= conv_std_logic_vector(11075,24); manlo <= conv_std_logic_vector(175622878,28); WHEN "1010110101" => manhi <= conv_std_logic_vector(11091,24); manlo <= conv_std_logic_vector(178460295,28); WHEN "1010110110" => manhi <= conv_std_logic_vector(11107,24); manlo <= conv_std_logic_vector(181301810,28); WHEN "1010110111" => manhi <= conv_std_logic_vector(11123,24); manlo <= conv_std_logic_vector(184147424,28); WHEN "1010111000" => manhi <= conv_std_logic_vector(11139,24); manlo <= conv_std_logic_vector(186997137,28); WHEN "1010111001" => manhi <= conv_std_logic_vector(11155,24); manlo <= conv_std_logic_vector(189850949,28); WHEN "1010111010" => manhi <= conv_std_logic_vector(11171,24); manlo <= conv_std_logic_vector(192708860,28); WHEN "1010111011" => manhi <= conv_std_logic_vector(11187,24); manlo <= conv_std_logic_vector(195570869,28); WHEN "1010111100" => manhi <= conv_std_logic_vector(11203,24); manlo <= conv_std_logic_vector(198436977,28); WHEN "1010111101" => manhi <= conv_std_logic_vector(11219,24); manlo <= conv_std_logic_vector(201307183,28); WHEN "1010111110" => manhi <= conv_std_logic_vector(11235,24); manlo <= conv_std_logic_vector(204181489,28); WHEN "1010111111" => manhi <= conv_std_logic_vector(11251,24); manlo <= conv_std_logic_vector(207059893,28); WHEN "1011000000" => manhi <= conv_std_logic_vector(11267,24); manlo <= conv_std_logic_vector(209942395,28); WHEN "1011000001" => manhi <= conv_std_logic_vector(11283,24); manlo <= conv_std_logic_vector(212828997,28); WHEN "1011000010" => manhi <= conv_std_logic_vector(11299,24); manlo <= conv_std_logic_vector(215719697,28); WHEN "1011000011" => manhi <= conv_std_logic_vector(11315,24); manlo <= conv_std_logic_vector(218614497,28); WHEN "1011000100" => manhi <= conv_std_logic_vector(11331,24); manlo <= conv_std_logic_vector(221513394,28); WHEN "1011000101" => manhi <= conv_std_logic_vector(11347,24); manlo <= conv_std_logic_vector(224416391,28); WHEN "1011000110" => manhi <= conv_std_logic_vector(11363,24); manlo <= conv_std_logic_vector(227323486,28); WHEN "1011000111" => manhi <= conv_std_logic_vector(11379,24); manlo <= conv_std_logic_vector(230234681,28); WHEN "1011001000" => manhi <= conv_std_logic_vector(11395,24); manlo <= conv_std_logic_vector(233149974,28); WHEN "1011001001" => manhi <= conv_std_logic_vector(11411,24); manlo <= conv_std_logic_vector(236069365,28); WHEN "1011001010" => manhi <= conv_std_logic_vector(11427,24); manlo <= conv_std_logic_vector(238992856,28); WHEN "1011001011" => manhi <= conv_std_logic_vector(11443,24); manlo <= conv_std_logic_vector(241920445,28); WHEN "1011001100" => manhi <= conv_std_logic_vector(11459,24); manlo <= conv_std_logic_vector(244852133,28); WHEN "1011001101" => manhi <= conv_std_logic_vector(11475,24); manlo <= conv_std_logic_vector(247787920,28); WHEN "1011001110" => manhi <= conv_std_logic_vector(11491,24); manlo <= conv_std_logic_vector(250727806,28); WHEN "1011001111" => manhi <= conv_std_logic_vector(11507,24); manlo <= conv_std_logic_vector(253671790,28); WHEN "1011010000" => manhi <= conv_std_logic_vector(11523,24); manlo <= conv_std_logic_vector(256619874,28); WHEN "1011010001" => manhi <= conv_std_logic_vector(11539,24); manlo <= conv_std_logic_vector(259572056,28); WHEN "1011010010" => manhi <= conv_std_logic_vector(11555,24); manlo <= conv_std_logic_vector(262528337,28); WHEN "1011010011" => manhi <= conv_std_logic_vector(11571,24); manlo <= conv_std_logic_vector(265488717,28); WHEN "1011010100" => manhi <= conv_std_logic_vector(11588,24); manlo <= conv_std_logic_vector(17739,28); WHEN "1011010101" => manhi <= conv_std_logic_vector(11604,24); manlo <= conv_std_logic_vector(2986317,28); WHEN "1011010110" => manhi <= conv_std_logic_vector(11620,24); manlo <= conv_std_logic_vector(5958993,28); WHEN "1011010111" => manhi <= conv_std_logic_vector(11636,24); manlo <= conv_std_logic_vector(8935768,28); WHEN "1011011000" => manhi <= conv_std_logic_vector(11652,24); manlo <= conv_std_logic_vector(11916642,28); WHEN "1011011001" => manhi <= conv_std_logic_vector(11668,24); manlo <= conv_std_logic_vector(14901615,28); WHEN "1011011010" => manhi <= conv_std_logic_vector(11684,24); manlo <= conv_std_logic_vector(17890686,28); WHEN "1011011011" => manhi <= conv_std_logic_vector(11700,24); manlo <= conv_std_logic_vector(20883857,28); WHEN "1011011100" => manhi <= conv_std_logic_vector(11716,24); manlo <= conv_std_logic_vector(23881126,28); WHEN "1011011101" => manhi <= conv_std_logic_vector(11732,24); manlo <= conv_std_logic_vector(26882494,28); WHEN "1011011110" => manhi <= conv_std_logic_vector(11748,24); manlo <= conv_std_logic_vector(29887961,28); WHEN "1011011111" => manhi <= conv_std_logic_vector(11764,24); manlo <= conv_std_logic_vector(32897527,28); WHEN "1011100000" => manhi <= conv_std_logic_vector(11780,24); manlo <= conv_std_logic_vector(35911192,28); WHEN "1011100001" => manhi <= conv_std_logic_vector(11796,24); manlo <= conv_std_logic_vector(38928956,28); WHEN "1011100010" => manhi <= conv_std_logic_vector(11812,24); manlo <= conv_std_logic_vector(41950818,28); WHEN "1011100011" => manhi <= conv_std_logic_vector(11828,24); manlo <= conv_std_logic_vector(44976780,28); WHEN "1011100100" => manhi <= conv_std_logic_vector(11844,24); manlo <= conv_std_logic_vector(48006840,28); WHEN "1011100101" => manhi <= conv_std_logic_vector(11860,24); manlo <= conv_std_logic_vector(51040999,28); WHEN "1011100110" => manhi <= conv_std_logic_vector(11876,24); manlo <= conv_std_logic_vector(54079258,28); WHEN "1011100111" => manhi <= conv_std_logic_vector(11892,24); manlo <= conv_std_logic_vector(57121615,28); WHEN "1011101000" => manhi <= conv_std_logic_vector(11908,24); manlo <= conv_std_logic_vector(60168071,28); WHEN "1011101001" => manhi <= conv_std_logic_vector(11924,24); manlo <= conv_std_logic_vector(63218625,28); WHEN "1011101010" => manhi <= conv_std_logic_vector(11940,24); manlo <= conv_std_logic_vector(66273279,28); WHEN "1011101011" => manhi <= conv_std_logic_vector(11956,24); manlo <= conv_std_logic_vector(69332032,28); WHEN "1011101100" => manhi <= conv_std_logic_vector(11972,24); manlo <= conv_std_logic_vector(72394883,28); WHEN "1011101101" => manhi <= conv_std_logic_vector(11988,24); manlo <= conv_std_logic_vector(75461834,28); WHEN "1011101110" => manhi <= conv_std_logic_vector(12004,24); manlo <= conv_std_logic_vector(78532883,28); WHEN "1011101111" => manhi <= conv_std_logic_vector(12020,24); manlo <= conv_std_logic_vector(81608032,28); WHEN "1011110000" => manhi <= conv_std_logic_vector(12036,24); manlo <= conv_std_logic_vector(84687279,28); WHEN "1011110001" => manhi <= conv_std_logic_vector(12052,24); manlo <= conv_std_logic_vector(87770625,28); WHEN "1011110010" => manhi <= conv_std_logic_vector(12068,24); manlo <= conv_std_logic_vector(90858070,28); WHEN "1011110011" => manhi <= conv_std_logic_vector(12084,24); manlo <= conv_std_logic_vector(93949615,28); WHEN "1011110100" => manhi <= conv_std_logic_vector(12100,24); manlo <= conv_std_logic_vector(97045258,28); WHEN "1011110101" => manhi <= conv_std_logic_vector(12116,24); manlo <= conv_std_logic_vector(100145000,28); WHEN "1011110110" => manhi <= conv_std_logic_vector(12132,24); manlo <= conv_std_logic_vector(103248841,28); WHEN "1011110111" => manhi <= conv_std_logic_vector(12148,24); manlo <= conv_std_logic_vector(106356781,28); WHEN "1011111000" => manhi <= conv_std_logic_vector(12164,24); manlo <= conv_std_logic_vector(109468819,28); WHEN "1011111001" => manhi <= conv_std_logic_vector(12180,24); manlo <= conv_std_logic_vector(112584957,28); WHEN "1011111010" => manhi <= conv_std_logic_vector(12196,24); manlo <= conv_std_logic_vector(115705194,28); WHEN "1011111011" => manhi <= conv_std_logic_vector(12212,24); manlo <= conv_std_logic_vector(118829530,28); WHEN "1011111100" => manhi <= conv_std_logic_vector(12228,24); manlo <= conv_std_logic_vector(121957965,28); WHEN "1011111101" => manhi <= conv_std_logic_vector(12244,24); manlo <= conv_std_logic_vector(125090499,28); WHEN "1011111110" => manhi <= conv_std_logic_vector(12260,24); manlo <= conv_std_logic_vector(128227131,28); WHEN "1011111111" => manhi <= conv_std_logic_vector(12276,24); manlo <= conv_std_logic_vector(131367863,28); WHEN "1100000000" => manhi <= conv_std_logic_vector(12292,24); manlo <= conv_std_logic_vector(134512694,28); WHEN "1100000001" => manhi <= conv_std_logic_vector(12308,24); manlo <= conv_std_logic_vector(137661624,28); WHEN "1100000010" => manhi <= conv_std_logic_vector(12324,24); manlo <= conv_std_logic_vector(140814653,28); WHEN "1100000011" => manhi <= conv_std_logic_vector(12340,24); manlo <= conv_std_logic_vector(143971780,28); WHEN "1100000100" => manhi <= conv_std_logic_vector(12356,24); manlo <= conv_std_logic_vector(147133007,28); WHEN "1100000101" => manhi <= conv_std_logic_vector(12372,24); manlo <= conv_std_logic_vector(150298333,28); WHEN "1100000110" => manhi <= conv_std_logic_vector(12388,24); manlo <= conv_std_logic_vector(153467758,28); WHEN "1100000111" => manhi <= conv_std_logic_vector(12404,24); manlo <= conv_std_logic_vector(156641282,28); WHEN "1100001000" => manhi <= conv_std_logic_vector(12420,24); manlo <= conv_std_logic_vector(159818905,28); WHEN "1100001001" => manhi <= conv_std_logic_vector(12436,24); manlo <= conv_std_logic_vector(163000627,28); WHEN "1100001010" => manhi <= conv_std_logic_vector(12452,24); manlo <= conv_std_logic_vector(166186448,28); WHEN "1100001011" => manhi <= conv_std_logic_vector(12468,24); manlo <= conv_std_logic_vector(169376368,28); WHEN "1100001100" => manhi <= conv_std_logic_vector(12484,24); manlo <= conv_std_logic_vector(172570387,28); WHEN "1100001101" => manhi <= conv_std_logic_vector(12500,24); manlo <= conv_std_logic_vector(175768505,28); WHEN "1100001110" => manhi <= conv_std_logic_vector(12516,24); manlo <= conv_std_logic_vector(178970722,28); WHEN "1100001111" => manhi <= conv_std_logic_vector(12532,24); manlo <= conv_std_logic_vector(182177038,28); WHEN "1100010000" => manhi <= conv_std_logic_vector(12548,24); manlo <= conv_std_logic_vector(185387453,28); WHEN "1100010001" => manhi <= conv_std_logic_vector(12564,24); manlo <= conv_std_logic_vector(188601968,28); WHEN "1100010010" => manhi <= conv_std_logic_vector(12580,24); manlo <= conv_std_logic_vector(191820581,28); WHEN "1100010011" => manhi <= conv_std_logic_vector(12596,24); manlo <= conv_std_logic_vector(195043294,28); WHEN "1100010100" => manhi <= conv_std_logic_vector(12612,24); manlo <= conv_std_logic_vector(198270105,28); WHEN "1100010101" => manhi <= conv_std_logic_vector(12628,24); manlo <= conv_std_logic_vector(201501016,28); WHEN "1100010110" => manhi <= conv_std_logic_vector(12644,24); manlo <= conv_std_logic_vector(204736025,28); WHEN "1100010111" => manhi <= conv_std_logic_vector(12660,24); manlo <= conv_std_logic_vector(207975134,28); WHEN "1100011000" => manhi <= conv_std_logic_vector(12676,24); manlo <= conv_std_logic_vector(211218342,28); WHEN "1100011001" => manhi <= conv_std_logic_vector(12692,24); manlo <= conv_std_logic_vector(214465649,28); WHEN "1100011010" => manhi <= conv_std_logic_vector(12708,24); manlo <= conv_std_logic_vector(217717055,28); WHEN "1100011011" => manhi <= conv_std_logic_vector(12724,24); manlo <= conv_std_logic_vector(220972560,28); WHEN "1100011100" => manhi <= conv_std_logic_vector(12740,24); manlo <= conv_std_logic_vector(224232165,28); WHEN "1100011101" => manhi <= conv_std_logic_vector(12756,24); manlo <= conv_std_logic_vector(227495868,28); WHEN "1100011110" => manhi <= conv_std_logic_vector(12772,24); manlo <= conv_std_logic_vector(230763671,28); WHEN "1100011111" => manhi <= conv_std_logic_vector(12788,24); manlo <= conv_std_logic_vector(234035572,28); WHEN "1100100000" => manhi <= conv_std_logic_vector(12804,24); manlo <= conv_std_logic_vector(237311573,28); WHEN "1100100001" => manhi <= conv_std_logic_vector(12820,24); manlo <= conv_std_logic_vector(240591673,28); WHEN "1100100010" => manhi <= conv_std_logic_vector(12836,24); manlo <= conv_std_logic_vector(243875872,28); WHEN "1100100011" => manhi <= conv_std_logic_vector(12852,24); manlo <= conv_std_logic_vector(247164170,28); WHEN "1100100100" => manhi <= conv_std_logic_vector(12868,24); manlo <= conv_std_logic_vector(250456567,28); WHEN "1100100101" => manhi <= conv_std_logic_vector(12884,24); manlo <= conv_std_logic_vector(253753064,28); WHEN "1100100110" => manhi <= conv_std_logic_vector(12900,24); manlo <= conv_std_logic_vector(257053659,28); WHEN "1100100111" => manhi <= conv_std_logic_vector(12916,24); manlo <= conv_std_logic_vector(260358354,28); WHEN "1100101000" => manhi <= conv_std_logic_vector(12932,24); manlo <= conv_std_logic_vector(263667148,28); WHEN "1100101001" => manhi <= conv_std_logic_vector(12948,24); manlo <= conv_std_logic_vector(266980041,28); WHEN "1100101010" => manhi <= conv_std_logic_vector(12965,24); manlo <= conv_std_logic_vector(1861577,28); WHEN "1100101011" => manhi <= conv_std_logic_vector(12981,24); manlo <= conv_std_logic_vector(5182668,28); WHEN "1100101100" => manhi <= conv_std_logic_vector(12997,24); manlo <= conv_std_logic_vector(8507859,28); WHEN "1100101101" => manhi <= conv_std_logic_vector(13013,24); manlo <= conv_std_logic_vector(11837149,28); WHEN "1100101110" => manhi <= conv_std_logic_vector(13029,24); manlo <= conv_std_logic_vector(15170538,28); WHEN "1100101111" => manhi <= conv_std_logic_vector(13045,24); manlo <= conv_std_logic_vector(18508026,28); WHEN "1100110000" => manhi <= conv_std_logic_vector(13061,24); manlo <= conv_std_logic_vector(21849613,28); WHEN "1100110001" => manhi <= conv_std_logic_vector(13077,24); manlo <= conv_std_logic_vector(25195299,28); WHEN "1100110010" => manhi <= conv_std_logic_vector(13093,24); manlo <= conv_std_logic_vector(28545085,28); WHEN "1100110011" => manhi <= conv_std_logic_vector(13109,24); manlo <= conv_std_logic_vector(31898970,28); WHEN "1100110100" => manhi <= conv_std_logic_vector(13125,24); manlo <= conv_std_logic_vector(35256954,28); WHEN "1100110101" => manhi <= conv_std_logic_vector(13141,24); manlo <= conv_std_logic_vector(38619037,28); WHEN "1100110110" => manhi <= conv_std_logic_vector(13157,24); manlo <= conv_std_logic_vector(41985219,28); WHEN "1100110111" => manhi <= conv_std_logic_vector(13173,24); manlo <= conv_std_logic_vector(45355501,28); WHEN "1100111000" => manhi <= conv_std_logic_vector(13189,24); manlo <= conv_std_logic_vector(48729882,28); WHEN "1100111001" => manhi <= conv_std_logic_vector(13205,24); manlo <= conv_std_logic_vector(52108362,28); WHEN "1100111010" => manhi <= conv_std_logic_vector(13221,24); manlo <= conv_std_logic_vector(55490941,28); WHEN "1100111011" => manhi <= conv_std_logic_vector(13237,24); manlo <= conv_std_logic_vector(58877620,28); WHEN "1100111100" => manhi <= conv_std_logic_vector(13253,24); manlo <= conv_std_logic_vector(62268398,28); WHEN "1100111101" => manhi <= conv_std_logic_vector(13269,24); manlo <= conv_std_logic_vector(65663275,28); WHEN "1100111110" => manhi <= conv_std_logic_vector(13285,24); manlo <= conv_std_logic_vector(69062251,28); WHEN "1100111111" => manhi <= conv_std_logic_vector(13301,24); manlo <= conv_std_logic_vector(72465326,28); WHEN "1101000000" => manhi <= conv_std_logic_vector(13317,24); manlo <= conv_std_logic_vector(75872501,28); WHEN "1101000001" => manhi <= conv_std_logic_vector(13333,24); manlo <= conv_std_logic_vector(79283775,28); WHEN "1101000010" => manhi <= conv_std_logic_vector(13349,24); manlo <= conv_std_logic_vector(82699148,28); WHEN "1101000011" => manhi <= conv_std_logic_vector(13365,24); manlo <= conv_std_logic_vector(86118621,28); WHEN "1101000100" => manhi <= conv_std_logic_vector(13381,24); manlo <= conv_std_logic_vector(89542193,28); WHEN "1101000101" => manhi <= conv_std_logic_vector(13397,24); manlo <= conv_std_logic_vector(92969864,28); WHEN "1101000110" => manhi <= conv_std_logic_vector(13413,24); manlo <= conv_std_logic_vector(96401634,28); WHEN "1101000111" => manhi <= conv_std_logic_vector(13429,24); manlo <= conv_std_logic_vector(99837503,28); WHEN "1101001000" => manhi <= conv_std_logic_vector(13445,24); manlo <= conv_std_logic_vector(103277472,28); WHEN "1101001001" => manhi <= conv_std_logic_vector(13461,24); manlo <= conv_std_logic_vector(106721540,28); WHEN "1101001010" => manhi <= conv_std_logic_vector(13477,24); manlo <= conv_std_logic_vector(110169708,28); WHEN "1101001011" => manhi <= conv_std_logic_vector(13493,24); manlo <= conv_std_logic_vector(113621975,28); WHEN "1101001100" => manhi <= conv_std_logic_vector(13509,24); manlo <= conv_std_logic_vector(117078341,28); WHEN "1101001101" => manhi <= conv_std_logic_vector(13525,24); manlo <= conv_std_logic_vector(120538806,28); WHEN "1101001110" => manhi <= conv_std_logic_vector(13541,24); manlo <= conv_std_logic_vector(124003370,28); WHEN "1101001111" => manhi <= conv_std_logic_vector(13557,24); manlo <= conv_std_logic_vector(127472034,28); WHEN "1101010000" => manhi <= conv_std_logic_vector(13573,24); manlo <= conv_std_logic_vector(130944798,28); WHEN "1101010001" => manhi <= conv_std_logic_vector(13589,24); manlo <= conv_std_logic_vector(134421660,28); WHEN "1101010010" => manhi <= conv_std_logic_vector(13605,24); manlo <= conv_std_logic_vector(137902622,28); WHEN "1101010011" => manhi <= conv_std_logic_vector(13621,24); manlo <= conv_std_logic_vector(141387683,28); WHEN "1101010100" => manhi <= conv_std_logic_vector(13637,24); manlo <= conv_std_logic_vector(144876844,28); WHEN "1101010101" => manhi <= conv_std_logic_vector(13653,24); manlo <= conv_std_logic_vector(148370104,28); WHEN "1101010110" => manhi <= conv_std_logic_vector(13669,24); manlo <= conv_std_logic_vector(151867463,28); WHEN "1101010111" => manhi <= conv_std_logic_vector(13685,24); manlo <= conv_std_logic_vector(155368921,28); WHEN "1101011000" => manhi <= conv_std_logic_vector(13701,24); manlo <= conv_std_logic_vector(158874479,28); WHEN "1101011001" => manhi <= conv_std_logic_vector(13717,24); manlo <= conv_std_logic_vector(162384136,28); WHEN "1101011010" => manhi <= conv_std_logic_vector(13733,24); manlo <= conv_std_logic_vector(165897893,28); WHEN "1101011011" => manhi <= conv_std_logic_vector(13749,24); manlo <= conv_std_logic_vector(169415749,28); WHEN "1101011100" => manhi <= conv_std_logic_vector(13765,24); manlo <= conv_std_logic_vector(172937704,28); WHEN "1101011101" => manhi <= conv_std_logic_vector(13781,24); manlo <= conv_std_logic_vector(176463758,28); WHEN "1101011110" => manhi <= conv_std_logic_vector(13797,24); manlo <= conv_std_logic_vector(179993912,28); WHEN "1101011111" => manhi <= conv_std_logic_vector(13813,24); manlo <= conv_std_logic_vector(183528166,28); WHEN "1101100000" => manhi <= conv_std_logic_vector(13829,24); manlo <= conv_std_logic_vector(187066519,28); WHEN "1101100001" => manhi <= conv_std_logic_vector(13845,24); manlo <= conv_std_logic_vector(190608971,28); WHEN "1101100010" => manhi <= conv_std_logic_vector(13861,24); manlo <= conv_std_logic_vector(194155522,28); WHEN "1101100011" => manhi <= conv_std_logic_vector(13877,24); manlo <= conv_std_logic_vector(197706173,28); WHEN "1101100100" => manhi <= conv_std_logic_vector(13893,24); manlo <= conv_std_logic_vector(201260923,28); WHEN "1101100101" => manhi <= conv_std_logic_vector(13909,24); manlo <= conv_std_logic_vector(204819773,28); WHEN "1101100110" => manhi <= conv_std_logic_vector(13925,24); manlo <= conv_std_logic_vector(208382722,28); WHEN "1101100111" => manhi <= conv_std_logic_vector(13941,24); manlo <= conv_std_logic_vector(211949770,28); WHEN "1101101000" => manhi <= conv_std_logic_vector(13957,24); manlo <= conv_std_logic_vector(215520918,28); WHEN "1101101001" => manhi <= conv_std_logic_vector(13973,24); manlo <= conv_std_logic_vector(219096165,28); WHEN "1101101010" => manhi <= conv_std_logic_vector(13989,24); manlo <= conv_std_logic_vector(222675512,28); WHEN "1101101011" => manhi <= conv_std_logic_vector(14005,24); manlo <= conv_std_logic_vector(226258958,28); WHEN "1101101100" => manhi <= conv_std_logic_vector(14021,24); manlo <= conv_std_logic_vector(229846504,28); WHEN "1101101101" => manhi <= conv_std_logic_vector(14037,24); manlo <= conv_std_logic_vector(233438148,28); WHEN "1101101110" => manhi <= conv_std_logic_vector(14053,24); manlo <= conv_std_logic_vector(237033893,28); WHEN "1101101111" => manhi <= conv_std_logic_vector(14069,24); manlo <= conv_std_logic_vector(240633737,28); WHEN "1101110000" => manhi <= conv_std_logic_vector(14085,24); manlo <= conv_std_logic_vector(244237680,28); WHEN "1101110001" => manhi <= conv_std_logic_vector(14101,24); manlo <= conv_std_logic_vector(247845722,28); WHEN "1101110010" => manhi <= conv_std_logic_vector(14117,24); manlo <= conv_std_logic_vector(251457864,28); WHEN "1101110011" => manhi <= conv_std_logic_vector(14133,24); manlo <= conv_std_logic_vector(255074106,28); WHEN "1101110100" => manhi <= conv_std_logic_vector(14149,24); manlo <= conv_std_logic_vector(258694447,28); WHEN "1101110101" => manhi <= conv_std_logic_vector(14165,24); manlo <= conv_std_logic_vector(262318887,28); WHEN "1101110110" => manhi <= conv_std_logic_vector(14181,24); manlo <= conv_std_logic_vector(265947427,28); WHEN "1101110111" => manhi <= conv_std_logic_vector(14198,24); manlo <= conv_std_logic_vector(1144611,28); WHEN "1101111000" => manhi <= conv_std_logic_vector(14214,24); manlo <= conv_std_logic_vector(4781350,28); WHEN "1101111001" => manhi <= conv_std_logic_vector(14230,24); manlo <= conv_std_logic_vector(8422188,28); WHEN "1101111010" => manhi <= conv_std_logic_vector(14246,24); manlo <= conv_std_logic_vector(12067126,28); WHEN "1101111011" => manhi <= conv_std_logic_vector(14262,24); manlo <= conv_std_logic_vector(15716163,28); WHEN "1101111100" => manhi <= conv_std_logic_vector(14278,24); manlo <= conv_std_logic_vector(19369300,28); WHEN "1101111101" => manhi <= conv_std_logic_vector(14294,24); manlo <= conv_std_logic_vector(23026536,28); WHEN "1101111110" => manhi <= conv_std_logic_vector(14310,24); manlo <= conv_std_logic_vector(26687871,28); WHEN "1101111111" => manhi <= conv_std_logic_vector(14326,24); manlo <= conv_std_logic_vector(30353307,28); WHEN "1110000000" => manhi <= conv_std_logic_vector(14342,24); manlo <= conv_std_logic_vector(34022841,28); WHEN "1110000001" => manhi <= conv_std_logic_vector(14358,24); manlo <= conv_std_logic_vector(37696476,28); WHEN "1110000010" => manhi <= conv_std_logic_vector(14374,24); manlo <= conv_std_logic_vector(41374209,28); WHEN "1110000011" => manhi <= conv_std_logic_vector(14390,24); manlo <= conv_std_logic_vector(45056043,28); WHEN "1110000100" => manhi <= conv_std_logic_vector(14406,24); manlo <= conv_std_logic_vector(48741975,28); WHEN "1110000101" => manhi <= conv_std_logic_vector(14422,24); manlo <= conv_std_logic_vector(52432007,28); WHEN "1110000110" => manhi <= conv_std_logic_vector(14438,24); manlo <= conv_std_logic_vector(56126139,28); WHEN "1110000111" => manhi <= conv_std_logic_vector(14454,24); manlo <= conv_std_logic_vector(59824371,28); WHEN "1110001000" => manhi <= conv_std_logic_vector(14470,24); manlo <= conv_std_logic_vector(63526701,28); WHEN "1110001001" => manhi <= conv_std_logic_vector(14486,24); manlo <= conv_std_logic_vector(67233132,28); WHEN "1110001010" => manhi <= conv_std_logic_vector(14502,24); manlo <= conv_std_logic_vector(70943662,28); WHEN "1110001011" => manhi <= conv_std_logic_vector(14518,24); manlo <= conv_std_logic_vector(74658291,28); WHEN "1110001100" => manhi <= conv_std_logic_vector(14534,24); manlo <= conv_std_logic_vector(78377020,28); WHEN "1110001101" => manhi <= conv_std_logic_vector(14550,24); manlo <= conv_std_logic_vector(82099849,28); WHEN "1110001110" => manhi <= conv_std_logic_vector(14566,24); manlo <= conv_std_logic_vector(85826777,28); WHEN "1110001111" => manhi <= conv_std_logic_vector(14582,24); manlo <= conv_std_logic_vector(89557804,28); WHEN "1110010000" => manhi <= conv_std_logic_vector(14598,24); manlo <= conv_std_logic_vector(93292931,28); WHEN "1110010001" => manhi <= conv_std_logic_vector(14614,24); manlo <= conv_std_logic_vector(97032158,28); WHEN "1110010010" => manhi <= conv_std_logic_vector(14630,24); manlo <= conv_std_logic_vector(100775484,28); WHEN "1110010011" => manhi <= conv_std_logic_vector(14646,24); manlo <= conv_std_logic_vector(104522910,28); WHEN "1110010100" => manhi <= conv_std_logic_vector(14662,24); manlo <= conv_std_logic_vector(108274436,28); WHEN "1110010101" => manhi <= conv_std_logic_vector(14678,24); manlo <= conv_std_logic_vector(112030061,28); WHEN "1110010110" => manhi <= conv_std_logic_vector(14694,24); manlo <= conv_std_logic_vector(115789786,28); WHEN "1110010111" => manhi <= conv_std_logic_vector(14710,24); manlo <= conv_std_logic_vector(119553610,28); WHEN "1110011000" => manhi <= conv_std_logic_vector(14726,24); manlo <= conv_std_logic_vector(123321534,28); WHEN "1110011001" => manhi <= conv_std_logic_vector(14742,24); manlo <= conv_std_logic_vector(127093557,28); WHEN "1110011010" => manhi <= conv_std_logic_vector(14758,24); manlo <= conv_std_logic_vector(130869680,28); WHEN "1110011011" => manhi <= conv_std_logic_vector(14774,24); manlo <= conv_std_logic_vector(134649903,28); WHEN "1110011100" => manhi <= conv_std_logic_vector(14790,24); manlo <= conv_std_logic_vector(138434225,28); WHEN "1110011101" => manhi <= conv_std_logic_vector(14806,24); manlo <= conv_std_logic_vector(142222647,28); WHEN "1110011110" => manhi <= conv_std_logic_vector(14822,24); manlo <= conv_std_logic_vector(146015168,28); WHEN "1110011111" => manhi <= conv_std_logic_vector(14838,24); manlo <= conv_std_logic_vector(149811789,28); WHEN "1110100000" => manhi <= conv_std_logic_vector(14854,24); manlo <= conv_std_logic_vector(153612510,28); WHEN "1110100001" => manhi <= conv_std_logic_vector(14870,24); manlo <= conv_std_logic_vector(157417330,28); WHEN "1110100010" => manhi <= conv_std_logic_vector(14886,24); manlo <= conv_std_logic_vector(161226250,28); WHEN "1110100011" => manhi <= conv_std_logic_vector(14902,24); manlo <= conv_std_logic_vector(165039270,28); WHEN "1110100100" => manhi <= conv_std_logic_vector(14918,24); manlo <= conv_std_logic_vector(168856389,28); WHEN "1110100101" => manhi <= conv_std_logic_vector(14934,24); manlo <= conv_std_logic_vector(172677608,28); WHEN "1110100110" => manhi <= conv_std_logic_vector(14950,24); manlo <= conv_std_logic_vector(176502926,28); WHEN "1110100111" => manhi <= conv_std_logic_vector(14966,24); manlo <= conv_std_logic_vector(180332344,28); WHEN "1110101000" => manhi <= conv_std_logic_vector(14982,24); manlo <= conv_std_logic_vector(184165862,28); WHEN "1110101001" => manhi <= conv_std_logic_vector(14998,24); manlo <= conv_std_logic_vector(188003480,28); WHEN "1110101010" => manhi <= conv_std_logic_vector(15014,24); manlo <= conv_std_logic_vector(191845197,28); WHEN "1110101011" => manhi <= conv_std_logic_vector(15030,24); manlo <= conv_std_logic_vector(195691014,28); WHEN "1110101100" => manhi <= conv_std_logic_vector(15046,24); manlo <= conv_std_logic_vector(199540930,28); WHEN "1110101101" => manhi <= conv_std_logic_vector(15062,24); manlo <= conv_std_logic_vector(203394946,28); WHEN "1110101110" => manhi <= conv_std_logic_vector(15078,24); manlo <= conv_std_logic_vector(207253062,28); WHEN "1110101111" => manhi <= conv_std_logic_vector(15094,24); manlo <= conv_std_logic_vector(211115277,28); WHEN "1110110000" => manhi <= conv_std_logic_vector(15110,24); manlo <= conv_std_logic_vector(214981593,28); WHEN "1110110001" => manhi <= conv_std_logic_vector(15126,24); manlo <= conv_std_logic_vector(218852007,28); WHEN "1110110010" => manhi <= conv_std_logic_vector(15142,24); manlo <= conv_std_logic_vector(222726522,28); WHEN "1110110011" => manhi <= conv_std_logic_vector(15158,24); manlo <= conv_std_logic_vector(226605136,28); WHEN "1110110100" => manhi <= conv_std_logic_vector(15174,24); manlo <= conv_std_logic_vector(230487850,28); WHEN "1110110101" => manhi <= conv_std_logic_vector(15190,24); manlo <= conv_std_logic_vector(234374664,28); WHEN "1110110110" => manhi <= conv_std_logic_vector(15206,24); manlo <= conv_std_logic_vector(238265577,28); WHEN "1110110111" => manhi <= conv_std_logic_vector(15222,24); manlo <= conv_std_logic_vector(242160590,28); WHEN "1110111000" => manhi <= conv_std_logic_vector(15238,24); manlo <= conv_std_logic_vector(246059703,28); WHEN "1110111001" => manhi <= conv_std_logic_vector(15254,24); manlo <= conv_std_logic_vector(249962916,28); WHEN "1110111010" => manhi <= conv_std_logic_vector(15270,24); manlo <= conv_std_logic_vector(253870228,28); WHEN "1110111011" => manhi <= conv_std_logic_vector(15286,24); manlo <= conv_std_logic_vector(257781640,28); WHEN "1110111100" => manhi <= conv_std_logic_vector(15302,24); manlo <= conv_std_logic_vector(261697152,28); WHEN "1110111101" => manhi <= conv_std_logic_vector(15318,24); manlo <= conv_std_logic_vector(265616763,28); WHEN "1110111110" => manhi <= conv_std_logic_vector(15335,24); manlo <= conv_std_logic_vector(1105018,28); WHEN "1110111111" => manhi <= conv_std_logic_vector(15351,24); manlo <= conv_std_logic_vector(5032829,28); WHEN "1111000000" => manhi <= conv_std_logic_vector(15367,24); manlo <= conv_std_logic_vector(8964740,28); WHEN "1111000001" => manhi <= conv_std_logic_vector(15383,24); manlo <= conv_std_logic_vector(12900750,28); WHEN "1111000010" => manhi <= conv_std_logic_vector(15399,24); manlo <= conv_std_logic_vector(16840860,28); WHEN "1111000011" => manhi <= conv_std_logic_vector(15415,24); manlo <= conv_std_logic_vector(20785070,28); WHEN "1111000100" => manhi <= conv_std_logic_vector(15431,24); manlo <= conv_std_logic_vector(24733380,28); WHEN "1111000101" => manhi <= conv_std_logic_vector(15447,24); manlo <= conv_std_logic_vector(28685790,28); WHEN "1111000110" => manhi <= conv_std_logic_vector(15463,24); manlo <= conv_std_logic_vector(32642299,28); WHEN "1111000111" => manhi <= conv_std_logic_vector(15479,24); manlo <= conv_std_logic_vector(36602908,28); WHEN "1111001000" => manhi <= conv_std_logic_vector(15495,24); manlo <= conv_std_logic_vector(40567617,28); WHEN "1111001001" => manhi <= conv_std_logic_vector(15511,24); manlo <= conv_std_logic_vector(44536425,28); WHEN "1111001010" => manhi <= conv_std_logic_vector(15527,24); manlo <= conv_std_logic_vector(48509334,28); WHEN "1111001011" => manhi <= conv_std_logic_vector(15543,24); manlo <= conv_std_logic_vector(52486342,28); WHEN "1111001100" => manhi <= conv_std_logic_vector(15559,24); manlo <= conv_std_logic_vector(56467450,28); WHEN "1111001101" => manhi <= conv_std_logic_vector(15575,24); manlo <= conv_std_logic_vector(60452657,28); WHEN "1111001110" => manhi <= conv_std_logic_vector(15591,24); manlo <= conv_std_logic_vector(64441965,28); WHEN "1111001111" => manhi <= conv_std_logic_vector(15607,24); manlo <= conv_std_logic_vector(68435372,28); WHEN "1111010000" => manhi <= conv_std_logic_vector(15623,24); manlo <= conv_std_logic_vector(72432880,28); WHEN "1111010001" => manhi <= conv_std_logic_vector(15639,24); manlo <= conv_std_logic_vector(76434487,28); WHEN "1111010010" => manhi <= conv_std_logic_vector(15655,24); manlo <= conv_std_logic_vector(80440193,28); WHEN "1111010011" => manhi <= conv_std_logic_vector(15671,24); manlo <= conv_std_logic_vector(84450000,28); WHEN "1111010100" => manhi <= conv_std_logic_vector(15687,24); manlo <= conv_std_logic_vector(88463906,28); WHEN "1111010101" => manhi <= conv_std_logic_vector(15703,24); manlo <= conv_std_logic_vector(92481913,28); WHEN "1111010110" => manhi <= conv_std_logic_vector(15719,24); manlo <= conv_std_logic_vector(96504019,28); WHEN "1111010111" => manhi <= conv_std_logic_vector(15735,24); manlo <= conv_std_logic_vector(100530225,28); WHEN "1111011000" => manhi <= conv_std_logic_vector(15751,24); manlo <= conv_std_logic_vector(104560531,28); WHEN "1111011001" => manhi <= conv_std_logic_vector(15767,24); manlo <= conv_std_logic_vector(108594936,28); WHEN "1111011010" => manhi <= conv_std_logic_vector(15783,24); manlo <= conv_std_logic_vector(112633442,28); WHEN "1111011011" => manhi <= conv_std_logic_vector(15799,24); manlo <= conv_std_logic_vector(116676047,28); WHEN "1111011100" => manhi <= conv_std_logic_vector(15815,24); manlo <= conv_std_logic_vector(120722752,28); WHEN "1111011101" => manhi <= conv_std_logic_vector(15831,24); manlo <= conv_std_logic_vector(124773557,28); WHEN "1111011110" => manhi <= conv_std_logic_vector(15847,24); manlo <= conv_std_logic_vector(128828462,28); WHEN "1111011111" => manhi <= conv_std_logic_vector(15863,24); manlo <= conv_std_logic_vector(132887467,28); WHEN "1111100000" => manhi <= conv_std_logic_vector(15879,24); manlo <= conv_std_logic_vector(136950572,28); WHEN "1111100001" => manhi <= conv_std_logic_vector(15895,24); manlo <= conv_std_logic_vector(141017776,28); WHEN "1111100010" => manhi <= conv_std_logic_vector(15911,24); manlo <= conv_std_logic_vector(145089081,28); WHEN "1111100011" => manhi <= conv_std_logic_vector(15927,24); manlo <= conv_std_logic_vector(149164485,28); WHEN "1111100100" => manhi <= conv_std_logic_vector(15943,24); manlo <= conv_std_logic_vector(153243989,28); WHEN "1111100101" => manhi <= conv_std_logic_vector(15959,24); manlo <= conv_std_logic_vector(157327593,28); WHEN "1111100110" => manhi <= conv_std_logic_vector(15975,24); manlo <= conv_std_logic_vector(161415297,28); WHEN "1111100111" => manhi <= conv_std_logic_vector(15991,24); manlo <= conv_std_logic_vector(165507101,28); WHEN "1111101000" => manhi <= conv_std_logic_vector(16007,24); manlo <= conv_std_logic_vector(169603005,28); WHEN "1111101001" => manhi <= conv_std_logic_vector(16023,24); manlo <= conv_std_logic_vector(173703009,28); WHEN "1111101010" => manhi <= conv_std_logic_vector(16039,24); manlo <= conv_std_logic_vector(177807112,28); WHEN "1111101011" => manhi <= conv_std_logic_vector(16055,24); manlo <= conv_std_logic_vector(181915316,28); WHEN "1111101100" => manhi <= conv_std_logic_vector(16071,24); manlo <= conv_std_logic_vector(186027619,28); WHEN "1111101101" => manhi <= conv_std_logic_vector(16087,24); manlo <= conv_std_logic_vector(190144023,28); WHEN "1111101110" => manhi <= conv_std_logic_vector(16103,24); manlo <= conv_std_logic_vector(194264526,28); WHEN "1111101111" => manhi <= conv_std_logic_vector(16119,24); manlo <= conv_std_logic_vector(198389129,28); WHEN "1111110000" => manhi <= conv_std_logic_vector(16135,24); manlo <= conv_std_logic_vector(202517832,28); WHEN "1111110001" => manhi <= conv_std_logic_vector(16151,24); manlo <= conv_std_logic_vector(206650635,28); WHEN "1111110010" => manhi <= conv_std_logic_vector(16167,24); manlo <= conv_std_logic_vector(210787538,28); WHEN "1111110011" => manhi <= conv_std_logic_vector(16183,24); manlo <= conv_std_logic_vector(214928541,28); WHEN "1111110100" => manhi <= conv_std_logic_vector(16199,24); manlo <= conv_std_logic_vector(219073644,28); WHEN "1111110101" => manhi <= conv_std_logic_vector(16215,24); manlo <= conv_std_logic_vector(223222847,28); WHEN "1111110110" => manhi <= conv_std_logic_vector(16231,24); manlo <= conv_std_logic_vector(227376150,28); WHEN "1111110111" => manhi <= conv_std_logic_vector(16247,24); manlo <= conv_std_logic_vector(231533553,28); WHEN "1111111000" => manhi <= conv_std_logic_vector(16263,24); manlo <= conv_std_logic_vector(235695056,28); WHEN "1111111001" => manhi <= conv_std_logic_vector(16279,24); manlo <= conv_std_logic_vector(239860659,28); WHEN "1111111010" => manhi <= conv_std_logic_vector(16295,24); manlo <= conv_std_logic_vector(244030361,28); WHEN "1111111011" => manhi <= conv_std_logic_vector(16311,24); manlo <= conv_std_logic_vector(248204164,28); WHEN "1111111100" => manhi <= conv_std_logic_vector(16327,24); manlo <= conv_std_logic_vector(252382067,28); WHEN "1111111101" => manhi <= conv_std_logic_vector(16343,24); manlo <= conv_std_logic_vector(256564069,28); WHEN "1111111110" => manhi <= conv_std_logic_vector(16359,24); manlo <= conv_std_logic_vector(260750172,28); WHEN "1111111111" => manhi <= conv_std_logic_vector(16375,24); manlo <= conv_std_logic_vector(264940375,28); WHEN others => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); END CASE; END PROCESS; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** DP_EXPLUT20.VHD *** --*** *** --*** Function: Look Up Table - EXP() *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 18/02/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY dp_explut20 IS PORT ( add : IN STD_LOGIC_VECTOR (10 DOWNTO 1); manhi : OUT STD_LOGIC_VECTOR (24 DOWNTO 1); manlo : OUT STD_LOGIC_VECTOR (28 DOWNTO 1) ); END dp_explut20; ARCHITECTURE rtl OF dp_explut20 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "0000000000" => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); WHEN "0000000001" => manhi <= conv_std_logic_vector(16,24); manlo <= conv_std_logic_vector(2048,28); WHEN "0000000010" => manhi <= conv_std_logic_vector(32,24); manlo <= conv_std_logic_vector(8192,28); WHEN "0000000011" => manhi <= conv_std_logic_vector(48,24); manlo <= conv_std_logic_vector(18432,28); WHEN "0000000100" => manhi <= conv_std_logic_vector(64,24); manlo <= conv_std_logic_vector(32768,28); WHEN "0000000101" => manhi <= conv_std_logic_vector(80,24); manlo <= conv_std_logic_vector(51200,28); WHEN "0000000110" => manhi <= conv_std_logic_vector(96,24); manlo <= conv_std_logic_vector(73728,28); WHEN "0000000111" => manhi <= conv_std_logic_vector(112,24); manlo <= conv_std_logic_vector(100352,28); WHEN "0000001000" => manhi <= conv_std_logic_vector(128,24); manlo <= conv_std_logic_vector(131072,28); WHEN "0000001001" => manhi <= conv_std_logic_vector(144,24); manlo <= conv_std_logic_vector(165888,28); WHEN "0000001010" => manhi <= conv_std_logic_vector(160,24); manlo <= conv_std_logic_vector(204801,28); WHEN "0000001011" => manhi <= conv_std_logic_vector(176,24); manlo <= conv_std_logic_vector(247809,28); WHEN "0000001100" => manhi <= conv_std_logic_vector(192,24); manlo <= conv_std_logic_vector(294913,28); WHEN "0000001101" => manhi <= conv_std_logic_vector(208,24); manlo <= conv_std_logic_vector(346113,28); WHEN "0000001110" => manhi <= conv_std_logic_vector(224,24); manlo <= conv_std_logic_vector(401410,28); WHEN "0000001111" => manhi <= conv_std_logic_vector(240,24); manlo <= conv_std_logic_vector(460802,28); WHEN "0000010000" => manhi <= conv_std_logic_vector(256,24); manlo <= conv_std_logic_vector(524291,28); WHEN "0000010001" => manhi <= conv_std_logic_vector(272,24); manlo <= conv_std_logic_vector(591875,28); WHEN "0000010010" => manhi <= conv_std_logic_vector(288,24); manlo <= conv_std_logic_vector(663556,28); WHEN "0000010011" => manhi <= conv_std_logic_vector(304,24); manlo <= conv_std_logic_vector(739332,28); WHEN "0000010100" => manhi <= conv_std_logic_vector(320,24); manlo <= conv_std_logic_vector(819205,28); WHEN "0000010101" => manhi <= conv_std_logic_vector(336,24); manlo <= conv_std_logic_vector(903174,28); WHEN "0000010110" => manhi <= conv_std_logic_vector(352,24); manlo <= conv_std_logic_vector(991239,28); WHEN "0000010111" => manhi <= conv_std_logic_vector(368,24); manlo <= conv_std_logic_vector(1083400,28); WHEN "0000011000" => manhi <= conv_std_logic_vector(384,24); manlo <= conv_std_logic_vector(1179657,28); WHEN "0000011001" => manhi <= conv_std_logic_vector(400,24); manlo <= conv_std_logic_vector(1280010,28); WHEN "0000011010" => manhi <= conv_std_logic_vector(416,24); manlo <= conv_std_logic_vector(1384459,28); WHEN "0000011011" => manhi <= conv_std_logic_vector(432,24); manlo <= conv_std_logic_vector(1493005,28); WHEN "0000011100" => manhi <= conv_std_logic_vector(448,24); manlo <= conv_std_logic_vector(1605646,28); WHEN "0000011101" => manhi <= conv_std_logic_vector(464,24); manlo <= conv_std_logic_vector(1722384,28); WHEN "0000011110" => manhi <= conv_std_logic_vector(480,24); manlo <= conv_std_logic_vector(1843218,28); WHEN "0000011111" => manhi <= conv_std_logic_vector(496,24); manlo <= conv_std_logic_vector(1968147,28); WHEN "0000100000" => manhi <= conv_std_logic_vector(512,24); manlo <= conv_std_logic_vector(2097173,28); WHEN "0000100001" => manhi <= conv_std_logic_vector(528,24); manlo <= conv_std_logic_vector(2230295,28); WHEN "0000100010" => manhi <= conv_std_logic_vector(544,24); manlo <= conv_std_logic_vector(2367514,28); WHEN "0000100011" => manhi <= conv_std_logic_vector(560,24); manlo <= conv_std_logic_vector(2508828,28); WHEN "0000100100" => manhi <= conv_std_logic_vector(576,24); manlo <= conv_std_logic_vector(2654238,28); WHEN "0000100101" => manhi <= conv_std_logic_vector(592,24); manlo <= conv_std_logic_vector(2803745,28); WHEN "0000100110" => manhi <= conv_std_logic_vector(608,24); manlo <= conv_std_logic_vector(2957348,28); WHEN "0000100111" => manhi <= conv_std_logic_vector(624,24); manlo <= conv_std_logic_vector(3115047,28); WHEN "0000101000" => manhi <= conv_std_logic_vector(640,24); manlo <= conv_std_logic_vector(3276842,28); WHEN "0000101001" => manhi <= conv_std_logic_vector(656,24); manlo <= conv_std_logic_vector(3442733,28); WHEN "0000101010" => manhi <= conv_std_logic_vector(672,24); manlo <= conv_std_logic_vector(3612720,28); WHEN "0000101011" => manhi <= conv_std_logic_vector(688,24); manlo <= conv_std_logic_vector(3786804,28); WHEN "0000101100" => manhi <= conv_std_logic_vector(704,24); manlo <= conv_std_logic_vector(3964983,28); WHEN "0000101101" => manhi <= conv_std_logic_vector(720,24); manlo <= conv_std_logic_vector(4147259,28); WHEN "0000101110" => manhi <= conv_std_logic_vector(736,24); manlo <= conv_std_logic_vector(4333631,28); WHEN "0000101111" => manhi <= conv_std_logic_vector(752,24); manlo <= conv_std_logic_vector(4524100,28); WHEN "0000110000" => manhi <= conv_std_logic_vector(768,24); manlo <= conv_std_logic_vector(4718664,28); WHEN "0000110001" => manhi <= conv_std_logic_vector(784,24); manlo <= conv_std_logic_vector(4917325,28); WHEN "0000110010" => manhi <= conv_std_logic_vector(800,24); manlo <= conv_std_logic_vector(5120081,28); WHEN "0000110011" => manhi <= conv_std_logic_vector(816,24); manlo <= conv_std_logic_vector(5326934,28); WHEN "0000110100" => manhi <= conv_std_logic_vector(832,24); manlo <= conv_std_logic_vector(5537884,28); WHEN "0000110101" => manhi <= conv_std_logic_vector(848,24); manlo <= conv_std_logic_vector(5752929,28); WHEN "0000110110" => manhi <= conv_std_logic_vector(864,24); manlo <= conv_std_logic_vector(5972071,28); WHEN "0000110111" => manhi <= conv_std_logic_vector(880,24); manlo <= conv_std_logic_vector(6195308,28); WHEN "0000111000" => manhi <= conv_std_logic_vector(896,24); manlo <= conv_std_logic_vector(6422642,28); WHEN "0000111001" => manhi <= conv_std_logic_vector(912,24); manlo <= conv_std_logic_vector(6654073,28); WHEN "0000111010" => manhi <= conv_std_logic_vector(928,24); manlo <= conv_std_logic_vector(6889599,28); WHEN "0000111011" => manhi <= conv_std_logic_vector(944,24); manlo <= conv_std_logic_vector(7129222,28); WHEN "0000111100" => manhi <= conv_std_logic_vector(960,24); manlo <= conv_std_logic_vector(7372941,28); WHEN "0000111101" => manhi <= conv_std_logic_vector(976,24); manlo <= conv_std_logic_vector(7620756,28); WHEN "0000111110" => manhi <= conv_std_logic_vector(992,24); manlo <= conv_std_logic_vector(7872667,28); WHEN "0000111111" => manhi <= conv_std_logic_vector(1008,24); manlo <= conv_std_logic_vector(8128675,28); WHEN "0001000000" => manhi <= conv_std_logic_vector(1024,24); manlo <= conv_std_logic_vector(8388779,28); WHEN "0001000001" => manhi <= conv_std_logic_vector(1040,24); manlo <= conv_std_logic_vector(8652979,28); WHEN "0001000010" => manhi <= conv_std_logic_vector(1056,24); manlo <= conv_std_logic_vector(8921275,28); WHEN "0001000011" => manhi <= conv_std_logic_vector(1072,24); manlo <= conv_std_logic_vector(9193668,28); WHEN "0001000100" => manhi <= conv_std_logic_vector(1088,24); manlo <= conv_std_logic_vector(9470157,28); WHEN "0001000101" => manhi <= conv_std_logic_vector(1104,24); manlo <= conv_std_logic_vector(9750742,28); WHEN "0001000110" => manhi <= conv_std_logic_vector(1120,24); manlo <= conv_std_logic_vector(10035423,28); WHEN "0001000111" => manhi <= conv_std_logic_vector(1136,24); manlo <= conv_std_logic_vector(10324201,28); WHEN "0001001000" => manhi <= conv_std_logic_vector(1152,24); manlo <= conv_std_logic_vector(10617075,28); WHEN "0001001001" => manhi <= conv_std_logic_vector(1168,24); manlo <= conv_std_logic_vector(10914045,28); WHEN "0001001010" => manhi <= conv_std_logic_vector(1184,24); manlo <= conv_std_logic_vector(11215112,28); WHEN "0001001011" => manhi <= conv_std_logic_vector(1200,24); manlo <= conv_std_logic_vector(11520275,28); WHEN "0001001100" => manhi <= conv_std_logic_vector(1216,24); manlo <= conv_std_logic_vector(11829534,28); WHEN "0001001101" => manhi <= conv_std_logic_vector(1232,24); manlo <= conv_std_logic_vector(12142889,28); WHEN "0001001110" => manhi <= conv_std_logic_vector(1248,24); manlo <= conv_std_logic_vector(12460341,28); WHEN "0001001111" => manhi <= conv_std_logic_vector(1264,24); manlo <= conv_std_logic_vector(12781889,28); WHEN "0001010000" => manhi <= conv_std_logic_vector(1280,24); manlo <= conv_std_logic_vector(13107533,28); WHEN "0001010001" => manhi <= conv_std_logic_vector(1296,24); manlo <= conv_std_logic_vector(13437274,28); WHEN "0001010010" => manhi <= conv_std_logic_vector(1312,24); manlo <= conv_std_logic_vector(13771111,28); WHEN "0001010011" => manhi <= conv_std_logic_vector(1328,24); manlo <= conv_std_logic_vector(14109044,28); WHEN "0001010100" => manhi <= conv_std_logic_vector(1344,24); manlo <= conv_std_logic_vector(14451074,28); WHEN "0001010101" => manhi <= conv_std_logic_vector(1360,24); manlo <= conv_std_logic_vector(14797200,28); WHEN "0001010110" => manhi <= conv_std_logic_vector(1376,24); manlo <= conv_std_logic_vector(15147422,28); WHEN "0001010111" => manhi <= conv_std_logic_vector(1392,24); manlo <= conv_std_logic_vector(15501741,28); WHEN "0001011000" => manhi <= conv_std_logic_vector(1408,24); manlo <= conv_std_logic_vector(15860156,28); WHEN "0001011001" => manhi <= conv_std_logic_vector(1424,24); manlo <= conv_std_logic_vector(16222667,28); WHEN "0001011010" => manhi <= conv_std_logic_vector(1440,24); manlo <= conv_std_logic_vector(16589275,28); WHEN "0001011011" => manhi <= conv_std_logic_vector(1456,24); manlo <= conv_std_logic_vector(16959979,28); WHEN "0001011100" => manhi <= conv_std_logic_vector(1472,24); manlo <= conv_std_logic_vector(17334779,28); WHEN "0001011101" => manhi <= conv_std_logic_vector(1488,24); manlo <= conv_std_logic_vector(17713676,28); WHEN "0001011110" => manhi <= conv_std_logic_vector(1504,24); manlo <= conv_std_logic_vector(18096669,28); WHEN "0001011111" => manhi <= conv_std_logic_vector(1520,24); manlo <= conv_std_logic_vector(18483758,28); WHEN "0001100000" => manhi <= conv_std_logic_vector(1536,24); manlo <= conv_std_logic_vector(18874944,28); WHEN "0001100001" => manhi <= conv_std_logic_vector(1552,24); manlo <= conv_std_logic_vector(19270226,28); WHEN "0001100010" => manhi <= conv_std_logic_vector(1568,24); manlo <= conv_std_logic_vector(19669605,28); WHEN "0001100011" => manhi <= conv_std_logic_vector(1584,24); manlo <= conv_std_logic_vector(20073080,28); WHEN "0001100100" => manhi <= conv_std_logic_vector(1600,24); manlo <= conv_std_logic_vector(20480651,28); WHEN "0001100101" => manhi <= conv_std_logic_vector(1616,24); manlo <= conv_std_logic_vector(20892319,28); WHEN "0001100110" => manhi <= conv_std_logic_vector(1632,24); manlo <= conv_std_logic_vector(21308083,28); WHEN "0001100111" => manhi <= conv_std_logic_vector(1648,24); manlo <= conv_std_logic_vector(21727943,28); WHEN "0001101000" => manhi <= conv_std_logic_vector(1664,24); manlo <= conv_std_logic_vector(22151900,28); WHEN "0001101001" => manhi <= conv_std_logic_vector(1680,24); manlo <= conv_std_logic_vector(22579954,28); WHEN "0001101010" => manhi <= conv_std_logic_vector(1696,24); manlo <= conv_std_logic_vector(23012103,28); WHEN "0001101011" => manhi <= conv_std_logic_vector(1712,24); manlo <= conv_std_logic_vector(23448350,28); WHEN "0001101100" => manhi <= conv_std_logic_vector(1728,24); manlo <= conv_std_logic_vector(23888692,28); WHEN "0001101101" => manhi <= conv_std_logic_vector(1744,24); manlo <= conv_std_logic_vector(24333131,28); WHEN "0001101110" => manhi <= conv_std_logic_vector(1760,24); manlo <= conv_std_logic_vector(24781667,28); WHEN "0001101111" => manhi <= conv_std_logic_vector(1776,24); manlo <= conv_std_logic_vector(25234298,28); WHEN "0001110000" => manhi <= conv_std_logic_vector(1792,24); manlo <= conv_std_logic_vector(25691027,28); WHEN "0001110001" => manhi <= conv_std_logic_vector(1808,24); manlo <= conv_std_logic_vector(26151851,28); WHEN "0001110010" => manhi <= conv_std_logic_vector(1824,24); manlo <= conv_std_logic_vector(26616773,28); WHEN "0001110011" => manhi <= conv_std_logic_vector(1840,24); manlo <= conv_std_logic_vector(27085790,28); WHEN "0001110100" => manhi <= conv_std_logic_vector(1856,24); manlo <= conv_std_logic_vector(27558904,28); WHEN "0001110101" => manhi <= conv_std_logic_vector(1872,24); manlo <= conv_std_logic_vector(28036115,28); WHEN "0001110110" => manhi <= conv_std_logic_vector(1888,24); manlo <= conv_std_logic_vector(28517422,28); WHEN "0001110111" => manhi <= conv_std_logic_vector(1904,24); manlo <= conv_std_logic_vector(29002825,28); WHEN "0001111000" => manhi <= conv_std_logic_vector(1920,24); manlo <= conv_std_logic_vector(29492325,28); WHEN "0001111001" => manhi <= conv_std_logic_vector(1936,24); manlo <= conv_std_logic_vector(29985921,28); WHEN "0001111010" => manhi <= conv_std_logic_vector(1952,24); manlo <= conv_std_logic_vector(30483614,28); WHEN "0001111011" => manhi <= conv_std_logic_vector(1968,24); manlo <= conv_std_logic_vector(30985404,28); WHEN "0001111100" => manhi <= conv_std_logic_vector(1984,24); manlo <= conv_std_logic_vector(31491289,28); WHEN "0001111101" => manhi <= conv_std_logic_vector(2000,24); manlo <= conv_std_logic_vector(32001272,28); WHEN "0001111110" => manhi <= conv_std_logic_vector(2016,24); manlo <= conv_std_logic_vector(32515350,28); WHEN "0001111111" => manhi <= conv_std_logic_vector(2032,24); manlo <= conv_std_logic_vector(33033526,28); WHEN "0010000000" => manhi <= conv_std_logic_vector(2048,24); manlo <= conv_std_logic_vector(33555797,28); WHEN "0010000001" => manhi <= conv_std_logic_vector(2064,24); manlo <= conv_std_logic_vector(34082166,28); WHEN "0010000010" => manhi <= conv_std_logic_vector(2080,24); manlo <= conv_std_logic_vector(34612630,28); WHEN "0010000011" => manhi <= conv_std_logic_vector(2096,24); manlo <= conv_std_logic_vector(35147192,28); WHEN "0010000100" => manhi <= conv_std_logic_vector(2112,24); manlo <= conv_std_logic_vector(35685849,28); WHEN "0010000101" => manhi <= conv_std_logic_vector(2128,24); manlo <= conv_std_logic_vector(36228604,28); WHEN "0010000110" => manhi <= conv_std_logic_vector(2144,24); manlo <= conv_std_logic_vector(36775455,28); WHEN "0010000111" => manhi <= conv_std_logic_vector(2160,24); manlo <= conv_std_logic_vector(37326402,28); WHEN "0010001000" => manhi <= conv_std_logic_vector(2176,24); manlo <= conv_std_logic_vector(37881446,28); WHEN "0010001001" => manhi <= conv_std_logic_vector(2192,24); manlo <= conv_std_logic_vector(38440586,28); WHEN "0010001010" => manhi <= conv_std_logic_vector(2208,24); manlo <= conv_std_logic_vector(39003823,28); WHEN "0010001011" => manhi <= conv_std_logic_vector(2224,24); manlo <= conv_std_logic_vector(39571157,28); WHEN "0010001100" => manhi <= conv_std_logic_vector(2240,24); manlo <= conv_std_logic_vector(40142587,28); WHEN "0010001101" => manhi <= conv_std_logic_vector(2256,24); manlo <= conv_std_logic_vector(40718113,28); WHEN "0010001110" => manhi <= conv_std_logic_vector(2272,24); manlo <= conv_std_logic_vector(41297736,28); WHEN "0010001111" => manhi <= conv_std_logic_vector(2288,24); manlo <= conv_std_logic_vector(41881456,28); WHEN "0010010000" => manhi <= conv_std_logic_vector(2304,24); manlo <= conv_std_logic_vector(42469272,28); WHEN "0010010001" => manhi <= conv_std_logic_vector(2320,24); manlo <= conv_std_logic_vector(43061185,28); WHEN "0010010010" => manhi <= conv_std_logic_vector(2336,24); manlo <= conv_std_logic_vector(43657194,28); WHEN "0010010011" => manhi <= conv_std_logic_vector(2352,24); manlo <= conv_std_logic_vector(44257300,28); WHEN "0010010100" => manhi <= conv_std_logic_vector(2368,24); manlo <= conv_std_logic_vector(44861503,28); WHEN "0010010101" => manhi <= conv_std_logic_vector(2384,24); manlo <= conv_std_logic_vector(45469802,28); WHEN "0010010110" => manhi <= conv_std_logic_vector(2400,24); manlo <= conv_std_logic_vector(46082197,28); WHEN "0010010111" => manhi <= conv_std_logic_vector(2416,24); manlo <= conv_std_logic_vector(46698690,28); WHEN "0010011000" => manhi <= conv_std_logic_vector(2432,24); manlo <= conv_std_logic_vector(47319278,28); WHEN "0010011001" => manhi <= conv_std_logic_vector(2448,24); manlo <= conv_std_logic_vector(47943964,28); WHEN "0010011010" => manhi <= conv_std_logic_vector(2464,24); manlo <= conv_std_logic_vector(48572746,28); WHEN "0010011011" => manhi <= conv_std_logic_vector(2480,24); manlo <= conv_std_logic_vector(49205624,28); WHEN "0010011100" => manhi <= conv_std_logic_vector(2496,24); manlo <= conv_std_logic_vector(49842600,28); WHEN "0010011101" => manhi <= conv_std_logic_vector(2512,24); manlo <= conv_std_logic_vector(50483672,28); WHEN "0010011110" => manhi <= conv_std_logic_vector(2528,24); manlo <= conv_std_logic_vector(51128840,28); WHEN "0010011111" => manhi <= conv_std_logic_vector(2544,24); manlo <= conv_std_logic_vector(51778105,28); WHEN "0010100000" => manhi <= conv_std_logic_vector(2560,24); manlo <= conv_std_logic_vector(52431467,28); WHEN "0010100001" => manhi <= conv_std_logic_vector(2576,24); manlo <= conv_std_logic_vector(53088925,28); WHEN "0010100010" => manhi <= conv_std_logic_vector(2592,24); manlo <= conv_std_logic_vector(53750480,28); WHEN "0010100011" => manhi <= conv_std_logic_vector(2608,24); manlo <= conv_std_logic_vector(54416132,28); WHEN "0010100100" => manhi <= conv_std_logic_vector(2624,24); manlo <= conv_std_logic_vector(55085880,28); WHEN "0010100101" => manhi <= conv_std_logic_vector(2640,24); manlo <= conv_std_logic_vector(55759725,28); WHEN "0010100110" => manhi <= conv_std_logic_vector(2656,24); manlo <= conv_std_logic_vector(56437666,28); WHEN "0010100111" => manhi <= conv_std_logic_vector(2672,24); manlo <= conv_std_logic_vector(57119704,28); WHEN "0010101000" => manhi <= conv_std_logic_vector(2688,24); manlo <= conv_std_logic_vector(57805839,28); WHEN "0010101001" => manhi <= conv_std_logic_vector(2704,24); manlo <= conv_std_logic_vector(58496071,28); WHEN "0010101010" => manhi <= conv_std_logic_vector(2720,24); manlo <= conv_std_logic_vector(59190399,28); WHEN "0010101011" => manhi <= conv_std_logic_vector(2736,24); manlo <= conv_std_logic_vector(59888823,28); WHEN "0010101100" => manhi <= conv_std_logic_vector(2752,24); manlo <= conv_std_logic_vector(60591345,28); WHEN "0010101101" => manhi <= conv_std_logic_vector(2768,24); manlo <= conv_std_logic_vector(61297963,28); WHEN "0010101110" => manhi <= conv_std_logic_vector(2784,24); manlo <= conv_std_logic_vector(62008678,28); WHEN "0010101111" => manhi <= conv_std_logic_vector(2800,24); manlo <= conv_std_logic_vector(62723489,28); WHEN "0010110000" => manhi <= conv_std_logic_vector(2816,24); manlo <= conv_std_logic_vector(63442397,28); WHEN "0010110001" => manhi <= conv_std_logic_vector(2832,24); manlo <= conv_std_logic_vector(64165402,28); WHEN "0010110010" => manhi <= conv_std_logic_vector(2848,24); manlo <= conv_std_logic_vector(64892504,28); WHEN "0010110011" => manhi <= conv_std_logic_vector(2864,24); manlo <= conv_std_logic_vector(65623702,28); WHEN "0010110100" => manhi <= conv_std_logic_vector(2880,24); manlo <= conv_std_logic_vector(66358997,28); WHEN "0010110101" => manhi <= conv_std_logic_vector(2896,24); manlo <= conv_std_logic_vector(67098389,28); WHEN "0010110110" => manhi <= conv_std_logic_vector(2912,24); manlo <= conv_std_logic_vector(67841877,28); WHEN "0010110111" => manhi <= conv_std_logic_vector(2928,24); manlo <= conv_std_logic_vector(68589462,28); WHEN "0010111000" => manhi <= conv_std_logic_vector(2944,24); manlo <= conv_std_logic_vector(69341144,28); WHEN "0010111001" => manhi <= conv_std_logic_vector(2960,24); manlo <= conv_std_logic_vector(70096922,28); WHEN "0010111010" => manhi <= conv_std_logic_vector(2976,24); manlo <= conv_std_logic_vector(70856798,28); WHEN "0010111011" => manhi <= conv_std_logic_vector(2992,24); manlo <= conv_std_logic_vector(71620769,28); WHEN "0010111100" => manhi <= conv_std_logic_vector(3008,24); manlo <= conv_std_logic_vector(72388838,28); WHEN "0010111101" => manhi <= conv_std_logic_vector(3024,24); manlo <= conv_std_logic_vector(73161004,28); WHEN "0010111110" => manhi <= conv_std_logic_vector(3040,24); manlo <= conv_std_logic_vector(73937266,28); WHEN "0010111111" => manhi <= conv_std_logic_vector(3056,24); manlo <= conv_std_logic_vector(74717625,28); WHEN "0011000000" => manhi <= conv_std_logic_vector(3072,24); manlo <= conv_std_logic_vector(75502080,28); WHEN "0011000001" => manhi <= conv_std_logic_vector(3088,24); manlo <= conv_std_logic_vector(76290633,28); WHEN "0011000010" => manhi <= conv_std_logic_vector(3104,24); manlo <= conv_std_logic_vector(77083282,28); WHEN "0011000011" => manhi <= conv_std_logic_vector(3120,24); manlo <= conv_std_logic_vector(77880028,28); WHEN "0011000100" => manhi <= conv_std_logic_vector(3136,24); manlo <= conv_std_logic_vector(78680870,28); WHEN "0011000101" => manhi <= conv_std_logic_vector(3152,24); manlo <= conv_std_logic_vector(79485810,28); WHEN "0011000110" => manhi <= conv_std_logic_vector(3168,24); manlo <= conv_std_logic_vector(80294846,28); WHEN "0011000111" => manhi <= conv_std_logic_vector(3184,24); manlo <= conv_std_logic_vector(81107979,28); WHEN "0011001000" => manhi <= conv_std_logic_vector(3200,24); manlo <= conv_std_logic_vector(81925209,28); WHEN "0011001001" => manhi <= conv_std_logic_vector(3216,24); manlo <= conv_std_logic_vector(82746535,28); WHEN "0011001010" => manhi <= conv_std_logic_vector(3232,24); manlo <= conv_std_logic_vector(83571958,28); WHEN "0011001011" => manhi <= conv_std_logic_vector(3248,24); manlo <= conv_std_logic_vector(84401479,28); WHEN "0011001100" => manhi <= conv_std_logic_vector(3264,24); manlo <= conv_std_logic_vector(85235095,28); WHEN "0011001101" => manhi <= conv_std_logic_vector(3280,24); manlo <= conv_std_logic_vector(86072809,28); WHEN "0011001110" => manhi <= conv_std_logic_vector(3296,24); manlo <= conv_std_logic_vector(86914620,28); WHEN "0011001111" => manhi <= conv_std_logic_vector(3312,24); manlo <= conv_std_logic_vector(87760527,28); WHEN "0011010000" => manhi <= conv_std_logic_vector(3328,24); manlo <= conv_std_logic_vector(88610531,28); WHEN "0011010001" => manhi <= conv_std_logic_vector(3344,24); manlo <= conv_std_logic_vector(89464632,28); WHEN "0011010010" => manhi <= conv_std_logic_vector(3360,24); manlo <= conv_std_logic_vector(90322830,28); WHEN "0011010011" => manhi <= conv_std_logic_vector(3376,24); manlo <= conv_std_logic_vector(91185124,28); WHEN "0011010100" => manhi <= conv_std_logic_vector(3392,24); manlo <= conv_std_logic_vector(92051516,28); WHEN "0011010101" => manhi <= conv_std_logic_vector(3408,24); manlo <= conv_std_logic_vector(92922004,28); WHEN "0011010110" => manhi <= conv_std_logic_vector(3424,24); manlo <= conv_std_logic_vector(93796589,28); WHEN "0011010111" => manhi <= conv_std_logic_vector(3440,24); manlo <= conv_std_logic_vector(94675271,28); WHEN "0011011000" => manhi <= conv_std_logic_vector(3456,24); manlo <= conv_std_logic_vector(95558049,28); WHEN "0011011001" => manhi <= conv_std_logic_vector(3472,24); manlo <= conv_std_logic_vector(96444925,28); WHEN "0011011010" => manhi <= conv_std_logic_vector(3488,24); manlo <= conv_std_logic_vector(97335897,28); WHEN "0011011011" => manhi <= conv_std_logic_vector(3504,24); manlo <= conv_std_logic_vector(98230967,28); WHEN "0011011100" => manhi <= conv_std_logic_vector(3520,24); manlo <= conv_std_logic_vector(99130133,28); WHEN "0011011101" => manhi <= conv_std_logic_vector(3536,24); manlo <= conv_std_logic_vector(100033396,28); WHEN "0011011110" => manhi <= conv_std_logic_vector(3552,24); manlo <= conv_std_logic_vector(100940755,28); WHEN "0011011111" => manhi <= conv_std_logic_vector(3568,24); manlo <= conv_std_logic_vector(101852212,28); WHEN "0011100000" => manhi <= conv_std_logic_vector(3584,24); manlo <= conv_std_logic_vector(102767766,28); WHEN "0011100001" => manhi <= conv_std_logic_vector(3600,24); manlo <= conv_std_logic_vector(103687416,28); WHEN "0011100010" => manhi <= conv_std_logic_vector(3616,24); manlo <= conv_std_logic_vector(104611163,28); WHEN "0011100011" => manhi <= conv_std_logic_vector(3632,24); manlo <= conv_std_logic_vector(105539008,28); WHEN "0011100100" => manhi <= conv_std_logic_vector(3648,24); manlo <= conv_std_logic_vector(106470949,28); WHEN "0011100101" => manhi <= conv_std_logic_vector(3664,24); manlo <= conv_std_logic_vector(107406987,28); WHEN "0011100110" => manhi <= conv_std_logic_vector(3680,24); manlo <= conv_std_logic_vector(108347122,28); WHEN "0011100111" => manhi <= conv_std_logic_vector(3696,24); manlo <= conv_std_logic_vector(109291353,28); WHEN "0011101000" => manhi <= conv_std_logic_vector(3712,24); manlo <= conv_std_logic_vector(110239682,28); WHEN "0011101001" => manhi <= conv_std_logic_vector(3728,24); manlo <= conv_std_logic_vector(111192108,28); WHEN "0011101010" => manhi <= conv_std_logic_vector(3744,24); manlo <= conv_std_logic_vector(112148630,28); WHEN "0011101011" => manhi <= conv_std_logic_vector(3760,24); manlo <= conv_std_logic_vector(113109250,28); WHEN "0011101100" => manhi <= conv_std_logic_vector(3776,24); manlo <= conv_std_logic_vector(114073966,28); WHEN "0011101101" => manhi <= conv_std_logic_vector(3792,24); manlo <= conv_std_logic_vector(115042779,28); WHEN "0011101110" => manhi <= conv_std_logic_vector(3808,24); manlo <= conv_std_logic_vector(116015689,28); WHEN "0011101111" => manhi <= conv_std_logic_vector(3824,24); manlo <= conv_std_logic_vector(116992696,28); WHEN "0011110000" => manhi <= conv_std_logic_vector(3840,24); manlo <= conv_std_logic_vector(117973801,28); WHEN "0011110001" => manhi <= conv_std_logic_vector(3856,24); manlo <= conv_std_logic_vector(118959001,28); WHEN "0011110010" => manhi <= conv_std_logic_vector(3872,24); manlo <= conv_std_logic_vector(119948299,28); WHEN "0011110011" => manhi <= conv_std_logic_vector(3888,24); manlo <= conv_std_logic_vector(120941694,28); WHEN "0011110100" => manhi <= conv_std_logic_vector(3904,24); manlo <= conv_std_logic_vector(121939186,28); WHEN "0011110101" => manhi <= conv_std_logic_vector(3920,24); manlo <= conv_std_logic_vector(122940775,28); WHEN "0011110110" => manhi <= conv_std_logic_vector(3936,24); manlo <= conv_std_logic_vector(123946461,28); WHEN "0011110111" => manhi <= conv_std_logic_vector(3952,24); manlo <= conv_std_logic_vector(124956243,28); WHEN "0011111000" => manhi <= conv_std_logic_vector(3968,24); manlo <= conv_std_logic_vector(125970123,28); WHEN "0011111001" => manhi <= conv_std_logic_vector(3984,24); manlo <= conv_std_logic_vector(126988100,28); WHEN "0011111010" => manhi <= conv_std_logic_vector(4000,24); manlo <= conv_std_logic_vector(128010173,28); WHEN "0011111011" => manhi <= conv_std_logic_vector(4016,24); manlo <= conv_std_logic_vector(129036344,28); WHEN "0011111100" => manhi <= conv_std_logic_vector(4032,24); manlo <= conv_std_logic_vector(130066611,28); WHEN "0011111101" => manhi <= conv_std_logic_vector(4048,24); manlo <= conv_std_logic_vector(131100976,28); WHEN "0011111110" => manhi <= conv_std_logic_vector(4064,24); manlo <= conv_std_logic_vector(132139437,28); WHEN "0011111111" => manhi <= conv_std_logic_vector(4080,24); manlo <= conv_std_logic_vector(133181996,28); WHEN "0100000000" => manhi <= conv_std_logic_vector(4096,24); manlo <= conv_std_logic_vector(134228651,28); WHEN "0100000001" => manhi <= conv_std_logic_vector(4112,24); manlo <= conv_std_logic_vector(135279404,28); WHEN "0100000010" => manhi <= conv_std_logic_vector(4128,24); manlo <= conv_std_logic_vector(136334253,28); WHEN "0100000011" => manhi <= conv_std_logic_vector(4144,24); manlo <= conv_std_logic_vector(137393200,28); WHEN "0100000100" => manhi <= conv_std_logic_vector(4160,24); manlo <= conv_std_logic_vector(138456243,28); WHEN "0100000101" => manhi <= conv_std_logic_vector(4176,24); manlo <= conv_std_logic_vector(139523384,28); WHEN "0100000110" => manhi <= conv_std_logic_vector(4192,24); manlo <= conv_std_logic_vector(140594622,28); WHEN "0100000111" => manhi <= conv_std_logic_vector(4208,24); manlo <= conv_std_logic_vector(141669956,28); WHEN "0100001000" => manhi <= conv_std_logic_vector(4224,24); manlo <= conv_std_logic_vector(142749388,28); WHEN "0100001001" => manhi <= conv_std_logic_vector(4240,24); manlo <= conv_std_logic_vector(143832916,28); WHEN "0100001010" => manhi <= conv_std_logic_vector(4256,24); manlo <= conv_std_logic_vector(144920542,28); WHEN "0100001011" => manhi <= conv_std_logic_vector(4272,24); manlo <= conv_std_logic_vector(146012265,28); WHEN "0100001100" => manhi <= conv_std_logic_vector(4288,24); manlo <= conv_std_logic_vector(147108085,28); WHEN "0100001101" => manhi <= conv_std_logic_vector(4304,24); manlo <= conv_std_logic_vector(148208001,28); WHEN "0100001110" => manhi <= conv_std_logic_vector(4320,24); manlo <= conv_std_logic_vector(149312015,28); WHEN "0100001111" => manhi <= conv_std_logic_vector(4336,24); manlo <= conv_std_logic_vector(150420126,28); WHEN "0100010000" => manhi <= conv_std_logic_vector(4352,24); manlo <= conv_std_logic_vector(151532334,28); WHEN "0100010001" => manhi <= conv_std_logic_vector(4368,24); manlo <= conv_std_logic_vector(152648639,28); WHEN "0100010010" => manhi <= conv_std_logic_vector(4384,24); manlo <= conv_std_logic_vector(153769041,28); WHEN "0100010011" => manhi <= conv_std_logic_vector(4400,24); manlo <= conv_std_logic_vector(154893541,28); WHEN "0100010100" => manhi <= conv_std_logic_vector(4416,24); manlo <= conv_std_logic_vector(156022137,28); WHEN "0100010101" => manhi <= conv_std_logic_vector(4432,24); manlo <= conv_std_logic_vector(157154830,28); WHEN "0100010110" => manhi <= conv_std_logic_vector(4448,24); manlo <= conv_std_logic_vector(158291621,28); WHEN "0100010111" => manhi <= conv_std_logic_vector(4464,24); manlo <= conv_std_logic_vector(159432508,28); WHEN "0100011000" => manhi <= conv_std_logic_vector(4480,24); manlo <= conv_std_logic_vector(160577493,28); WHEN "0100011001" => manhi <= conv_std_logic_vector(4496,24); manlo <= conv_std_logic_vector(161726574,28); WHEN "0100011010" => manhi <= conv_std_logic_vector(4512,24); manlo <= conv_std_logic_vector(162879753,28); WHEN "0100011011" => manhi <= conv_std_logic_vector(4528,24); manlo <= conv_std_logic_vector(164037029,28); WHEN "0100011100" => manhi <= conv_std_logic_vector(4544,24); manlo <= conv_std_logic_vector(165198402,28); WHEN "0100011101" => manhi <= conv_std_logic_vector(4560,24); manlo <= conv_std_logic_vector(166363872,28); WHEN "0100011110" => manhi <= conv_std_logic_vector(4576,24); manlo <= conv_std_logic_vector(167533439,28); WHEN "0100011111" => manhi <= conv_std_logic_vector(4592,24); manlo <= conv_std_logic_vector(168707104,28); WHEN "0100100000" => manhi <= conv_std_logic_vector(4608,24); manlo <= conv_std_logic_vector(169884865,28); WHEN "0100100001" => manhi <= conv_std_logic_vector(4624,24); manlo <= conv_std_logic_vector(171066724,28); WHEN "0100100010" => manhi <= conv_std_logic_vector(4640,24); manlo <= conv_std_logic_vector(172252679,28); WHEN "0100100011" => manhi <= conv_std_logic_vector(4656,24); manlo <= conv_std_logic_vector(173442732,28); WHEN "0100100100" => manhi <= conv_std_logic_vector(4672,24); manlo <= conv_std_logic_vector(174636882,28); WHEN "0100100101" => manhi <= conv_std_logic_vector(4688,24); manlo <= conv_std_logic_vector(175835129,28); WHEN "0100100110" => manhi <= conv_std_logic_vector(4704,24); manlo <= conv_std_logic_vector(177037474,28); WHEN "0100100111" => manhi <= conv_std_logic_vector(4720,24); manlo <= conv_std_logic_vector(178243915,28); WHEN "0100101000" => manhi <= conv_std_logic_vector(4736,24); manlo <= conv_std_logic_vector(179454454,28); WHEN "0100101001" => manhi <= conv_std_logic_vector(4752,24); manlo <= conv_std_logic_vector(180669089,28); WHEN "0100101010" => manhi <= conv_std_logic_vector(4768,24); manlo <= conv_std_logic_vector(181887822,28); WHEN "0100101011" => manhi <= conv_std_logic_vector(4784,24); manlo <= conv_std_logic_vector(183110652,28); WHEN "0100101100" => manhi <= conv_std_logic_vector(4800,24); manlo <= conv_std_logic_vector(184337579,28); WHEN "0100101101" => manhi <= conv_std_logic_vector(4816,24); manlo <= conv_std_logic_vector(185568604,28); WHEN "0100101110" => manhi <= conv_std_logic_vector(4832,24); manlo <= conv_std_logic_vector(186803725,28); WHEN "0100101111" => manhi <= conv_std_logic_vector(4848,24); manlo <= conv_std_logic_vector(188042944,28); WHEN "0100110000" => manhi <= conv_std_logic_vector(4864,24); manlo <= conv_std_logic_vector(189286260,28); WHEN "0100110001" => manhi <= conv_std_logic_vector(4880,24); manlo <= conv_std_logic_vector(190533673,28); WHEN "0100110010" => manhi <= conv_std_logic_vector(4896,24); manlo <= conv_std_logic_vector(191785183,28); WHEN "0100110011" => manhi <= conv_std_logic_vector(4912,24); manlo <= conv_std_logic_vector(193040791,28); WHEN "0100110100" => manhi <= conv_std_logic_vector(4928,24); manlo <= conv_std_logic_vector(194300496,28); WHEN "0100110101" => manhi <= conv_std_logic_vector(4944,24); manlo <= conv_std_logic_vector(195564298,28); WHEN "0100110110" => manhi <= conv_std_logic_vector(4960,24); manlo <= conv_std_logic_vector(196832197,28); WHEN "0100110111" => manhi <= conv_std_logic_vector(4976,24); manlo <= conv_std_logic_vector(198104193,28); WHEN "0100111000" => manhi <= conv_std_logic_vector(4992,24); manlo <= conv_std_logic_vector(199380286,28); WHEN "0100111001" => manhi <= conv_std_logic_vector(5008,24); manlo <= conv_std_logic_vector(200660477,28); WHEN "0100111010" => manhi <= conv_std_logic_vector(5024,24); manlo <= conv_std_logic_vector(201944765,28); WHEN "0100111011" => manhi <= conv_std_logic_vector(5040,24); manlo <= conv_std_logic_vector(203233150,28); WHEN "0100111100" => manhi <= conv_std_logic_vector(5056,24); manlo <= conv_std_logic_vector(204525633,28); WHEN "0100111101" => manhi <= conv_std_logic_vector(5072,24); manlo <= conv_std_logic_vector(205822213,28); WHEN "0100111110" => manhi <= conv_std_logic_vector(5088,24); manlo <= conv_std_logic_vector(207122889,28); WHEN "0100111111" => manhi <= conv_std_logic_vector(5104,24); manlo <= conv_std_logic_vector(208427664,28); WHEN "0101000000" => manhi <= conv_std_logic_vector(5120,24); manlo <= conv_std_logic_vector(209736535,28); WHEN "0101000001" => manhi <= conv_std_logic_vector(5136,24); manlo <= conv_std_logic_vector(211049504,28); WHEN "0101000010" => manhi <= conv_std_logic_vector(5152,24); manlo <= conv_std_logic_vector(212366570,28); WHEN "0101000011" => manhi <= conv_std_logic_vector(5168,24); manlo <= conv_std_logic_vector(213687733,28); WHEN "0101000100" => manhi <= conv_std_logic_vector(5184,24); manlo <= conv_std_logic_vector(215012993,28); WHEN "0101000101" => manhi <= conv_std_logic_vector(5200,24); manlo <= conv_std_logic_vector(216342351,28); WHEN "0101000110" => manhi <= conv_std_logic_vector(5216,24); manlo <= conv_std_logic_vector(217675806,28); WHEN "0101000111" => manhi <= conv_std_logic_vector(5232,24); manlo <= conv_std_logic_vector(219013358,28); WHEN "0101001000" => manhi <= conv_std_logic_vector(5248,24); manlo <= conv_std_logic_vector(220355007,28); WHEN "0101001001" => manhi <= conv_std_logic_vector(5264,24); manlo <= conv_std_logic_vector(221700754,28); WHEN "0101001010" => manhi <= conv_std_logic_vector(5280,24); manlo <= conv_std_logic_vector(223050598,28); WHEN "0101001011" => manhi <= conv_std_logic_vector(5296,24); manlo <= conv_std_logic_vector(224404540,28); WHEN "0101001100" => manhi <= conv_std_logic_vector(5312,24); manlo <= conv_std_logic_vector(225762578,28); WHEN "0101001101" => manhi <= conv_std_logic_vector(5328,24); manlo <= conv_std_logic_vector(227124714,28); WHEN "0101001110" => manhi <= conv_std_logic_vector(5344,24); manlo <= conv_std_logic_vector(228490948,28); WHEN "0101001111" => manhi <= conv_std_logic_vector(5360,24); manlo <= conv_std_logic_vector(229861278,28); WHEN "0101010000" => manhi <= conv_std_logic_vector(5376,24); manlo <= conv_std_logic_vector(231235706,28); WHEN "0101010001" => manhi <= conv_std_logic_vector(5392,24); manlo <= conv_std_logic_vector(232614231,28); WHEN "0101010010" => manhi <= conv_std_logic_vector(5408,24); manlo <= conv_std_logic_vector(233996854,28); WHEN "0101010011" => manhi <= conv_std_logic_vector(5424,24); manlo <= conv_std_logic_vector(235383573,28); WHEN "0101010100" => manhi <= conv_std_logic_vector(5440,24); manlo <= conv_std_logic_vector(236774391,28); WHEN "0101010101" => manhi <= conv_std_logic_vector(5456,24); manlo <= conv_std_logic_vector(238169305,28); WHEN "0101010110" => manhi <= conv_std_logic_vector(5472,24); manlo <= conv_std_logic_vector(239568317,28); WHEN "0101010111" => manhi <= conv_std_logic_vector(5488,24); manlo <= conv_std_logic_vector(240971426,28); WHEN "0101011000" => manhi <= conv_std_logic_vector(5504,24); manlo <= conv_std_logic_vector(242378633,28); WHEN "0101011001" => manhi <= conv_std_logic_vector(5520,24); manlo <= conv_std_logic_vector(243789936,28); WHEN "0101011010" => manhi <= conv_std_logic_vector(5536,24); manlo <= conv_std_logic_vector(245205338,28); WHEN "0101011011" => manhi <= conv_std_logic_vector(5552,24); manlo <= conv_std_logic_vector(246624836,28); WHEN "0101011100" => manhi <= conv_std_logic_vector(5568,24); manlo <= conv_std_logic_vector(248048432,28); WHEN "0101011101" => manhi <= conv_std_logic_vector(5584,24); manlo <= conv_std_logic_vector(249476125,28); WHEN "0101011110" => manhi <= conv_std_logic_vector(5600,24); manlo <= conv_std_logic_vector(250907916,28); WHEN "0101011111" => manhi <= conv_std_logic_vector(5616,24); manlo <= conv_std_logic_vector(252343804,28); WHEN "0101100000" => manhi <= conv_std_logic_vector(5632,24); manlo <= conv_std_logic_vector(253783789,28); WHEN "0101100001" => manhi <= conv_std_logic_vector(5648,24); manlo <= conv_std_logic_vector(255227872,28); WHEN "0101100010" => manhi <= conv_std_logic_vector(5664,24); manlo <= conv_std_logic_vector(256676052,28); WHEN "0101100011" => manhi <= conv_std_logic_vector(5680,24); manlo <= conv_std_logic_vector(258128329,28); WHEN "0101100100" => manhi <= conv_std_logic_vector(5696,24); manlo <= conv_std_logic_vector(259584704,28); WHEN "0101100101" => manhi <= conv_std_logic_vector(5712,24); manlo <= conv_std_logic_vector(261045176,28); WHEN "0101100110" => manhi <= conv_std_logic_vector(5728,24); manlo <= conv_std_logic_vector(262509746,28); WHEN "0101100111" => manhi <= conv_std_logic_vector(5744,24); manlo <= conv_std_logic_vector(263978413,28); WHEN "0101101000" => manhi <= conv_std_logic_vector(5760,24); manlo <= conv_std_logic_vector(265451178,28); WHEN "0101101001" => manhi <= conv_std_logic_vector(5776,24); manlo <= conv_std_logic_vector(266928039,28); WHEN "0101101010" => manhi <= conv_std_logic_vector(5792,24); manlo <= conv_std_logic_vector(268408999,28); WHEN "0101101011" => manhi <= conv_std_logic_vector(5809,24); manlo <= conv_std_logic_vector(1458599,28); WHEN "0101101100" => manhi <= conv_std_logic_vector(5825,24); manlo <= conv_std_logic_vector(2947754,28); WHEN "0101101101" => manhi <= conv_std_logic_vector(5841,24); manlo <= conv_std_logic_vector(4441005,28); WHEN "0101101110" => manhi <= conv_std_logic_vector(5857,24); manlo <= conv_std_logic_vector(5938354,28); WHEN "0101101111" => manhi <= conv_std_logic_vector(5873,24); manlo <= conv_std_logic_vector(7439800,28); WHEN "0101110000" => manhi <= conv_std_logic_vector(5889,24); manlo <= conv_std_logic_vector(8945344,28); WHEN "0101110001" => manhi <= conv_std_logic_vector(5905,24); manlo <= conv_std_logic_vector(10454985,28); WHEN "0101110010" => manhi <= conv_std_logic_vector(5921,24); manlo <= conv_std_logic_vector(11968724,28); WHEN "0101110011" => manhi <= conv_std_logic_vector(5937,24); manlo <= conv_std_logic_vector(13486560,28); WHEN "0101110100" => manhi <= conv_std_logic_vector(5953,24); manlo <= conv_std_logic_vector(15008494,28); WHEN "0101110101" => manhi <= conv_std_logic_vector(5969,24); manlo <= conv_std_logic_vector(16534525,28); WHEN "0101110110" => manhi <= conv_std_logic_vector(5985,24); manlo <= conv_std_logic_vector(18064653,28); WHEN "0101110111" => manhi <= conv_std_logic_vector(6001,24); manlo <= conv_std_logic_vector(19598879,28); WHEN "0101111000" => manhi <= conv_std_logic_vector(6017,24); manlo <= conv_std_logic_vector(21137203,28); WHEN "0101111001" => manhi <= conv_std_logic_vector(6033,24); manlo <= conv_std_logic_vector(22679624,28); WHEN "0101111010" => manhi <= conv_std_logic_vector(6049,24); manlo <= conv_std_logic_vector(24226142,28); WHEN "0101111011" => manhi <= conv_std_logic_vector(6065,24); manlo <= conv_std_logic_vector(25776758,28); WHEN "0101111100" => manhi <= conv_std_logic_vector(6081,24); manlo <= conv_std_logic_vector(27331471,28); WHEN "0101111101" => manhi <= conv_std_logic_vector(6097,24); manlo <= conv_std_logic_vector(28890282,28); WHEN "0101111110" => manhi <= conv_std_logic_vector(6113,24); manlo <= conv_std_logic_vector(30453190,28); WHEN "0101111111" => manhi <= conv_std_logic_vector(6129,24); manlo <= conv_std_logic_vector(32020196,28); WHEN "0110000000" => manhi <= conv_std_logic_vector(6145,24); manlo <= conv_std_logic_vector(33591299,28); WHEN "0110000001" => manhi <= conv_std_logic_vector(6161,24); manlo <= conv_std_logic_vector(35166500,28); WHEN "0110000010" => manhi <= conv_std_logic_vector(6177,24); manlo <= conv_std_logic_vector(36745798,28); WHEN "0110000011" => manhi <= conv_std_logic_vector(6193,24); manlo <= conv_std_logic_vector(38329194,28); WHEN "0110000100" => manhi <= conv_std_logic_vector(6209,24); manlo <= conv_std_logic_vector(39916688,28); WHEN "0110000101" => manhi <= conv_std_logic_vector(6225,24); manlo <= conv_std_logic_vector(41508278,28); WHEN "0110000110" => manhi <= conv_std_logic_vector(6241,24); manlo <= conv_std_logic_vector(43103967,28); WHEN "0110000111" => manhi <= conv_std_logic_vector(6257,24); manlo <= conv_std_logic_vector(44703753,28); WHEN "0110001000" => manhi <= conv_std_logic_vector(6273,24); manlo <= conv_std_logic_vector(46307636,28); WHEN "0110001001" => manhi <= conv_std_logic_vector(6289,24); manlo <= conv_std_logic_vector(47915617,28); WHEN "0110001010" => manhi <= conv_std_logic_vector(6305,24); manlo <= conv_std_logic_vector(49527695,28); WHEN "0110001011" => manhi <= conv_std_logic_vector(6321,24); manlo <= conv_std_logic_vector(51143871,28); WHEN "0110001100" => manhi <= conv_std_logic_vector(6337,24); manlo <= conv_std_logic_vector(52764145,28); WHEN "0110001101" => manhi <= conv_std_logic_vector(6353,24); manlo <= conv_std_logic_vector(54388516,28); WHEN "0110001110" => manhi <= conv_std_logic_vector(6369,24); manlo <= conv_std_logic_vector(56016985,28); WHEN "0110001111" => manhi <= conv_std_logic_vector(6385,24); manlo <= conv_std_logic_vector(57649551,28); WHEN "0110010000" => manhi <= conv_std_logic_vector(6401,24); manlo <= conv_std_logic_vector(59286215,28); WHEN "0110010001" => manhi <= conv_std_logic_vector(6417,24); manlo <= conv_std_logic_vector(60926976,28); WHEN "0110010010" => manhi <= conv_std_logic_vector(6433,24); manlo <= conv_std_logic_vector(62571835,28); WHEN "0110010011" => manhi <= conv_std_logic_vector(6449,24); manlo <= conv_std_logic_vector(64220791,28); WHEN "0110010100" => manhi <= conv_std_logic_vector(6465,24); manlo <= conv_std_logic_vector(65873845,28); WHEN "0110010101" => manhi <= conv_std_logic_vector(6481,24); manlo <= conv_std_logic_vector(67530997,28); WHEN "0110010110" => manhi <= conv_std_logic_vector(6497,24); manlo <= conv_std_logic_vector(69192246,28); WHEN "0110010111" => manhi <= conv_std_logic_vector(6513,24); manlo <= conv_std_logic_vector(70857593,28); WHEN "0110011000" => manhi <= conv_std_logic_vector(6529,24); manlo <= conv_std_logic_vector(72527037,28); WHEN "0110011001" => manhi <= conv_std_logic_vector(6545,24); manlo <= conv_std_logic_vector(74200579,28); WHEN "0110011010" => manhi <= conv_std_logic_vector(6561,24); manlo <= conv_std_logic_vector(75878219,28); WHEN "0110011011" => manhi <= conv_std_logic_vector(6577,24); manlo <= conv_std_logic_vector(77559956,28); WHEN "0110011100" => manhi <= conv_std_logic_vector(6593,24); manlo <= conv_std_logic_vector(79245791,28); WHEN "0110011101" => manhi <= conv_std_logic_vector(6609,24); manlo <= conv_std_logic_vector(80935723,28); WHEN "0110011110" => manhi <= conv_std_logic_vector(6625,24); manlo <= conv_std_logic_vector(82629753,28); WHEN "0110011111" => manhi <= conv_std_logic_vector(6641,24); manlo <= conv_std_logic_vector(84327881,28); WHEN "0110100000" => manhi <= conv_std_logic_vector(6657,24); manlo <= conv_std_logic_vector(86030106,28); WHEN "0110100001" => manhi <= conv_std_logic_vector(6673,24); manlo <= conv_std_logic_vector(87736429,28); WHEN "0110100010" => manhi <= conv_std_logic_vector(6689,24); manlo <= conv_std_logic_vector(89446849,28); WHEN "0110100011" => manhi <= conv_std_logic_vector(6705,24); manlo <= conv_std_logic_vector(91161367,28); WHEN "0110100100" => manhi <= conv_std_logic_vector(6721,24); manlo <= conv_std_logic_vector(92879983,28); WHEN "0110100101" => manhi <= conv_std_logic_vector(6737,24); manlo <= conv_std_logic_vector(94602697,28); WHEN "0110100110" => manhi <= conv_std_logic_vector(6753,24); manlo <= conv_std_logic_vector(96329508,28); WHEN "0110100111" => manhi <= conv_std_logic_vector(6769,24); manlo <= conv_std_logic_vector(98060416,28); WHEN "0110101000" => manhi <= conv_std_logic_vector(6785,24); manlo <= conv_std_logic_vector(99795423,28); WHEN "0110101001" => manhi <= conv_std_logic_vector(6801,24); manlo <= conv_std_logic_vector(101534527,28); WHEN "0110101010" => manhi <= conv_std_logic_vector(6817,24); manlo <= conv_std_logic_vector(103277728,28); WHEN "0110101011" => manhi <= conv_std_logic_vector(6833,24); manlo <= conv_std_logic_vector(105025028,28); WHEN "0110101100" => manhi <= conv_std_logic_vector(6849,24); manlo <= conv_std_logic_vector(106776425,28); WHEN "0110101101" => manhi <= conv_std_logic_vector(6865,24); manlo <= conv_std_logic_vector(108531919,28); WHEN "0110101110" => manhi <= conv_std_logic_vector(6881,24); manlo <= conv_std_logic_vector(110291512,28); WHEN "0110101111" => manhi <= conv_std_logic_vector(6897,24); manlo <= conv_std_logic_vector(112055202,28); WHEN "0110110000" => manhi <= conv_std_logic_vector(6913,24); manlo <= conv_std_logic_vector(113822989,28); WHEN "0110110001" => manhi <= conv_std_logic_vector(6929,24); manlo <= conv_std_logic_vector(115594875,28); WHEN "0110110010" => manhi <= conv_std_logic_vector(6945,24); manlo <= conv_std_logic_vector(117370858,28); WHEN "0110110011" => manhi <= conv_std_logic_vector(6961,24); manlo <= conv_std_logic_vector(119150939,28); WHEN "0110110100" => manhi <= conv_std_logic_vector(6977,24); manlo <= conv_std_logic_vector(120935117,28); WHEN "0110110101" => manhi <= conv_std_logic_vector(6993,24); manlo <= conv_std_logic_vector(122723393,28); WHEN "0110110110" => manhi <= conv_std_logic_vector(7009,24); manlo <= conv_std_logic_vector(124515767,28); WHEN "0110110111" => manhi <= conv_std_logic_vector(7025,24); manlo <= conv_std_logic_vector(126312239,28); WHEN "0110111000" => manhi <= conv_std_logic_vector(7041,24); manlo <= conv_std_logic_vector(128112808,28); WHEN "0110111001" => manhi <= conv_std_logic_vector(7057,24); manlo <= conv_std_logic_vector(129917475,28); WHEN "0110111010" => manhi <= conv_std_logic_vector(7073,24); manlo <= conv_std_logic_vector(131726240,28); WHEN "0110111011" => manhi <= conv_std_logic_vector(7089,24); manlo <= conv_std_logic_vector(133539102,28); WHEN "0110111100" => manhi <= conv_std_logic_vector(7105,24); manlo <= conv_std_logic_vector(135356063,28); WHEN "0110111101" => manhi <= conv_std_logic_vector(7121,24); manlo <= conv_std_logic_vector(137177121,28); WHEN "0110111110" => manhi <= conv_std_logic_vector(7137,24); manlo <= conv_std_logic_vector(139002276,28); WHEN "0110111111" => manhi <= conv_std_logic_vector(7153,24); manlo <= conv_std_logic_vector(140831530,28); WHEN "0111000000" => manhi <= conv_std_logic_vector(7169,24); manlo <= conv_std_logic_vector(142664881,28); WHEN "0111000001" => manhi <= conv_std_logic_vector(7185,24); manlo <= conv_std_logic_vector(144502330,28); WHEN "0111000010" => manhi <= conv_std_logic_vector(7201,24); manlo <= conv_std_logic_vector(146343877,28); WHEN "0111000011" => manhi <= conv_std_logic_vector(7217,24); manlo <= conv_std_logic_vector(148189521,28); WHEN "0111000100" => manhi <= conv_std_logic_vector(7233,24); manlo <= conv_std_logic_vector(150039263,28); WHEN "0111000101" => manhi <= conv_std_logic_vector(7249,24); manlo <= conv_std_logic_vector(151893103,28); WHEN "0111000110" => manhi <= conv_std_logic_vector(7265,24); manlo <= conv_std_logic_vector(153751041,28); WHEN "0111000111" => manhi <= conv_std_logic_vector(7281,24); manlo <= conv_std_logic_vector(155613076,28); WHEN "0111001000" => manhi <= conv_std_logic_vector(7297,24); manlo <= conv_std_logic_vector(157479210,28); WHEN "0111001001" => manhi <= conv_std_logic_vector(7313,24); manlo <= conv_std_logic_vector(159349441,28); WHEN "0111001010" => manhi <= conv_std_logic_vector(7329,24); manlo <= conv_std_logic_vector(161223770,28); WHEN "0111001011" => manhi <= conv_std_logic_vector(7345,24); manlo <= conv_std_logic_vector(163102196,28); WHEN "0111001100" => manhi <= conv_std_logic_vector(7361,24); manlo <= conv_std_logic_vector(164984721,28); WHEN "0111001101" => manhi <= conv_std_logic_vector(7377,24); manlo <= conv_std_logic_vector(166871343,28); WHEN "0111001110" => manhi <= conv_std_logic_vector(7393,24); manlo <= conv_std_logic_vector(168762063,28); WHEN "0111001111" => manhi <= conv_std_logic_vector(7409,24); manlo <= conv_std_logic_vector(170656881,28); WHEN "0111010000" => manhi <= conv_std_logic_vector(7425,24); manlo <= conv_std_logic_vector(172555797,28); WHEN "0111010001" => manhi <= conv_std_logic_vector(7441,24); manlo <= conv_std_logic_vector(174458810,28); WHEN "0111010010" => manhi <= conv_std_logic_vector(7457,24); manlo <= conv_std_logic_vector(176365921,28); WHEN "0111010011" => manhi <= conv_std_logic_vector(7473,24); manlo <= conv_std_logic_vector(178277130,28); WHEN "0111010100" => manhi <= conv_std_logic_vector(7489,24); manlo <= conv_std_logic_vector(180192437,28); WHEN "0111010101" => manhi <= conv_std_logic_vector(7505,24); manlo <= conv_std_logic_vector(182111842,28); WHEN "0111010110" => manhi <= conv_std_logic_vector(7521,24); manlo <= conv_std_logic_vector(184035345,28); WHEN "0111010111" => manhi <= conv_std_logic_vector(7537,24); manlo <= conv_std_logic_vector(185962945,28); WHEN "0111011000" => manhi <= conv_std_logic_vector(7553,24); manlo <= conv_std_logic_vector(187894643,28); WHEN "0111011001" => manhi <= conv_std_logic_vector(7569,24); manlo <= conv_std_logic_vector(189830439,28); WHEN "0111011010" => manhi <= conv_std_logic_vector(7585,24); manlo <= conv_std_logic_vector(191770333,28); WHEN "0111011011" => manhi <= conv_std_logic_vector(7601,24); manlo <= conv_std_logic_vector(193714325,28); WHEN "0111011100" => manhi <= conv_std_logic_vector(7617,24); manlo <= conv_std_logic_vector(195662415,28); WHEN "0111011101" => manhi <= conv_std_logic_vector(7633,24); manlo <= conv_std_logic_vector(197614602,28); WHEN "0111011110" => manhi <= conv_std_logic_vector(7649,24); manlo <= conv_std_logic_vector(199570888,28); WHEN "0111011111" => manhi <= conv_std_logic_vector(7665,24); manlo <= conv_std_logic_vector(201531271,28); WHEN "0111100000" => manhi <= conv_std_logic_vector(7681,24); manlo <= conv_std_logic_vector(203495752,28); WHEN "0111100001" => manhi <= conv_std_logic_vector(7697,24); manlo <= conv_std_logic_vector(205464331,28); WHEN "0111100010" => manhi <= conv_std_logic_vector(7713,24); manlo <= conv_std_logic_vector(207437008,28); WHEN "0111100011" => manhi <= conv_std_logic_vector(7729,24); manlo <= conv_std_logic_vector(209413783,28); WHEN "0111100100" => manhi <= conv_std_logic_vector(7745,24); manlo <= conv_std_logic_vector(211394656,28); WHEN "0111100101" => manhi <= conv_std_logic_vector(7761,24); manlo <= conv_std_logic_vector(213379626,28); WHEN "0111100110" => manhi <= conv_std_logic_vector(7777,24); manlo <= conv_std_logic_vector(215368695,28); WHEN "0111100111" => manhi <= conv_std_logic_vector(7793,24); manlo <= conv_std_logic_vector(217361861,28); WHEN "0111101000" => manhi <= conv_std_logic_vector(7809,24); manlo <= conv_std_logic_vector(219359125,28); WHEN "0111101001" => manhi <= conv_std_logic_vector(7825,24); manlo <= conv_std_logic_vector(221360487,28); WHEN "0111101010" => manhi <= conv_std_logic_vector(7841,24); manlo <= conv_std_logic_vector(223365947,28); WHEN "0111101011" => manhi <= conv_std_logic_vector(7857,24); manlo <= conv_std_logic_vector(225375505,28); WHEN "0111101100" => manhi <= conv_std_logic_vector(7873,24); manlo <= conv_std_logic_vector(227389161,28); WHEN "0111101101" => manhi <= conv_std_logic_vector(7889,24); manlo <= conv_std_logic_vector(229406915,28); WHEN "0111101110" => manhi <= conv_std_logic_vector(7905,24); manlo <= conv_std_logic_vector(231428767,28); WHEN "0111101111" => manhi <= conv_std_logic_vector(7921,24); manlo <= conv_std_logic_vector(233454716,28); WHEN "0111110000" => manhi <= conv_std_logic_vector(7937,24); manlo <= conv_std_logic_vector(235484764,28); WHEN "0111110001" => manhi <= conv_std_logic_vector(7953,24); manlo <= conv_std_logic_vector(237518910,28); WHEN "0111110010" => manhi <= conv_std_logic_vector(7969,24); manlo <= conv_std_logic_vector(239557153,28); WHEN "0111110011" => manhi <= conv_std_logic_vector(7985,24); manlo <= conv_std_logic_vector(241599495,28); WHEN "0111110100" => manhi <= conv_std_logic_vector(8001,24); manlo <= conv_std_logic_vector(243645934,28); WHEN "0111110101" => manhi <= conv_std_logic_vector(8017,24); manlo <= conv_std_logic_vector(245696471,28); WHEN "0111110110" => manhi <= conv_std_logic_vector(8033,24); manlo <= conv_std_logic_vector(247751107,28); WHEN "0111110111" => manhi <= conv_std_logic_vector(8049,24); manlo <= conv_std_logic_vector(249809840,28); WHEN "0111111000" => manhi <= conv_std_logic_vector(8065,24); manlo <= conv_std_logic_vector(251872671,28); WHEN "0111111001" => manhi <= conv_std_logic_vector(8081,24); manlo <= conv_std_logic_vector(253939600,28); WHEN "0111111010" => manhi <= conv_std_logic_vector(8097,24); manlo <= conv_std_logic_vector(256010627,28); WHEN "0111111011" => manhi <= conv_std_logic_vector(8113,24); manlo <= conv_std_logic_vector(258085753,28); WHEN "0111111100" => manhi <= conv_std_logic_vector(8129,24); manlo <= conv_std_logic_vector(260164976,28); WHEN "0111111101" => manhi <= conv_std_logic_vector(8145,24); manlo <= conv_std_logic_vector(262248297,28); WHEN "0111111110" => manhi <= conv_std_logic_vector(8161,24); manlo <= conv_std_logic_vector(264335716,28); WHEN "0111111111" => manhi <= conv_std_logic_vector(8177,24); manlo <= conv_std_logic_vector(266427233,28); WHEN "1000000000" => manhi <= conv_std_logic_vector(8194,24); manlo <= conv_std_logic_vector(87392,28); WHEN "1000000001" => manhi <= conv_std_logic_vector(8210,24); manlo <= conv_std_logic_vector(2187105,28); WHEN "1000000010" => manhi <= conv_std_logic_vector(8226,24); manlo <= conv_std_logic_vector(4290916,28); WHEN "1000000011" => manhi <= conv_std_logic_vector(8242,24); manlo <= conv_std_logic_vector(6398825,28); WHEN "1000000100" => manhi <= conv_std_logic_vector(8258,24); manlo <= conv_std_logic_vector(8510832,28); WHEN "1000000101" => manhi <= conv_std_logic_vector(8274,24); manlo <= conv_std_logic_vector(10626938,28); WHEN "1000000110" => manhi <= conv_std_logic_vector(8290,24); manlo <= conv_std_logic_vector(12747141,28); WHEN "1000000111" => manhi <= conv_std_logic_vector(8306,24); manlo <= conv_std_logic_vector(14871442,28); WHEN "1000001000" => manhi <= conv_std_logic_vector(8322,24); manlo <= conv_std_logic_vector(16999841,28); WHEN "1000001001" => manhi <= conv_std_logic_vector(8338,24); manlo <= conv_std_logic_vector(19132338,28); WHEN "1000001010" => manhi <= conv_std_logic_vector(8354,24); manlo <= conv_std_logic_vector(21268934,28); WHEN "1000001011" => manhi <= conv_std_logic_vector(8370,24); manlo <= conv_std_logic_vector(23409627,28); WHEN "1000001100" => manhi <= conv_std_logic_vector(8386,24); manlo <= conv_std_logic_vector(25554418,28); WHEN "1000001101" => manhi <= conv_std_logic_vector(8402,24); manlo <= conv_std_logic_vector(27703308,28); WHEN "1000001110" => manhi <= conv_std_logic_vector(8418,24); manlo <= conv_std_logic_vector(29856295,28); WHEN "1000001111" => manhi <= conv_std_logic_vector(8434,24); manlo <= conv_std_logic_vector(32013381,28); WHEN "1000010000" => manhi <= conv_std_logic_vector(8450,24); manlo <= conv_std_logic_vector(34174564,28); WHEN "1000010001" => manhi <= conv_std_logic_vector(8466,24); manlo <= conv_std_logic_vector(36339846,28); WHEN "1000010010" => manhi <= conv_std_logic_vector(8482,24); manlo <= conv_std_logic_vector(38509225,28); WHEN "1000010011" => manhi <= conv_std_logic_vector(8498,24); manlo <= conv_std_logic_vector(40682703,28); WHEN "1000010100" => manhi <= conv_std_logic_vector(8514,24); manlo <= conv_std_logic_vector(42860279,28); WHEN "1000010101" => manhi <= conv_std_logic_vector(8530,24); manlo <= conv_std_logic_vector(45041953,28); WHEN "1000010110" => manhi <= conv_std_logic_vector(8546,24); manlo <= conv_std_logic_vector(47227725,28); WHEN "1000010111" => manhi <= conv_std_logic_vector(8562,24); manlo <= conv_std_logic_vector(49417595,28); WHEN "1000011000" => manhi <= conv_std_logic_vector(8578,24); manlo <= conv_std_logic_vector(51611563,28); WHEN "1000011001" => manhi <= conv_std_logic_vector(8594,24); manlo <= conv_std_logic_vector(53809629,28); WHEN "1000011010" => manhi <= conv_std_logic_vector(8610,24); manlo <= conv_std_logic_vector(56011794,28); WHEN "1000011011" => manhi <= conv_std_logic_vector(8626,24); manlo <= conv_std_logic_vector(58218056,28); WHEN "1000011100" => manhi <= conv_std_logic_vector(8642,24); manlo <= conv_std_logic_vector(60428417,28); WHEN "1000011101" => manhi <= conv_std_logic_vector(8658,24); manlo <= conv_std_logic_vector(62642876,28); WHEN "1000011110" => manhi <= conv_std_logic_vector(8674,24); manlo <= conv_std_logic_vector(64861432,28); WHEN "1000011111" => manhi <= conv_std_logic_vector(8690,24); manlo <= conv_std_logic_vector(67084087,28); WHEN "1000100000" => manhi <= conv_std_logic_vector(8706,24); manlo <= conv_std_logic_vector(69310840,28); WHEN "1000100001" => manhi <= conv_std_logic_vector(8722,24); manlo <= conv_std_logic_vector(71541691,28); WHEN "1000100010" => manhi <= conv_std_logic_vector(8738,24); manlo <= conv_std_logic_vector(73776641,28); WHEN "1000100011" => manhi <= conv_std_logic_vector(8754,24); manlo <= conv_std_logic_vector(76015688,28); WHEN "1000100100" => manhi <= conv_std_logic_vector(8770,24); manlo <= conv_std_logic_vector(78258834,28); WHEN "1000100101" => manhi <= conv_std_logic_vector(8786,24); manlo <= conv_std_logic_vector(80506077,28); WHEN "1000100110" => manhi <= conv_std_logic_vector(8802,24); manlo <= conv_std_logic_vector(82757419,28); WHEN "1000100111" => manhi <= conv_std_logic_vector(8818,24); manlo <= conv_std_logic_vector(85012859,28); WHEN "1000101000" => manhi <= conv_std_logic_vector(8834,24); manlo <= conv_std_logic_vector(87272397,28); WHEN "1000101001" => manhi <= conv_std_logic_vector(8850,24); manlo <= conv_std_logic_vector(89536034,28); WHEN "1000101010" => manhi <= conv_std_logic_vector(8866,24); manlo <= conv_std_logic_vector(91803768,28); WHEN "1000101011" => manhi <= conv_std_logic_vector(8882,24); manlo <= conv_std_logic_vector(94075601,28); WHEN "1000101100" => manhi <= conv_std_logic_vector(8898,24); manlo <= conv_std_logic_vector(96351532,28); WHEN "1000101101" => manhi <= conv_std_logic_vector(8914,24); manlo <= conv_std_logic_vector(98631561,28); WHEN "1000101110" => manhi <= conv_std_logic_vector(8930,24); manlo <= conv_std_logic_vector(100915688,28); WHEN "1000101111" => manhi <= conv_std_logic_vector(8946,24); manlo <= conv_std_logic_vector(103203913,28); WHEN "1000110000" => manhi <= conv_std_logic_vector(8962,24); manlo <= conv_std_logic_vector(105496237,28); WHEN "1000110001" => manhi <= conv_std_logic_vector(8978,24); manlo <= conv_std_logic_vector(107792658,28); WHEN "1000110010" => manhi <= conv_std_logic_vector(8994,24); manlo <= conv_std_logic_vector(110093178,28); WHEN "1000110011" => manhi <= conv_std_logic_vector(9010,24); manlo <= conv_std_logic_vector(112397796,28); WHEN "1000110100" => manhi <= conv_std_logic_vector(9026,24); manlo <= conv_std_logic_vector(114706513,28); WHEN "1000110101" => manhi <= conv_std_logic_vector(9042,24); manlo <= conv_std_logic_vector(117019327,28); WHEN "1000110110" => manhi <= conv_std_logic_vector(9058,24); manlo <= conv_std_logic_vector(119336240,28); WHEN "1000110111" => manhi <= conv_std_logic_vector(9074,24); manlo <= conv_std_logic_vector(121657251,28); WHEN "1000111000" => manhi <= conv_std_logic_vector(9090,24); manlo <= conv_std_logic_vector(123982360,28); WHEN "1000111001" => manhi <= conv_std_logic_vector(9106,24); manlo <= conv_std_logic_vector(126311567,28); WHEN "1000111010" => manhi <= conv_std_logic_vector(9122,24); manlo <= conv_std_logic_vector(128644873,28); WHEN "1000111011" => manhi <= conv_std_logic_vector(9138,24); manlo <= conv_std_logic_vector(130982277,28); WHEN "1000111100" => manhi <= conv_std_logic_vector(9154,24); manlo <= conv_std_logic_vector(133323779,28); WHEN "1000111101" => manhi <= conv_std_logic_vector(9170,24); manlo <= conv_std_logic_vector(135669379,28); WHEN "1000111110" => manhi <= conv_std_logic_vector(9186,24); manlo <= conv_std_logic_vector(138019077,28); WHEN "1000111111" => manhi <= conv_std_logic_vector(9202,24); manlo <= conv_std_logic_vector(140372874,28); WHEN "1001000000" => manhi <= conv_std_logic_vector(9218,24); manlo <= conv_std_logic_vector(142730769,28); WHEN "1001000001" => manhi <= conv_std_logic_vector(9234,24); manlo <= conv_std_logic_vector(145092762,28); WHEN "1001000010" => manhi <= conv_std_logic_vector(9250,24); manlo <= conv_std_logic_vector(147458854,28); WHEN "1001000011" => manhi <= conv_std_logic_vector(9266,24); manlo <= conv_std_logic_vector(149829044,28); WHEN "1001000100" => manhi <= conv_std_logic_vector(9282,24); manlo <= conv_std_logic_vector(152203332,28); WHEN "1001000101" => manhi <= conv_std_logic_vector(9298,24); manlo <= conv_std_logic_vector(154581718,28); WHEN "1001000110" => manhi <= conv_std_logic_vector(9314,24); manlo <= conv_std_logic_vector(156964202,28); WHEN "1001000111" => manhi <= conv_std_logic_vector(9330,24); manlo <= conv_std_logic_vector(159350785,28); WHEN "1001001000" => manhi <= conv_std_logic_vector(9346,24); manlo <= conv_std_logic_vector(161741466,28); WHEN "1001001001" => manhi <= conv_std_logic_vector(9362,24); manlo <= conv_std_logic_vector(164136246,28); WHEN "1001001010" => manhi <= conv_std_logic_vector(9378,24); manlo <= conv_std_logic_vector(166535123,28); WHEN "1001001011" => manhi <= conv_std_logic_vector(9394,24); manlo <= conv_std_logic_vector(168938099,28); WHEN "1001001100" => manhi <= conv_std_logic_vector(9410,24); manlo <= conv_std_logic_vector(171345174,28); WHEN "1001001101" => manhi <= conv_std_logic_vector(9426,24); manlo <= conv_std_logic_vector(173756346,28); WHEN "1001001110" => manhi <= conv_std_logic_vector(9442,24); manlo <= conv_std_logic_vector(176171617,28); WHEN "1001001111" => manhi <= conv_std_logic_vector(9458,24); manlo <= conv_std_logic_vector(178590986,28); WHEN "1001010000" => manhi <= conv_std_logic_vector(9474,24); manlo <= conv_std_logic_vector(181014454,28); WHEN "1001010001" => manhi <= conv_std_logic_vector(9490,24); manlo <= conv_std_logic_vector(183442020,28); WHEN "1001010010" => manhi <= conv_std_logic_vector(9506,24); manlo <= conv_std_logic_vector(185873684,28); WHEN "1001010011" => manhi <= conv_std_logic_vector(9522,24); manlo <= conv_std_logic_vector(188309446,28); WHEN "1001010100" => manhi <= conv_std_logic_vector(9538,24); manlo <= conv_std_logic_vector(190749307,28); WHEN "1001010101" => manhi <= conv_std_logic_vector(9554,24); manlo <= conv_std_logic_vector(193193266,28); WHEN "1001010110" => manhi <= conv_std_logic_vector(9570,24); manlo <= conv_std_logic_vector(195641323,28); WHEN "1001010111" => manhi <= conv_std_logic_vector(9586,24); manlo <= conv_std_logic_vector(198093479,28); WHEN "1001011000" => manhi <= conv_std_logic_vector(9602,24); manlo <= conv_std_logic_vector(200549733,28); WHEN "1001011001" => manhi <= conv_std_logic_vector(9618,24); manlo <= conv_std_logic_vector(203010086,28); WHEN "1001011010" => manhi <= conv_std_logic_vector(9634,24); manlo <= conv_std_logic_vector(205474536,28); WHEN "1001011011" => manhi <= conv_std_logic_vector(9650,24); manlo <= conv_std_logic_vector(207943085,28); WHEN "1001011100" => manhi <= conv_std_logic_vector(9666,24); manlo <= conv_std_logic_vector(210415733,28); WHEN "1001011101" => manhi <= conv_std_logic_vector(9682,24); manlo <= conv_std_logic_vector(212892479,28); WHEN "1001011110" => manhi <= conv_std_logic_vector(9698,24); manlo <= conv_std_logic_vector(215373323,28); WHEN "1001011111" => manhi <= conv_std_logic_vector(9714,24); manlo <= conv_std_logic_vector(217858266,28); WHEN "1001100000" => manhi <= conv_std_logic_vector(9730,24); manlo <= conv_std_logic_vector(220347307,28); WHEN "1001100001" => manhi <= conv_std_logic_vector(9746,24); manlo <= conv_std_logic_vector(222840446,28); WHEN "1001100010" => manhi <= conv_std_logic_vector(9762,24); manlo <= conv_std_logic_vector(225337684,28); WHEN "1001100011" => manhi <= conv_std_logic_vector(9778,24); manlo <= conv_std_logic_vector(227839020,28); WHEN "1001100100" => manhi <= conv_std_logic_vector(9794,24); manlo <= conv_std_logic_vector(230344454,28); WHEN "1001100101" => manhi <= conv_std_logic_vector(9810,24); manlo <= conv_std_logic_vector(232853987,28); WHEN "1001100110" => manhi <= conv_std_logic_vector(9826,24); manlo <= conv_std_logic_vector(235367618,28); WHEN "1001100111" => manhi <= conv_std_logic_vector(9842,24); manlo <= conv_std_logic_vector(237885348,28); WHEN "1001101000" => manhi <= conv_std_logic_vector(9858,24); manlo <= conv_std_logic_vector(240407176,28); WHEN "1001101001" => manhi <= conv_std_logic_vector(9874,24); manlo <= conv_std_logic_vector(242933102,28); WHEN "1001101010" => manhi <= conv_std_logic_vector(9890,24); manlo <= conv_std_logic_vector(245463127,28); WHEN "1001101011" => manhi <= conv_std_logic_vector(9906,24); manlo <= conv_std_logic_vector(247997251,28); WHEN "1001101100" => manhi <= conv_std_logic_vector(9922,24); manlo <= conv_std_logic_vector(250535472,28); WHEN "1001101101" => manhi <= conv_std_logic_vector(9938,24); manlo <= conv_std_logic_vector(253077793,28); WHEN "1001101110" => manhi <= conv_std_logic_vector(9954,24); manlo <= conv_std_logic_vector(255624211,28); WHEN "1001101111" => manhi <= conv_std_logic_vector(9970,24); manlo <= conv_std_logic_vector(258174728,28); WHEN "1001110000" => manhi <= conv_std_logic_vector(9986,24); manlo <= conv_std_logic_vector(260729344,28); WHEN "1001110001" => manhi <= conv_std_logic_vector(10002,24); manlo <= conv_std_logic_vector(263288057,28); WHEN "1001110010" => manhi <= conv_std_logic_vector(10018,24); manlo <= conv_std_logic_vector(265850870,28); WHEN "1001110011" => manhi <= conv_std_logic_vector(10034,24); manlo <= conv_std_logic_vector(268417780,28); WHEN "1001110100" => manhi <= conv_std_logic_vector(10051,24); manlo <= conv_std_logic_vector(2553334,28); WHEN "1001110101" => manhi <= conv_std_logic_vector(10067,24); manlo <= conv_std_logic_vector(5128441,28); WHEN "1001110110" => manhi <= conv_std_logic_vector(10083,24); manlo <= conv_std_logic_vector(7707647,28); WHEN "1001110111" => manhi <= conv_std_logic_vector(10099,24); manlo <= conv_std_logic_vector(10290952,28); WHEN "1001111000" => manhi <= conv_std_logic_vector(10115,24); manlo <= conv_std_logic_vector(12878355,28); WHEN "1001111001" => manhi <= conv_std_logic_vector(10131,24); manlo <= conv_std_logic_vector(15469857,28); WHEN "1001111010" => manhi <= conv_std_logic_vector(10147,24); manlo <= conv_std_logic_vector(18065457,28); WHEN "1001111011" => manhi <= conv_std_logic_vector(10163,24); manlo <= conv_std_logic_vector(20665155,28); WHEN "1001111100" => manhi <= conv_std_logic_vector(10179,24); manlo <= conv_std_logic_vector(23268952,28); WHEN "1001111101" => manhi <= conv_std_logic_vector(10195,24); manlo <= conv_std_logic_vector(25876847,28); WHEN "1001111110" => manhi <= conv_std_logic_vector(10211,24); manlo <= conv_std_logic_vector(28488841,28); WHEN "1001111111" => manhi <= conv_std_logic_vector(10227,24); manlo <= conv_std_logic_vector(31104934,28); WHEN "1010000000" => manhi <= conv_std_logic_vector(10243,24); manlo <= conv_std_logic_vector(33725125,28); WHEN "1010000001" => manhi <= conv_std_logic_vector(10259,24); manlo <= conv_std_logic_vector(36349414,28); WHEN "1010000010" => manhi <= conv_std_logic_vector(10275,24); manlo <= conv_std_logic_vector(38977802,28); WHEN "1010000011" => manhi <= conv_std_logic_vector(10291,24); manlo <= conv_std_logic_vector(41610288,28); WHEN "1010000100" => manhi <= conv_std_logic_vector(10307,24); manlo <= conv_std_logic_vector(44246873,28); WHEN "1010000101" => manhi <= conv_std_logic_vector(10323,24); manlo <= conv_std_logic_vector(46887557,28); WHEN "1010000110" => manhi <= conv_std_logic_vector(10339,24); manlo <= conv_std_logic_vector(49532339,28); WHEN "1010000111" => manhi <= conv_std_logic_vector(10355,24); manlo <= conv_std_logic_vector(52181219,28); WHEN "1010001000" => manhi <= conv_std_logic_vector(10371,24); manlo <= conv_std_logic_vector(54834198,28); WHEN "1010001001" => manhi <= conv_std_logic_vector(10387,24); manlo <= conv_std_logic_vector(57491276,28); WHEN "1010001010" => manhi <= conv_std_logic_vector(10403,24); manlo <= conv_std_logic_vector(60152452,28); WHEN "1010001011" => manhi <= conv_std_logic_vector(10419,24); manlo <= conv_std_logic_vector(62817727,28); WHEN "1010001100" => manhi <= conv_std_logic_vector(10435,24); manlo <= conv_std_logic_vector(65487100,28); WHEN "1010001101" => manhi <= conv_std_logic_vector(10451,24); manlo <= conv_std_logic_vector(68160572,28); WHEN "1010001110" => manhi <= conv_std_logic_vector(10467,24); manlo <= conv_std_logic_vector(70838142,28); WHEN "1010001111" => manhi <= conv_std_logic_vector(10483,24); manlo <= conv_std_logic_vector(73519811,28); WHEN "1010010000" => manhi <= conv_std_logic_vector(10499,24); manlo <= conv_std_logic_vector(76205578,28); WHEN "1010010001" => manhi <= conv_std_logic_vector(10515,24); manlo <= conv_std_logic_vector(78895444,28); WHEN "1010010010" => manhi <= conv_std_logic_vector(10531,24); manlo <= conv_std_logic_vector(81589409,28); WHEN "1010010011" => manhi <= conv_std_logic_vector(10547,24); manlo <= conv_std_logic_vector(84287472,28); WHEN "1010010100" => manhi <= conv_std_logic_vector(10563,24); manlo <= conv_std_logic_vector(86989633,28); WHEN "1010010101" => manhi <= conv_std_logic_vector(10579,24); manlo <= conv_std_logic_vector(89695894,28); WHEN "1010010110" => manhi <= conv_std_logic_vector(10595,24); manlo <= conv_std_logic_vector(92406252,28); WHEN "1010010111" => manhi <= conv_std_logic_vector(10611,24); manlo <= conv_std_logic_vector(95120710,28); WHEN "1010011000" => manhi <= conv_std_logic_vector(10627,24); manlo <= conv_std_logic_vector(97839266,28); WHEN "1010011001" => manhi <= conv_std_logic_vector(10643,24); manlo <= conv_std_logic_vector(100561920,28); WHEN "1010011010" => manhi <= conv_std_logic_vector(10659,24); manlo <= conv_std_logic_vector(103288674,28); WHEN "1010011011" => manhi <= conv_std_logic_vector(10675,24); manlo <= conv_std_logic_vector(106019525,28); WHEN "1010011100" => manhi <= conv_std_logic_vector(10691,24); manlo <= conv_std_logic_vector(108754476,28); WHEN "1010011101" => manhi <= conv_std_logic_vector(10707,24); manlo <= conv_std_logic_vector(111493525,28); WHEN "1010011110" => manhi <= conv_std_logic_vector(10723,24); manlo <= conv_std_logic_vector(114236673,28); WHEN "1010011111" => manhi <= conv_std_logic_vector(10739,24); manlo <= conv_std_logic_vector(116983919,28); WHEN "1010100000" => manhi <= conv_std_logic_vector(10755,24); manlo <= conv_std_logic_vector(119735264,28); WHEN "1010100001" => manhi <= conv_std_logic_vector(10771,24); manlo <= conv_std_logic_vector(122490707,28); WHEN "1010100010" => manhi <= conv_std_logic_vector(10787,24); manlo <= conv_std_logic_vector(125250249,28); WHEN "1010100011" => manhi <= conv_std_logic_vector(10803,24); manlo <= conv_std_logic_vector(128013890,28); WHEN "1010100100" => manhi <= conv_std_logic_vector(10819,24); manlo <= conv_std_logic_vector(130781629,28); WHEN "1010100101" => manhi <= conv_std_logic_vector(10835,24); manlo <= conv_std_logic_vector(133553468,28); WHEN "1010100110" => manhi <= conv_std_logic_vector(10851,24); manlo <= conv_std_logic_vector(136329404,28); WHEN "1010100111" => manhi <= conv_std_logic_vector(10867,24); manlo <= conv_std_logic_vector(139109440,28); WHEN "1010101000" => manhi <= conv_std_logic_vector(10883,24); manlo <= conv_std_logic_vector(141893574,28); WHEN "1010101001" => manhi <= conv_std_logic_vector(10899,24); manlo <= conv_std_logic_vector(144681806,28); WHEN "1010101010" => manhi <= conv_std_logic_vector(10915,24); manlo <= conv_std_logic_vector(147474137,28); WHEN "1010101011" => manhi <= conv_std_logic_vector(10931,24); manlo <= conv_std_logic_vector(150270567,28); WHEN "1010101100" => manhi <= conv_std_logic_vector(10947,24); manlo <= conv_std_logic_vector(153071096,28); WHEN "1010101101" => manhi <= conv_std_logic_vector(10963,24); manlo <= conv_std_logic_vector(155875723,28); WHEN "1010101110" => manhi <= conv_std_logic_vector(10979,24); manlo <= conv_std_logic_vector(158684449,28); WHEN "1010101111" => manhi <= conv_std_logic_vector(10995,24); manlo <= conv_std_logic_vector(161497274,28); WHEN "1010110000" => manhi <= conv_std_logic_vector(11011,24); manlo <= conv_std_logic_vector(164314197,28); WHEN "1010110001" => manhi <= conv_std_logic_vector(11027,24); manlo <= conv_std_logic_vector(167135219,28); WHEN "1010110010" => manhi <= conv_std_logic_vector(11043,24); manlo <= conv_std_logic_vector(169960340,28); WHEN "1010110011" => manhi <= conv_std_logic_vector(11059,24); manlo <= conv_std_logic_vector(172789560,28); WHEN "1010110100" => manhi <= conv_std_logic_vector(11075,24); manlo <= conv_std_logic_vector(175622878,28); WHEN "1010110101" => manhi <= conv_std_logic_vector(11091,24); manlo <= conv_std_logic_vector(178460295,28); WHEN "1010110110" => manhi <= conv_std_logic_vector(11107,24); manlo <= conv_std_logic_vector(181301810,28); WHEN "1010110111" => manhi <= conv_std_logic_vector(11123,24); manlo <= conv_std_logic_vector(184147424,28); WHEN "1010111000" => manhi <= conv_std_logic_vector(11139,24); manlo <= conv_std_logic_vector(186997137,28); WHEN "1010111001" => manhi <= conv_std_logic_vector(11155,24); manlo <= conv_std_logic_vector(189850949,28); WHEN "1010111010" => manhi <= conv_std_logic_vector(11171,24); manlo <= conv_std_logic_vector(192708860,28); WHEN "1010111011" => manhi <= conv_std_logic_vector(11187,24); manlo <= conv_std_logic_vector(195570869,28); WHEN "1010111100" => manhi <= conv_std_logic_vector(11203,24); manlo <= conv_std_logic_vector(198436977,28); WHEN "1010111101" => manhi <= conv_std_logic_vector(11219,24); manlo <= conv_std_logic_vector(201307183,28); WHEN "1010111110" => manhi <= conv_std_logic_vector(11235,24); manlo <= conv_std_logic_vector(204181489,28); WHEN "1010111111" => manhi <= conv_std_logic_vector(11251,24); manlo <= conv_std_logic_vector(207059893,28); WHEN "1011000000" => manhi <= conv_std_logic_vector(11267,24); manlo <= conv_std_logic_vector(209942395,28); WHEN "1011000001" => manhi <= conv_std_logic_vector(11283,24); manlo <= conv_std_logic_vector(212828997,28); WHEN "1011000010" => manhi <= conv_std_logic_vector(11299,24); manlo <= conv_std_logic_vector(215719697,28); WHEN "1011000011" => manhi <= conv_std_logic_vector(11315,24); manlo <= conv_std_logic_vector(218614497,28); WHEN "1011000100" => manhi <= conv_std_logic_vector(11331,24); manlo <= conv_std_logic_vector(221513394,28); WHEN "1011000101" => manhi <= conv_std_logic_vector(11347,24); manlo <= conv_std_logic_vector(224416391,28); WHEN "1011000110" => manhi <= conv_std_logic_vector(11363,24); manlo <= conv_std_logic_vector(227323486,28); WHEN "1011000111" => manhi <= conv_std_logic_vector(11379,24); manlo <= conv_std_logic_vector(230234681,28); WHEN "1011001000" => manhi <= conv_std_logic_vector(11395,24); manlo <= conv_std_logic_vector(233149974,28); WHEN "1011001001" => manhi <= conv_std_logic_vector(11411,24); manlo <= conv_std_logic_vector(236069365,28); WHEN "1011001010" => manhi <= conv_std_logic_vector(11427,24); manlo <= conv_std_logic_vector(238992856,28); WHEN "1011001011" => manhi <= conv_std_logic_vector(11443,24); manlo <= conv_std_logic_vector(241920445,28); WHEN "1011001100" => manhi <= conv_std_logic_vector(11459,24); manlo <= conv_std_logic_vector(244852133,28); WHEN "1011001101" => manhi <= conv_std_logic_vector(11475,24); manlo <= conv_std_logic_vector(247787920,28); WHEN "1011001110" => manhi <= conv_std_logic_vector(11491,24); manlo <= conv_std_logic_vector(250727806,28); WHEN "1011001111" => manhi <= conv_std_logic_vector(11507,24); manlo <= conv_std_logic_vector(253671790,28); WHEN "1011010000" => manhi <= conv_std_logic_vector(11523,24); manlo <= conv_std_logic_vector(256619874,28); WHEN "1011010001" => manhi <= conv_std_logic_vector(11539,24); manlo <= conv_std_logic_vector(259572056,28); WHEN "1011010010" => manhi <= conv_std_logic_vector(11555,24); manlo <= conv_std_logic_vector(262528337,28); WHEN "1011010011" => manhi <= conv_std_logic_vector(11571,24); manlo <= conv_std_logic_vector(265488717,28); WHEN "1011010100" => manhi <= conv_std_logic_vector(11588,24); manlo <= conv_std_logic_vector(17739,28); WHEN "1011010101" => manhi <= conv_std_logic_vector(11604,24); manlo <= conv_std_logic_vector(2986317,28); WHEN "1011010110" => manhi <= conv_std_logic_vector(11620,24); manlo <= conv_std_logic_vector(5958993,28); WHEN "1011010111" => manhi <= conv_std_logic_vector(11636,24); manlo <= conv_std_logic_vector(8935768,28); WHEN "1011011000" => manhi <= conv_std_logic_vector(11652,24); manlo <= conv_std_logic_vector(11916642,28); WHEN "1011011001" => manhi <= conv_std_logic_vector(11668,24); manlo <= conv_std_logic_vector(14901615,28); WHEN "1011011010" => manhi <= conv_std_logic_vector(11684,24); manlo <= conv_std_logic_vector(17890686,28); WHEN "1011011011" => manhi <= conv_std_logic_vector(11700,24); manlo <= conv_std_logic_vector(20883857,28); WHEN "1011011100" => manhi <= conv_std_logic_vector(11716,24); manlo <= conv_std_logic_vector(23881126,28); WHEN "1011011101" => manhi <= conv_std_logic_vector(11732,24); manlo <= conv_std_logic_vector(26882494,28); WHEN "1011011110" => manhi <= conv_std_logic_vector(11748,24); manlo <= conv_std_logic_vector(29887961,28); WHEN "1011011111" => manhi <= conv_std_logic_vector(11764,24); manlo <= conv_std_logic_vector(32897527,28); WHEN "1011100000" => manhi <= conv_std_logic_vector(11780,24); manlo <= conv_std_logic_vector(35911192,28); WHEN "1011100001" => manhi <= conv_std_logic_vector(11796,24); manlo <= conv_std_logic_vector(38928956,28); WHEN "1011100010" => manhi <= conv_std_logic_vector(11812,24); manlo <= conv_std_logic_vector(41950818,28); WHEN "1011100011" => manhi <= conv_std_logic_vector(11828,24); manlo <= conv_std_logic_vector(44976780,28); WHEN "1011100100" => manhi <= conv_std_logic_vector(11844,24); manlo <= conv_std_logic_vector(48006840,28); WHEN "1011100101" => manhi <= conv_std_logic_vector(11860,24); manlo <= conv_std_logic_vector(51040999,28); WHEN "1011100110" => manhi <= conv_std_logic_vector(11876,24); manlo <= conv_std_logic_vector(54079258,28); WHEN "1011100111" => manhi <= conv_std_logic_vector(11892,24); manlo <= conv_std_logic_vector(57121615,28); WHEN "1011101000" => manhi <= conv_std_logic_vector(11908,24); manlo <= conv_std_logic_vector(60168071,28); WHEN "1011101001" => manhi <= conv_std_logic_vector(11924,24); manlo <= conv_std_logic_vector(63218625,28); WHEN "1011101010" => manhi <= conv_std_logic_vector(11940,24); manlo <= conv_std_logic_vector(66273279,28); WHEN "1011101011" => manhi <= conv_std_logic_vector(11956,24); manlo <= conv_std_logic_vector(69332032,28); WHEN "1011101100" => manhi <= conv_std_logic_vector(11972,24); manlo <= conv_std_logic_vector(72394883,28); WHEN "1011101101" => manhi <= conv_std_logic_vector(11988,24); manlo <= conv_std_logic_vector(75461834,28); WHEN "1011101110" => manhi <= conv_std_logic_vector(12004,24); manlo <= conv_std_logic_vector(78532883,28); WHEN "1011101111" => manhi <= conv_std_logic_vector(12020,24); manlo <= conv_std_logic_vector(81608032,28); WHEN "1011110000" => manhi <= conv_std_logic_vector(12036,24); manlo <= conv_std_logic_vector(84687279,28); WHEN "1011110001" => manhi <= conv_std_logic_vector(12052,24); manlo <= conv_std_logic_vector(87770625,28); WHEN "1011110010" => manhi <= conv_std_logic_vector(12068,24); manlo <= conv_std_logic_vector(90858070,28); WHEN "1011110011" => manhi <= conv_std_logic_vector(12084,24); manlo <= conv_std_logic_vector(93949615,28); WHEN "1011110100" => manhi <= conv_std_logic_vector(12100,24); manlo <= conv_std_logic_vector(97045258,28); WHEN "1011110101" => manhi <= conv_std_logic_vector(12116,24); manlo <= conv_std_logic_vector(100145000,28); WHEN "1011110110" => manhi <= conv_std_logic_vector(12132,24); manlo <= conv_std_logic_vector(103248841,28); WHEN "1011110111" => manhi <= conv_std_logic_vector(12148,24); manlo <= conv_std_logic_vector(106356781,28); WHEN "1011111000" => manhi <= conv_std_logic_vector(12164,24); manlo <= conv_std_logic_vector(109468819,28); WHEN "1011111001" => manhi <= conv_std_logic_vector(12180,24); manlo <= conv_std_logic_vector(112584957,28); WHEN "1011111010" => manhi <= conv_std_logic_vector(12196,24); manlo <= conv_std_logic_vector(115705194,28); WHEN "1011111011" => manhi <= conv_std_logic_vector(12212,24); manlo <= conv_std_logic_vector(118829530,28); WHEN "1011111100" => manhi <= conv_std_logic_vector(12228,24); manlo <= conv_std_logic_vector(121957965,28); WHEN "1011111101" => manhi <= conv_std_logic_vector(12244,24); manlo <= conv_std_logic_vector(125090499,28); WHEN "1011111110" => manhi <= conv_std_logic_vector(12260,24); manlo <= conv_std_logic_vector(128227131,28); WHEN "1011111111" => manhi <= conv_std_logic_vector(12276,24); manlo <= conv_std_logic_vector(131367863,28); WHEN "1100000000" => manhi <= conv_std_logic_vector(12292,24); manlo <= conv_std_logic_vector(134512694,28); WHEN "1100000001" => manhi <= conv_std_logic_vector(12308,24); manlo <= conv_std_logic_vector(137661624,28); WHEN "1100000010" => manhi <= conv_std_logic_vector(12324,24); manlo <= conv_std_logic_vector(140814653,28); WHEN "1100000011" => manhi <= conv_std_logic_vector(12340,24); manlo <= conv_std_logic_vector(143971780,28); WHEN "1100000100" => manhi <= conv_std_logic_vector(12356,24); manlo <= conv_std_logic_vector(147133007,28); WHEN "1100000101" => manhi <= conv_std_logic_vector(12372,24); manlo <= conv_std_logic_vector(150298333,28); WHEN "1100000110" => manhi <= conv_std_logic_vector(12388,24); manlo <= conv_std_logic_vector(153467758,28); WHEN "1100000111" => manhi <= conv_std_logic_vector(12404,24); manlo <= conv_std_logic_vector(156641282,28); WHEN "1100001000" => manhi <= conv_std_logic_vector(12420,24); manlo <= conv_std_logic_vector(159818905,28); WHEN "1100001001" => manhi <= conv_std_logic_vector(12436,24); manlo <= conv_std_logic_vector(163000627,28); WHEN "1100001010" => manhi <= conv_std_logic_vector(12452,24); manlo <= conv_std_logic_vector(166186448,28); WHEN "1100001011" => manhi <= conv_std_logic_vector(12468,24); manlo <= conv_std_logic_vector(169376368,28); WHEN "1100001100" => manhi <= conv_std_logic_vector(12484,24); manlo <= conv_std_logic_vector(172570387,28); WHEN "1100001101" => manhi <= conv_std_logic_vector(12500,24); manlo <= conv_std_logic_vector(175768505,28); WHEN "1100001110" => manhi <= conv_std_logic_vector(12516,24); manlo <= conv_std_logic_vector(178970722,28); WHEN "1100001111" => manhi <= conv_std_logic_vector(12532,24); manlo <= conv_std_logic_vector(182177038,28); WHEN "1100010000" => manhi <= conv_std_logic_vector(12548,24); manlo <= conv_std_logic_vector(185387453,28); WHEN "1100010001" => manhi <= conv_std_logic_vector(12564,24); manlo <= conv_std_logic_vector(188601968,28); WHEN "1100010010" => manhi <= conv_std_logic_vector(12580,24); manlo <= conv_std_logic_vector(191820581,28); WHEN "1100010011" => manhi <= conv_std_logic_vector(12596,24); manlo <= conv_std_logic_vector(195043294,28); WHEN "1100010100" => manhi <= conv_std_logic_vector(12612,24); manlo <= conv_std_logic_vector(198270105,28); WHEN "1100010101" => manhi <= conv_std_logic_vector(12628,24); manlo <= conv_std_logic_vector(201501016,28); WHEN "1100010110" => manhi <= conv_std_logic_vector(12644,24); manlo <= conv_std_logic_vector(204736025,28); WHEN "1100010111" => manhi <= conv_std_logic_vector(12660,24); manlo <= conv_std_logic_vector(207975134,28); WHEN "1100011000" => manhi <= conv_std_logic_vector(12676,24); manlo <= conv_std_logic_vector(211218342,28); WHEN "1100011001" => manhi <= conv_std_logic_vector(12692,24); manlo <= conv_std_logic_vector(214465649,28); WHEN "1100011010" => manhi <= conv_std_logic_vector(12708,24); manlo <= conv_std_logic_vector(217717055,28); WHEN "1100011011" => manhi <= conv_std_logic_vector(12724,24); manlo <= conv_std_logic_vector(220972560,28); WHEN "1100011100" => manhi <= conv_std_logic_vector(12740,24); manlo <= conv_std_logic_vector(224232165,28); WHEN "1100011101" => manhi <= conv_std_logic_vector(12756,24); manlo <= conv_std_logic_vector(227495868,28); WHEN "1100011110" => manhi <= conv_std_logic_vector(12772,24); manlo <= conv_std_logic_vector(230763671,28); WHEN "1100011111" => manhi <= conv_std_logic_vector(12788,24); manlo <= conv_std_logic_vector(234035572,28); WHEN "1100100000" => manhi <= conv_std_logic_vector(12804,24); manlo <= conv_std_logic_vector(237311573,28); WHEN "1100100001" => manhi <= conv_std_logic_vector(12820,24); manlo <= conv_std_logic_vector(240591673,28); WHEN "1100100010" => manhi <= conv_std_logic_vector(12836,24); manlo <= conv_std_logic_vector(243875872,28); WHEN "1100100011" => manhi <= conv_std_logic_vector(12852,24); manlo <= conv_std_logic_vector(247164170,28); WHEN "1100100100" => manhi <= conv_std_logic_vector(12868,24); manlo <= conv_std_logic_vector(250456567,28); WHEN "1100100101" => manhi <= conv_std_logic_vector(12884,24); manlo <= conv_std_logic_vector(253753064,28); WHEN "1100100110" => manhi <= conv_std_logic_vector(12900,24); manlo <= conv_std_logic_vector(257053659,28); WHEN "1100100111" => manhi <= conv_std_logic_vector(12916,24); manlo <= conv_std_logic_vector(260358354,28); WHEN "1100101000" => manhi <= conv_std_logic_vector(12932,24); manlo <= conv_std_logic_vector(263667148,28); WHEN "1100101001" => manhi <= conv_std_logic_vector(12948,24); manlo <= conv_std_logic_vector(266980041,28); WHEN "1100101010" => manhi <= conv_std_logic_vector(12965,24); manlo <= conv_std_logic_vector(1861577,28); WHEN "1100101011" => manhi <= conv_std_logic_vector(12981,24); manlo <= conv_std_logic_vector(5182668,28); WHEN "1100101100" => manhi <= conv_std_logic_vector(12997,24); manlo <= conv_std_logic_vector(8507859,28); WHEN "1100101101" => manhi <= conv_std_logic_vector(13013,24); manlo <= conv_std_logic_vector(11837149,28); WHEN "1100101110" => manhi <= conv_std_logic_vector(13029,24); manlo <= conv_std_logic_vector(15170538,28); WHEN "1100101111" => manhi <= conv_std_logic_vector(13045,24); manlo <= conv_std_logic_vector(18508026,28); WHEN "1100110000" => manhi <= conv_std_logic_vector(13061,24); manlo <= conv_std_logic_vector(21849613,28); WHEN "1100110001" => manhi <= conv_std_logic_vector(13077,24); manlo <= conv_std_logic_vector(25195299,28); WHEN "1100110010" => manhi <= conv_std_logic_vector(13093,24); manlo <= conv_std_logic_vector(28545085,28); WHEN "1100110011" => manhi <= conv_std_logic_vector(13109,24); manlo <= conv_std_logic_vector(31898970,28); WHEN "1100110100" => manhi <= conv_std_logic_vector(13125,24); manlo <= conv_std_logic_vector(35256954,28); WHEN "1100110101" => manhi <= conv_std_logic_vector(13141,24); manlo <= conv_std_logic_vector(38619037,28); WHEN "1100110110" => manhi <= conv_std_logic_vector(13157,24); manlo <= conv_std_logic_vector(41985219,28); WHEN "1100110111" => manhi <= conv_std_logic_vector(13173,24); manlo <= conv_std_logic_vector(45355501,28); WHEN "1100111000" => manhi <= conv_std_logic_vector(13189,24); manlo <= conv_std_logic_vector(48729882,28); WHEN "1100111001" => manhi <= conv_std_logic_vector(13205,24); manlo <= conv_std_logic_vector(52108362,28); WHEN "1100111010" => manhi <= conv_std_logic_vector(13221,24); manlo <= conv_std_logic_vector(55490941,28); WHEN "1100111011" => manhi <= conv_std_logic_vector(13237,24); manlo <= conv_std_logic_vector(58877620,28); WHEN "1100111100" => manhi <= conv_std_logic_vector(13253,24); manlo <= conv_std_logic_vector(62268398,28); WHEN "1100111101" => manhi <= conv_std_logic_vector(13269,24); manlo <= conv_std_logic_vector(65663275,28); WHEN "1100111110" => manhi <= conv_std_logic_vector(13285,24); manlo <= conv_std_logic_vector(69062251,28); WHEN "1100111111" => manhi <= conv_std_logic_vector(13301,24); manlo <= conv_std_logic_vector(72465326,28); WHEN "1101000000" => manhi <= conv_std_logic_vector(13317,24); manlo <= conv_std_logic_vector(75872501,28); WHEN "1101000001" => manhi <= conv_std_logic_vector(13333,24); manlo <= conv_std_logic_vector(79283775,28); WHEN "1101000010" => manhi <= conv_std_logic_vector(13349,24); manlo <= conv_std_logic_vector(82699148,28); WHEN "1101000011" => manhi <= conv_std_logic_vector(13365,24); manlo <= conv_std_logic_vector(86118621,28); WHEN "1101000100" => manhi <= conv_std_logic_vector(13381,24); manlo <= conv_std_logic_vector(89542193,28); WHEN "1101000101" => manhi <= conv_std_logic_vector(13397,24); manlo <= conv_std_logic_vector(92969864,28); WHEN "1101000110" => manhi <= conv_std_logic_vector(13413,24); manlo <= conv_std_logic_vector(96401634,28); WHEN "1101000111" => manhi <= conv_std_logic_vector(13429,24); manlo <= conv_std_logic_vector(99837503,28); WHEN "1101001000" => manhi <= conv_std_logic_vector(13445,24); manlo <= conv_std_logic_vector(103277472,28); WHEN "1101001001" => manhi <= conv_std_logic_vector(13461,24); manlo <= conv_std_logic_vector(106721540,28); WHEN "1101001010" => manhi <= conv_std_logic_vector(13477,24); manlo <= conv_std_logic_vector(110169708,28); WHEN "1101001011" => manhi <= conv_std_logic_vector(13493,24); manlo <= conv_std_logic_vector(113621975,28); WHEN "1101001100" => manhi <= conv_std_logic_vector(13509,24); manlo <= conv_std_logic_vector(117078341,28); WHEN "1101001101" => manhi <= conv_std_logic_vector(13525,24); manlo <= conv_std_logic_vector(120538806,28); WHEN "1101001110" => manhi <= conv_std_logic_vector(13541,24); manlo <= conv_std_logic_vector(124003370,28); WHEN "1101001111" => manhi <= conv_std_logic_vector(13557,24); manlo <= conv_std_logic_vector(127472034,28); WHEN "1101010000" => manhi <= conv_std_logic_vector(13573,24); manlo <= conv_std_logic_vector(130944798,28); WHEN "1101010001" => manhi <= conv_std_logic_vector(13589,24); manlo <= conv_std_logic_vector(134421660,28); WHEN "1101010010" => manhi <= conv_std_logic_vector(13605,24); manlo <= conv_std_logic_vector(137902622,28); WHEN "1101010011" => manhi <= conv_std_logic_vector(13621,24); manlo <= conv_std_logic_vector(141387683,28); WHEN "1101010100" => manhi <= conv_std_logic_vector(13637,24); manlo <= conv_std_logic_vector(144876844,28); WHEN "1101010101" => manhi <= conv_std_logic_vector(13653,24); manlo <= conv_std_logic_vector(148370104,28); WHEN "1101010110" => manhi <= conv_std_logic_vector(13669,24); manlo <= conv_std_logic_vector(151867463,28); WHEN "1101010111" => manhi <= conv_std_logic_vector(13685,24); manlo <= conv_std_logic_vector(155368921,28); WHEN "1101011000" => manhi <= conv_std_logic_vector(13701,24); manlo <= conv_std_logic_vector(158874479,28); WHEN "1101011001" => manhi <= conv_std_logic_vector(13717,24); manlo <= conv_std_logic_vector(162384136,28); WHEN "1101011010" => manhi <= conv_std_logic_vector(13733,24); manlo <= conv_std_logic_vector(165897893,28); WHEN "1101011011" => manhi <= conv_std_logic_vector(13749,24); manlo <= conv_std_logic_vector(169415749,28); WHEN "1101011100" => manhi <= conv_std_logic_vector(13765,24); manlo <= conv_std_logic_vector(172937704,28); WHEN "1101011101" => manhi <= conv_std_logic_vector(13781,24); manlo <= conv_std_logic_vector(176463758,28); WHEN "1101011110" => manhi <= conv_std_logic_vector(13797,24); manlo <= conv_std_logic_vector(179993912,28); WHEN "1101011111" => manhi <= conv_std_logic_vector(13813,24); manlo <= conv_std_logic_vector(183528166,28); WHEN "1101100000" => manhi <= conv_std_logic_vector(13829,24); manlo <= conv_std_logic_vector(187066519,28); WHEN "1101100001" => manhi <= conv_std_logic_vector(13845,24); manlo <= conv_std_logic_vector(190608971,28); WHEN "1101100010" => manhi <= conv_std_logic_vector(13861,24); manlo <= conv_std_logic_vector(194155522,28); WHEN "1101100011" => manhi <= conv_std_logic_vector(13877,24); manlo <= conv_std_logic_vector(197706173,28); WHEN "1101100100" => manhi <= conv_std_logic_vector(13893,24); manlo <= conv_std_logic_vector(201260923,28); WHEN "1101100101" => manhi <= conv_std_logic_vector(13909,24); manlo <= conv_std_logic_vector(204819773,28); WHEN "1101100110" => manhi <= conv_std_logic_vector(13925,24); manlo <= conv_std_logic_vector(208382722,28); WHEN "1101100111" => manhi <= conv_std_logic_vector(13941,24); manlo <= conv_std_logic_vector(211949770,28); WHEN "1101101000" => manhi <= conv_std_logic_vector(13957,24); manlo <= conv_std_logic_vector(215520918,28); WHEN "1101101001" => manhi <= conv_std_logic_vector(13973,24); manlo <= conv_std_logic_vector(219096165,28); WHEN "1101101010" => manhi <= conv_std_logic_vector(13989,24); manlo <= conv_std_logic_vector(222675512,28); WHEN "1101101011" => manhi <= conv_std_logic_vector(14005,24); manlo <= conv_std_logic_vector(226258958,28); WHEN "1101101100" => manhi <= conv_std_logic_vector(14021,24); manlo <= conv_std_logic_vector(229846504,28); WHEN "1101101101" => manhi <= conv_std_logic_vector(14037,24); manlo <= conv_std_logic_vector(233438148,28); WHEN "1101101110" => manhi <= conv_std_logic_vector(14053,24); manlo <= conv_std_logic_vector(237033893,28); WHEN "1101101111" => manhi <= conv_std_logic_vector(14069,24); manlo <= conv_std_logic_vector(240633737,28); WHEN "1101110000" => manhi <= conv_std_logic_vector(14085,24); manlo <= conv_std_logic_vector(244237680,28); WHEN "1101110001" => manhi <= conv_std_logic_vector(14101,24); manlo <= conv_std_logic_vector(247845722,28); WHEN "1101110010" => manhi <= conv_std_logic_vector(14117,24); manlo <= conv_std_logic_vector(251457864,28); WHEN "1101110011" => manhi <= conv_std_logic_vector(14133,24); manlo <= conv_std_logic_vector(255074106,28); WHEN "1101110100" => manhi <= conv_std_logic_vector(14149,24); manlo <= conv_std_logic_vector(258694447,28); WHEN "1101110101" => manhi <= conv_std_logic_vector(14165,24); manlo <= conv_std_logic_vector(262318887,28); WHEN "1101110110" => manhi <= conv_std_logic_vector(14181,24); manlo <= conv_std_logic_vector(265947427,28); WHEN "1101110111" => manhi <= conv_std_logic_vector(14198,24); manlo <= conv_std_logic_vector(1144611,28); WHEN "1101111000" => manhi <= conv_std_logic_vector(14214,24); manlo <= conv_std_logic_vector(4781350,28); WHEN "1101111001" => manhi <= conv_std_logic_vector(14230,24); manlo <= conv_std_logic_vector(8422188,28); WHEN "1101111010" => manhi <= conv_std_logic_vector(14246,24); manlo <= conv_std_logic_vector(12067126,28); WHEN "1101111011" => manhi <= conv_std_logic_vector(14262,24); manlo <= conv_std_logic_vector(15716163,28); WHEN "1101111100" => manhi <= conv_std_logic_vector(14278,24); manlo <= conv_std_logic_vector(19369300,28); WHEN "1101111101" => manhi <= conv_std_logic_vector(14294,24); manlo <= conv_std_logic_vector(23026536,28); WHEN "1101111110" => manhi <= conv_std_logic_vector(14310,24); manlo <= conv_std_logic_vector(26687871,28); WHEN "1101111111" => manhi <= conv_std_logic_vector(14326,24); manlo <= conv_std_logic_vector(30353307,28); WHEN "1110000000" => manhi <= conv_std_logic_vector(14342,24); manlo <= conv_std_logic_vector(34022841,28); WHEN "1110000001" => manhi <= conv_std_logic_vector(14358,24); manlo <= conv_std_logic_vector(37696476,28); WHEN "1110000010" => manhi <= conv_std_logic_vector(14374,24); manlo <= conv_std_logic_vector(41374209,28); WHEN "1110000011" => manhi <= conv_std_logic_vector(14390,24); manlo <= conv_std_logic_vector(45056043,28); WHEN "1110000100" => manhi <= conv_std_logic_vector(14406,24); manlo <= conv_std_logic_vector(48741975,28); WHEN "1110000101" => manhi <= conv_std_logic_vector(14422,24); manlo <= conv_std_logic_vector(52432007,28); WHEN "1110000110" => manhi <= conv_std_logic_vector(14438,24); manlo <= conv_std_logic_vector(56126139,28); WHEN "1110000111" => manhi <= conv_std_logic_vector(14454,24); manlo <= conv_std_logic_vector(59824371,28); WHEN "1110001000" => manhi <= conv_std_logic_vector(14470,24); manlo <= conv_std_logic_vector(63526701,28); WHEN "1110001001" => manhi <= conv_std_logic_vector(14486,24); manlo <= conv_std_logic_vector(67233132,28); WHEN "1110001010" => manhi <= conv_std_logic_vector(14502,24); manlo <= conv_std_logic_vector(70943662,28); WHEN "1110001011" => manhi <= conv_std_logic_vector(14518,24); manlo <= conv_std_logic_vector(74658291,28); WHEN "1110001100" => manhi <= conv_std_logic_vector(14534,24); manlo <= conv_std_logic_vector(78377020,28); WHEN "1110001101" => manhi <= conv_std_logic_vector(14550,24); manlo <= conv_std_logic_vector(82099849,28); WHEN "1110001110" => manhi <= conv_std_logic_vector(14566,24); manlo <= conv_std_logic_vector(85826777,28); WHEN "1110001111" => manhi <= conv_std_logic_vector(14582,24); manlo <= conv_std_logic_vector(89557804,28); WHEN "1110010000" => manhi <= conv_std_logic_vector(14598,24); manlo <= conv_std_logic_vector(93292931,28); WHEN "1110010001" => manhi <= conv_std_logic_vector(14614,24); manlo <= conv_std_logic_vector(97032158,28); WHEN "1110010010" => manhi <= conv_std_logic_vector(14630,24); manlo <= conv_std_logic_vector(100775484,28); WHEN "1110010011" => manhi <= conv_std_logic_vector(14646,24); manlo <= conv_std_logic_vector(104522910,28); WHEN "1110010100" => manhi <= conv_std_logic_vector(14662,24); manlo <= conv_std_logic_vector(108274436,28); WHEN "1110010101" => manhi <= conv_std_logic_vector(14678,24); manlo <= conv_std_logic_vector(112030061,28); WHEN "1110010110" => manhi <= conv_std_logic_vector(14694,24); manlo <= conv_std_logic_vector(115789786,28); WHEN "1110010111" => manhi <= conv_std_logic_vector(14710,24); manlo <= conv_std_logic_vector(119553610,28); WHEN "1110011000" => manhi <= conv_std_logic_vector(14726,24); manlo <= conv_std_logic_vector(123321534,28); WHEN "1110011001" => manhi <= conv_std_logic_vector(14742,24); manlo <= conv_std_logic_vector(127093557,28); WHEN "1110011010" => manhi <= conv_std_logic_vector(14758,24); manlo <= conv_std_logic_vector(130869680,28); WHEN "1110011011" => manhi <= conv_std_logic_vector(14774,24); manlo <= conv_std_logic_vector(134649903,28); WHEN "1110011100" => manhi <= conv_std_logic_vector(14790,24); manlo <= conv_std_logic_vector(138434225,28); WHEN "1110011101" => manhi <= conv_std_logic_vector(14806,24); manlo <= conv_std_logic_vector(142222647,28); WHEN "1110011110" => manhi <= conv_std_logic_vector(14822,24); manlo <= conv_std_logic_vector(146015168,28); WHEN "1110011111" => manhi <= conv_std_logic_vector(14838,24); manlo <= conv_std_logic_vector(149811789,28); WHEN "1110100000" => manhi <= conv_std_logic_vector(14854,24); manlo <= conv_std_logic_vector(153612510,28); WHEN "1110100001" => manhi <= conv_std_logic_vector(14870,24); manlo <= conv_std_logic_vector(157417330,28); WHEN "1110100010" => manhi <= conv_std_logic_vector(14886,24); manlo <= conv_std_logic_vector(161226250,28); WHEN "1110100011" => manhi <= conv_std_logic_vector(14902,24); manlo <= conv_std_logic_vector(165039270,28); WHEN "1110100100" => manhi <= conv_std_logic_vector(14918,24); manlo <= conv_std_logic_vector(168856389,28); WHEN "1110100101" => manhi <= conv_std_logic_vector(14934,24); manlo <= conv_std_logic_vector(172677608,28); WHEN "1110100110" => manhi <= conv_std_logic_vector(14950,24); manlo <= conv_std_logic_vector(176502926,28); WHEN "1110100111" => manhi <= conv_std_logic_vector(14966,24); manlo <= conv_std_logic_vector(180332344,28); WHEN "1110101000" => manhi <= conv_std_logic_vector(14982,24); manlo <= conv_std_logic_vector(184165862,28); WHEN "1110101001" => manhi <= conv_std_logic_vector(14998,24); manlo <= conv_std_logic_vector(188003480,28); WHEN "1110101010" => manhi <= conv_std_logic_vector(15014,24); manlo <= conv_std_logic_vector(191845197,28); WHEN "1110101011" => manhi <= conv_std_logic_vector(15030,24); manlo <= conv_std_logic_vector(195691014,28); WHEN "1110101100" => manhi <= conv_std_logic_vector(15046,24); manlo <= conv_std_logic_vector(199540930,28); WHEN "1110101101" => manhi <= conv_std_logic_vector(15062,24); manlo <= conv_std_logic_vector(203394946,28); WHEN "1110101110" => manhi <= conv_std_logic_vector(15078,24); manlo <= conv_std_logic_vector(207253062,28); WHEN "1110101111" => manhi <= conv_std_logic_vector(15094,24); manlo <= conv_std_logic_vector(211115277,28); WHEN "1110110000" => manhi <= conv_std_logic_vector(15110,24); manlo <= conv_std_logic_vector(214981593,28); WHEN "1110110001" => manhi <= conv_std_logic_vector(15126,24); manlo <= conv_std_logic_vector(218852007,28); WHEN "1110110010" => manhi <= conv_std_logic_vector(15142,24); manlo <= conv_std_logic_vector(222726522,28); WHEN "1110110011" => manhi <= conv_std_logic_vector(15158,24); manlo <= conv_std_logic_vector(226605136,28); WHEN "1110110100" => manhi <= conv_std_logic_vector(15174,24); manlo <= conv_std_logic_vector(230487850,28); WHEN "1110110101" => manhi <= conv_std_logic_vector(15190,24); manlo <= conv_std_logic_vector(234374664,28); WHEN "1110110110" => manhi <= conv_std_logic_vector(15206,24); manlo <= conv_std_logic_vector(238265577,28); WHEN "1110110111" => manhi <= conv_std_logic_vector(15222,24); manlo <= conv_std_logic_vector(242160590,28); WHEN "1110111000" => manhi <= conv_std_logic_vector(15238,24); manlo <= conv_std_logic_vector(246059703,28); WHEN "1110111001" => manhi <= conv_std_logic_vector(15254,24); manlo <= conv_std_logic_vector(249962916,28); WHEN "1110111010" => manhi <= conv_std_logic_vector(15270,24); manlo <= conv_std_logic_vector(253870228,28); WHEN "1110111011" => manhi <= conv_std_logic_vector(15286,24); manlo <= conv_std_logic_vector(257781640,28); WHEN "1110111100" => manhi <= conv_std_logic_vector(15302,24); manlo <= conv_std_logic_vector(261697152,28); WHEN "1110111101" => manhi <= conv_std_logic_vector(15318,24); manlo <= conv_std_logic_vector(265616763,28); WHEN "1110111110" => manhi <= conv_std_logic_vector(15335,24); manlo <= conv_std_logic_vector(1105018,28); WHEN "1110111111" => manhi <= conv_std_logic_vector(15351,24); manlo <= conv_std_logic_vector(5032829,28); WHEN "1111000000" => manhi <= conv_std_logic_vector(15367,24); manlo <= conv_std_logic_vector(8964740,28); WHEN "1111000001" => manhi <= conv_std_logic_vector(15383,24); manlo <= conv_std_logic_vector(12900750,28); WHEN "1111000010" => manhi <= conv_std_logic_vector(15399,24); manlo <= conv_std_logic_vector(16840860,28); WHEN "1111000011" => manhi <= conv_std_logic_vector(15415,24); manlo <= conv_std_logic_vector(20785070,28); WHEN "1111000100" => manhi <= conv_std_logic_vector(15431,24); manlo <= conv_std_logic_vector(24733380,28); WHEN "1111000101" => manhi <= conv_std_logic_vector(15447,24); manlo <= conv_std_logic_vector(28685790,28); WHEN "1111000110" => manhi <= conv_std_logic_vector(15463,24); manlo <= conv_std_logic_vector(32642299,28); WHEN "1111000111" => manhi <= conv_std_logic_vector(15479,24); manlo <= conv_std_logic_vector(36602908,28); WHEN "1111001000" => manhi <= conv_std_logic_vector(15495,24); manlo <= conv_std_logic_vector(40567617,28); WHEN "1111001001" => manhi <= conv_std_logic_vector(15511,24); manlo <= conv_std_logic_vector(44536425,28); WHEN "1111001010" => manhi <= conv_std_logic_vector(15527,24); manlo <= conv_std_logic_vector(48509334,28); WHEN "1111001011" => manhi <= conv_std_logic_vector(15543,24); manlo <= conv_std_logic_vector(52486342,28); WHEN "1111001100" => manhi <= conv_std_logic_vector(15559,24); manlo <= conv_std_logic_vector(56467450,28); WHEN "1111001101" => manhi <= conv_std_logic_vector(15575,24); manlo <= conv_std_logic_vector(60452657,28); WHEN "1111001110" => manhi <= conv_std_logic_vector(15591,24); manlo <= conv_std_logic_vector(64441965,28); WHEN "1111001111" => manhi <= conv_std_logic_vector(15607,24); manlo <= conv_std_logic_vector(68435372,28); WHEN "1111010000" => manhi <= conv_std_logic_vector(15623,24); manlo <= conv_std_logic_vector(72432880,28); WHEN "1111010001" => manhi <= conv_std_logic_vector(15639,24); manlo <= conv_std_logic_vector(76434487,28); WHEN "1111010010" => manhi <= conv_std_logic_vector(15655,24); manlo <= conv_std_logic_vector(80440193,28); WHEN "1111010011" => manhi <= conv_std_logic_vector(15671,24); manlo <= conv_std_logic_vector(84450000,28); WHEN "1111010100" => manhi <= conv_std_logic_vector(15687,24); manlo <= conv_std_logic_vector(88463906,28); WHEN "1111010101" => manhi <= conv_std_logic_vector(15703,24); manlo <= conv_std_logic_vector(92481913,28); WHEN "1111010110" => manhi <= conv_std_logic_vector(15719,24); manlo <= conv_std_logic_vector(96504019,28); WHEN "1111010111" => manhi <= conv_std_logic_vector(15735,24); manlo <= conv_std_logic_vector(100530225,28); WHEN "1111011000" => manhi <= conv_std_logic_vector(15751,24); manlo <= conv_std_logic_vector(104560531,28); WHEN "1111011001" => manhi <= conv_std_logic_vector(15767,24); manlo <= conv_std_logic_vector(108594936,28); WHEN "1111011010" => manhi <= conv_std_logic_vector(15783,24); manlo <= conv_std_logic_vector(112633442,28); WHEN "1111011011" => manhi <= conv_std_logic_vector(15799,24); manlo <= conv_std_logic_vector(116676047,28); WHEN "1111011100" => manhi <= conv_std_logic_vector(15815,24); manlo <= conv_std_logic_vector(120722752,28); WHEN "1111011101" => manhi <= conv_std_logic_vector(15831,24); manlo <= conv_std_logic_vector(124773557,28); WHEN "1111011110" => manhi <= conv_std_logic_vector(15847,24); manlo <= conv_std_logic_vector(128828462,28); WHEN "1111011111" => manhi <= conv_std_logic_vector(15863,24); manlo <= conv_std_logic_vector(132887467,28); WHEN "1111100000" => manhi <= conv_std_logic_vector(15879,24); manlo <= conv_std_logic_vector(136950572,28); WHEN "1111100001" => manhi <= conv_std_logic_vector(15895,24); manlo <= conv_std_logic_vector(141017776,28); WHEN "1111100010" => manhi <= conv_std_logic_vector(15911,24); manlo <= conv_std_logic_vector(145089081,28); WHEN "1111100011" => manhi <= conv_std_logic_vector(15927,24); manlo <= conv_std_logic_vector(149164485,28); WHEN "1111100100" => manhi <= conv_std_logic_vector(15943,24); manlo <= conv_std_logic_vector(153243989,28); WHEN "1111100101" => manhi <= conv_std_logic_vector(15959,24); manlo <= conv_std_logic_vector(157327593,28); WHEN "1111100110" => manhi <= conv_std_logic_vector(15975,24); manlo <= conv_std_logic_vector(161415297,28); WHEN "1111100111" => manhi <= conv_std_logic_vector(15991,24); manlo <= conv_std_logic_vector(165507101,28); WHEN "1111101000" => manhi <= conv_std_logic_vector(16007,24); manlo <= conv_std_logic_vector(169603005,28); WHEN "1111101001" => manhi <= conv_std_logic_vector(16023,24); manlo <= conv_std_logic_vector(173703009,28); WHEN "1111101010" => manhi <= conv_std_logic_vector(16039,24); manlo <= conv_std_logic_vector(177807112,28); WHEN "1111101011" => manhi <= conv_std_logic_vector(16055,24); manlo <= conv_std_logic_vector(181915316,28); WHEN "1111101100" => manhi <= conv_std_logic_vector(16071,24); manlo <= conv_std_logic_vector(186027619,28); WHEN "1111101101" => manhi <= conv_std_logic_vector(16087,24); manlo <= conv_std_logic_vector(190144023,28); WHEN "1111101110" => manhi <= conv_std_logic_vector(16103,24); manlo <= conv_std_logic_vector(194264526,28); WHEN "1111101111" => manhi <= conv_std_logic_vector(16119,24); manlo <= conv_std_logic_vector(198389129,28); WHEN "1111110000" => manhi <= conv_std_logic_vector(16135,24); manlo <= conv_std_logic_vector(202517832,28); WHEN "1111110001" => manhi <= conv_std_logic_vector(16151,24); manlo <= conv_std_logic_vector(206650635,28); WHEN "1111110010" => manhi <= conv_std_logic_vector(16167,24); manlo <= conv_std_logic_vector(210787538,28); WHEN "1111110011" => manhi <= conv_std_logic_vector(16183,24); manlo <= conv_std_logic_vector(214928541,28); WHEN "1111110100" => manhi <= conv_std_logic_vector(16199,24); manlo <= conv_std_logic_vector(219073644,28); WHEN "1111110101" => manhi <= conv_std_logic_vector(16215,24); manlo <= conv_std_logic_vector(223222847,28); WHEN "1111110110" => manhi <= conv_std_logic_vector(16231,24); manlo <= conv_std_logic_vector(227376150,28); WHEN "1111110111" => manhi <= conv_std_logic_vector(16247,24); manlo <= conv_std_logic_vector(231533553,28); WHEN "1111111000" => manhi <= conv_std_logic_vector(16263,24); manlo <= conv_std_logic_vector(235695056,28); WHEN "1111111001" => manhi <= conv_std_logic_vector(16279,24); manlo <= conv_std_logic_vector(239860659,28); WHEN "1111111010" => manhi <= conv_std_logic_vector(16295,24); manlo <= conv_std_logic_vector(244030361,28); WHEN "1111111011" => manhi <= conv_std_logic_vector(16311,24); manlo <= conv_std_logic_vector(248204164,28); WHEN "1111111100" => manhi <= conv_std_logic_vector(16327,24); manlo <= conv_std_logic_vector(252382067,28); WHEN "1111111101" => manhi <= conv_std_logic_vector(16343,24); manlo <= conv_std_logic_vector(256564069,28); WHEN "1111111110" => manhi <= conv_std_logic_vector(16359,24); manlo <= conv_std_logic_vector(260750172,28); WHEN "1111111111" => manhi <= conv_std_logic_vector(16375,24); manlo <= conv_std_logic_vector(264940375,28); WHEN others => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); END CASE; END PROCESS; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** DP_EXPLUT20.VHD *** --*** *** --*** Function: Look Up Table - EXP() *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 18/02/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY dp_explut20 IS PORT ( add : IN STD_LOGIC_VECTOR (10 DOWNTO 1); manhi : OUT STD_LOGIC_VECTOR (24 DOWNTO 1); manlo : OUT STD_LOGIC_VECTOR (28 DOWNTO 1) ); END dp_explut20; ARCHITECTURE rtl OF dp_explut20 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "0000000000" => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); WHEN "0000000001" => manhi <= conv_std_logic_vector(16,24); manlo <= conv_std_logic_vector(2048,28); WHEN "0000000010" => manhi <= conv_std_logic_vector(32,24); manlo <= conv_std_logic_vector(8192,28); WHEN "0000000011" => manhi <= conv_std_logic_vector(48,24); manlo <= conv_std_logic_vector(18432,28); WHEN "0000000100" => manhi <= conv_std_logic_vector(64,24); manlo <= conv_std_logic_vector(32768,28); WHEN "0000000101" => manhi <= conv_std_logic_vector(80,24); manlo <= conv_std_logic_vector(51200,28); WHEN "0000000110" => manhi <= conv_std_logic_vector(96,24); manlo <= conv_std_logic_vector(73728,28); WHEN "0000000111" => manhi <= conv_std_logic_vector(112,24); manlo <= conv_std_logic_vector(100352,28); WHEN "0000001000" => manhi <= conv_std_logic_vector(128,24); manlo <= conv_std_logic_vector(131072,28); WHEN "0000001001" => manhi <= conv_std_logic_vector(144,24); manlo <= conv_std_logic_vector(165888,28); WHEN "0000001010" => manhi <= conv_std_logic_vector(160,24); manlo <= conv_std_logic_vector(204801,28); WHEN "0000001011" => manhi <= conv_std_logic_vector(176,24); manlo <= conv_std_logic_vector(247809,28); WHEN "0000001100" => manhi <= conv_std_logic_vector(192,24); manlo <= conv_std_logic_vector(294913,28); WHEN "0000001101" => manhi <= conv_std_logic_vector(208,24); manlo <= conv_std_logic_vector(346113,28); WHEN "0000001110" => manhi <= conv_std_logic_vector(224,24); manlo <= conv_std_logic_vector(401410,28); WHEN "0000001111" => manhi <= conv_std_logic_vector(240,24); manlo <= conv_std_logic_vector(460802,28); WHEN "0000010000" => manhi <= conv_std_logic_vector(256,24); manlo <= conv_std_logic_vector(524291,28); WHEN "0000010001" => manhi <= conv_std_logic_vector(272,24); manlo <= conv_std_logic_vector(591875,28); WHEN "0000010010" => manhi <= conv_std_logic_vector(288,24); manlo <= conv_std_logic_vector(663556,28); WHEN "0000010011" => manhi <= conv_std_logic_vector(304,24); manlo <= conv_std_logic_vector(739332,28); WHEN "0000010100" => manhi <= conv_std_logic_vector(320,24); manlo <= conv_std_logic_vector(819205,28); WHEN "0000010101" => manhi <= conv_std_logic_vector(336,24); manlo <= conv_std_logic_vector(903174,28); WHEN "0000010110" => manhi <= conv_std_logic_vector(352,24); manlo <= conv_std_logic_vector(991239,28); WHEN "0000010111" => manhi <= conv_std_logic_vector(368,24); manlo <= conv_std_logic_vector(1083400,28); WHEN "0000011000" => manhi <= conv_std_logic_vector(384,24); manlo <= conv_std_logic_vector(1179657,28); WHEN "0000011001" => manhi <= conv_std_logic_vector(400,24); manlo <= conv_std_logic_vector(1280010,28); WHEN "0000011010" => manhi <= conv_std_logic_vector(416,24); manlo <= conv_std_logic_vector(1384459,28); WHEN "0000011011" => manhi <= conv_std_logic_vector(432,24); manlo <= conv_std_logic_vector(1493005,28); WHEN "0000011100" => manhi <= conv_std_logic_vector(448,24); manlo <= conv_std_logic_vector(1605646,28); WHEN "0000011101" => manhi <= conv_std_logic_vector(464,24); manlo <= conv_std_logic_vector(1722384,28); WHEN "0000011110" => manhi <= conv_std_logic_vector(480,24); manlo <= conv_std_logic_vector(1843218,28); WHEN "0000011111" => manhi <= conv_std_logic_vector(496,24); manlo <= conv_std_logic_vector(1968147,28); WHEN "0000100000" => manhi <= conv_std_logic_vector(512,24); manlo <= conv_std_logic_vector(2097173,28); WHEN "0000100001" => manhi <= conv_std_logic_vector(528,24); manlo <= conv_std_logic_vector(2230295,28); WHEN "0000100010" => manhi <= conv_std_logic_vector(544,24); manlo <= conv_std_logic_vector(2367514,28); WHEN "0000100011" => manhi <= conv_std_logic_vector(560,24); manlo <= conv_std_logic_vector(2508828,28); WHEN "0000100100" => manhi <= conv_std_logic_vector(576,24); manlo <= conv_std_logic_vector(2654238,28); WHEN "0000100101" => manhi <= conv_std_logic_vector(592,24); manlo <= conv_std_logic_vector(2803745,28); WHEN "0000100110" => manhi <= conv_std_logic_vector(608,24); manlo <= conv_std_logic_vector(2957348,28); WHEN "0000100111" => manhi <= conv_std_logic_vector(624,24); manlo <= conv_std_logic_vector(3115047,28); WHEN "0000101000" => manhi <= conv_std_logic_vector(640,24); manlo <= conv_std_logic_vector(3276842,28); WHEN "0000101001" => manhi <= conv_std_logic_vector(656,24); manlo <= conv_std_logic_vector(3442733,28); WHEN "0000101010" => manhi <= conv_std_logic_vector(672,24); manlo <= conv_std_logic_vector(3612720,28); WHEN "0000101011" => manhi <= conv_std_logic_vector(688,24); manlo <= conv_std_logic_vector(3786804,28); WHEN "0000101100" => manhi <= conv_std_logic_vector(704,24); manlo <= conv_std_logic_vector(3964983,28); WHEN "0000101101" => manhi <= conv_std_logic_vector(720,24); manlo <= conv_std_logic_vector(4147259,28); WHEN "0000101110" => manhi <= conv_std_logic_vector(736,24); manlo <= conv_std_logic_vector(4333631,28); WHEN "0000101111" => manhi <= conv_std_logic_vector(752,24); manlo <= conv_std_logic_vector(4524100,28); WHEN "0000110000" => manhi <= conv_std_logic_vector(768,24); manlo <= conv_std_logic_vector(4718664,28); WHEN "0000110001" => manhi <= conv_std_logic_vector(784,24); manlo <= conv_std_logic_vector(4917325,28); WHEN "0000110010" => manhi <= conv_std_logic_vector(800,24); manlo <= conv_std_logic_vector(5120081,28); WHEN "0000110011" => manhi <= conv_std_logic_vector(816,24); manlo <= conv_std_logic_vector(5326934,28); WHEN "0000110100" => manhi <= conv_std_logic_vector(832,24); manlo <= conv_std_logic_vector(5537884,28); WHEN "0000110101" => manhi <= conv_std_logic_vector(848,24); manlo <= conv_std_logic_vector(5752929,28); WHEN "0000110110" => manhi <= conv_std_logic_vector(864,24); manlo <= conv_std_logic_vector(5972071,28); WHEN "0000110111" => manhi <= conv_std_logic_vector(880,24); manlo <= conv_std_logic_vector(6195308,28); WHEN "0000111000" => manhi <= conv_std_logic_vector(896,24); manlo <= conv_std_logic_vector(6422642,28); WHEN "0000111001" => manhi <= conv_std_logic_vector(912,24); manlo <= conv_std_logic_vector(6654073,28); WHEN "0000111010" => manhi <= conv_std_logic_vector(928,24); manlo <= conv_std_logic_vector(6889599,28); WHEN "0000111011" => manhi <= conv_std_logic_vector(944,24); manlo <= conv_std_logic_vector(7129222,28); WHEN "0000111100" => manhi <= conv_std_logic_vector(960,24); manlo <= conv_std_logic_vector(7372941,28); WHEN "0000111101" => manhi <= conv_std_logic_vector(976,24); manlo <= conv_std_logic_vector(7620756,28); WHEN "0000111110" => manhi <= conv_std_logic_vector(992,24); manlo <= conv_std_logic_vector(7872667,28); WHEN "0000111111" => manhi <= conv_std_logic_vector(1008,24); manlo <= conv_std_logic_vector(8128675,28); WHEN "0001000000" => manhi <= conv_std_logic_vector(1024,24); manlo <= conv_std_logic_vector(8388779,28); WHEN "0001000001" => manhi <= conv_std_logic_vector(1040,24); manlo <= conv_std_logic_vector(8652979,28); WHEN "0001000010" => manhi <= conv_std_logic_vector(1056,24); manlo <= conv_std_logic_vector(8921275,28); WHEN "0001000011" => manhi <= conv_std_logic_vector(1072,24); manlo <= conv_std_logic_vector(9193668,28); WHEN "0001000100" => manhi <= conv_std_logic_vector(1088,24); manlo <= conv_std_logic_vector(9470157,28); WHEN "0001000101" => manhi <= conv_std_logic_vector(1104,24); manlo <= conv_std_logic_vector(9750742,28); WHEN "0001000110" => manhi <= conv_std_logic_vector(1120,24); manlo <= conv_std_logic_vector(10035423,28); WHEN "0001000111" => manhi <= conv_std_logic_vector(1136,24); manlo <= conv_std_logic_vector(10324201,28); WHEN "0001001000" => manhi <= conv_std_logic_vector(1152,24); manlo <= conv_std_logic_vector(10617075,28); WHEN "0001001001" => manhi <= conv_std_logic_vector(1168,24); manlo <= conv_std_logic_vector(10914045,28); WHEN "0001001010" => manhi <= conv_std_logic_vector(1184,24); manlo <= conv_std_logic_vector(11215112,28); WHEN "0001001011" => manhi <= conv_std_logic_vector(1200,24); manlo <= conv_std_logic_vector(11520275,28); WHEN "0001001100" => manhi <= conv_std_logic_vector(1216,24); manlo <= conv_std_logic_vector(11829534,28); WHEN "0001001101" => manhi <= conv_std_logic_vector(1232,24); manlo <= conv_std_logic_vector(12142889,28); WHEN "0001001110" => manhi <= conv_std_logic_vector(1248,24); manlo <= conv_std_logic_vector(12460341,28); WHEN "0001001111" => manhi <= conv_std_logic_vector(1264,24); manlo <= conv_std_logic_vector(12781889,28); WHEN "0001010000" => manhi <= conv_std_logic_vector(1280,24); manlo <= conv_std_logic_vector(13107533,28); WHEN "0001010001" => manhi <= conv_std_logic_vector(1296,24); manlo <= conv_std_logic_vector(13437274,28); WHEN "0001010010" => manhi <= conv_std_logic_vector(1312,24); manlo <= conv_std_logic_vector(13771111,28); WHEN "0001010011" => manhi <= conv_std_logic_vector(1328,24); manlo <= conv_std_logic_vector(14109044,28); WHEN "0001010100" => manhi <= conv_std_logic_vector(1344,24); manlo <= conv_std_logic_vector(14451074,28); WHEN "0001010101" => manhi <= conv_std_logic_vector(1360,24); manlo <= conv_std_logic_vector(14797200,28); WHEN "0001010110" => manhi <= conv_std_logic_vector(1376,24); manlo <= conv_std_logic_vector(15147422,28); WHEN "0001010111" => manhi <= conv_std_logic_vector(1392,24); manlo <= conv_std_logic_vector(15501741,28); WHEN "0001011000" => manhi <= conv_std_logic_vector(1408,24); manlo <= conv_std_logic_vector(15860156,28); WHEN "0001011001" => manhi <= conv_std_logic_vector(1424,24); manlo <= conv_std_logic_vector(16222667,28); WHEN "0001011010" => manhi <= conv_std_logic_vector(1440,24); manlo <= conv_std_logic_vector(16589275,28); WHEN "0001011011" => manhi <= conv_std_logic_vector(1456,24); manlo <= conv_std_logic_vector(16959979,28); WHEN "0001011100" => manhi <= conv_std_logic_vector(1472,24); manlo <= conv_std_logic_vector(17334779,28); WHEN "0001011101" => manhi <= conv_std_logic_vector(1488,24); manlo <= conv_std_logic_vector(17713676,28); WHEN "0001011110" => manhi <= conv_std_logic_vector(1504,24); manlo <= conv_std_logic_vector(18096669,28); WHEN "0001011111" => manhi <= conv_std_logic_vector(1520,24); manlo <= conv_std_logic_vector(18483758,28); WHEN "0001100000" => manhi <= conv_std_logic_vector(1536,24); manlo <= conv_std_logic_vector(18874944,28); WHEN "0001100001" => manhi <= conv_std_logic_vector(1552,24); manlo <= conv_std_logic_vector(19270226,28); WHEN "0001100010" => manhi <= conv_std_logic_vector(1568,24); manlo <= conv_std_logic_vector(19669605,28); WHEN "0001100011" => manhi <= conv_std_logic_vector(1584,24); manlo <= conv_std_logic_vector(20073080,28); WHEN "0001100100" => manhi <= conv_std_logic_vector(1600,24); manlo <= conv_std_logic_vector(20480651,28); WHEN "0001100101" => manhi <= conv_std_logic_vector(1616,24); manlo <= conv_std_logic_vector(20892319,28); WHEN "0001100110" => manhi <= conv_std_logic_vector(1632,24); manlo <= conv_std_logic_vector(21308083,28); WHEN "0001100111" => manhi <= conv_std_logic_vector(1648,24); manlo <= conv_std_logic_vector(21727943,28); WHEN "0001101000" => manhi <= conv_std_logic_vector(1664,24); manlo <= conv_std_logic_vector(22151900,28); WHEN "0001101001" => manhi <= conv_std_logic_vector(1680,24); manlo <= conv_std_logic_vector(22579954,28); WHEN "0001101010" => manhi <= conv_std_logic_vector(1696,24); manlo <= conv_std_logic_vector(23012103,28); WHEN "0001101011" => manhi <= conv_std_logic_vector(1712,24); manlo <= conv_std_logic_vector(23448350,28); WHEN "0001101100" => manhi <= conv_std_logic_vector(1728,24); manlo <= conv_std_logic_vector(23888692,28); WHEN "0001101101" => manhi <= conv_std_logic_vector(1744,24); manlo <= conv_std_logic_vector(24333131,28); WHEN "0001101110" => manhi <= conv_std_logic_vector(1760,24); manlo <= conv_std_logic_vector(24781667,28); WHEN "0001101111" => manhi <= conv_std_logic_vector(1776,24); manlo <= conv_std_logic_vector(25234298,28); WHEN "0001110000" => manhi <= conv_std_logic_vector(1792,24); manlo <= conv_std_logic_vector(25691027,28); WHEN "0001110001" => manhi <= conv_std_logic_vector(1808,24); manlo <= conv_std_logic_vector(26151851,28); WHEN "0001110010" => manhi <= conv_std_logic_vector(1824,24); manlo <= conv_std_logic_vector(26616773,28); WHEN "0001110011" => manhi <= conv_std_logic_vector(1840,24); manlo <= conv_std_logic_vector(27085790,28); WHEN "0001110100" => manhi <= conv_std_logic_vector(1856,24); manlo <= conv_std_logic_vector(27558904,28); WHEN "0001110101" => manhi <= conv_std_logic_vector(1872,24); manlo <= conv_std_logic_vector(28036115,28); WHEN "0001110110" => manhi <= conv_std_logic_vector(1888,24); manlo <= conv_std_logic_vector(28517422,28); WHEN "0001110111" => manhi <= conv_std_logic_vector(1904,24); manlo <= conv_std_logic_vector(29002825,28); WHEN "0001111000" => manhi <= conv_std_logic_vector(1920,24); manlo <= conv_std_logic_vector(29492325,28); WHEN "0001111001" => manhi <= conv_std_logic_vector(1936,24); manlo <= conv_std_logic_vector(29985921,28); WHEN "0001111010" => manhi <= conv_std_logic_vector(1952,24); manlo <= conv_std_logic_vector(30483614,28); WHEN "0001111011" => manhi <= conv_std_logic_vector(1968,24); manlo <= conv_std_logic_vector(30985404,28); WHEN "0001111100" => manhi <= conv_std_logic_vector(1984,24); manlo <= conv_std_logic_vector(31491289,28); WHEN "0001111101" => manhi <= conv_std_logic_vector(2000,24); manlo <= conv_std_logic_vector(32001272,28); WHEN "0001111110" => manhi <= conv_std_logic_vector(2016,24); manlo <= conv_std_logic_vector(32515350,28); WHEN "0001111111" => manhi <= conv_std_logic_vector(2032,24); manlo <= conv_std_logic_vector(33033526,28); WHEN "0010000000" => manhi <= conv_std_logic_vector(2048,24); manlo <= conv_std_logic_vector(33555797,28); WHEN "0010000001" => manhi <= conv_std_logic_vector(2064,24); manlo <= conv_std_logic_vector(34082166,28); WHEN "0010000010" => manhi <= conv_std_logic_vector(2080,24); manlo <= conv_std_logic_vector(34612630,28); WHEN "0010000011" => manhi <= conv_std_logic_vector(2096,24); manlo <= conv_std_logic_vector(35147192,28); WHEN "0010000100" => manhi <= conv_std_logic_vector(2112,24); manlo <= conv_std_logic_vector(35685849,28); WHEN "0010000101" => manhi <= conv_std_logic_vector(2128,24); manlo <= conv_std_logic_vector(36228604,28); WHEN "0010000110" => manhi <= conv_std_logic_vector(2144,24); manlo <= conv_std_logic_vector(36775455,28); WHEN "0010000111" => manhi <= conv_std_logic_vector(2160,24); manlo <= conv_std_logic_vector(37326402,28); WHEN "0010001000" => manhi <= conv_std_logic_vector(2176,24); manlo <= conv_std_logic_vector(37881446,28); WHEN "0010001001" => manhi <= conv_std_logic_vector(2192,24); manlo <= conv_std_logic_vector(38440586,28); WHEN "0010001010" => manhi <= conv_std_logic_vector(2208,24); manlo <= conv_std_logic_vector(39003823,28); WHEN "0010001011" => manhi <= conv_std_logic_vector(2224,24); manlo <= conv_std_logic_vector(39571157,28); WHEN "0010001100" => manhi <= conv_std_logic_vector(2240,24); manlo <= conv_std_logic_vector(40142587,28); WHEN "0010001101" => manhi <= conv_std_logic_vector(2256,24); manlo <= conv_std_logic_vector(40718113,28); WHEN "0010001110" => manhi <= conv_std_logic_vector(2272,24); manlo <= conv_std_logic_vector(41297736,28); WHEN "0010001111" => manhi <= conv_std_logic_vector(2288,24); manlo <= conv_std_logic_vector(41881456,28); WHEN "0010010000" => manhi <= conv_std_logic_vector(2304,24); manlo <= conv_std_logic_vector(42469272,28); WHEN "0010010001" => manhi <= conv_std_logic_vector(2320,24); manlo <= conv_std_logic_vector(43061185,28); WHEN "0010010010" => manhi <= conv_std_logic_vector(2336,24); manlo <= conv_std_logic_vector(43657194,28); WHEN "0010010011" => manhi <= conv_std_logic_vector(2352,24); manlo <= conv_std_logic_vector(44257300,28); WHEN "0010010100" => manhi <= conv_std_logic_vector(2368,24); manlo <= conv_std_logic_vector(44861503,28); WHEN "0010010101" => manhi <= conv_std_logic_vector(2384,24); manlo <= conv_std_logic_vector(45469802,28); WHEN "0010010110" => manhi <= conv_std_logic_vector(2400,24); manlo <= conv_std_logic_vector(46082197,28); WHEN "0010010111" => manhi <= conv_std_logic_vector(2416,24); manlo <= conv_std_logic_vector(46698690,28); WHEN "0010011000" => manhi <= conv_std_logic_vector(2432,24); manlo <= conv_std_logic_vector(47319278,28); WHEN "0010011001" => manhi <= conv_std_logic_vector(2448,24); manlo <= conv_std_logic_vector(47943964,28); WHEN "0010011010" => manhi <= conv_std_logic_vector(2464,24); manlo <= conv_std_logic_vector(48572746,28); WHEN "0010011011" => manhi <= conv_std_logic_vector(2480,24); manlo <= conv_std_logic_vector(49205624,28); WHEN "0010011100" => manhi <= conv_std_logic_vector(2496,24); manlo <= conv_std_logic_vector(49842600,28); WHEN "0010011101" => manhi <= conv_std_logic_vector(2512,24); manlo <= conv_std_logic_vector(50483672,28); WHEN "0010011110" => manhi <= conv_std_logic_vector(2528,24); manlo <= conv_std_logic_vector(51128840,28); WHEN "0010011111" => manhi <= conv_std_logic_vector(2544,24); manlo <= conv_std_logic_vector(51778105,28); WHEN "0010100000" => manhi <= conv_std_logic_vector(2560,24); manlo <= conv_std_logic_vector(52431467,28); WHEN "0010100001" => manhi <= conv_std_logic_vector(2576,24); manlo <= conv_std_logic_vector(53088925,28); WHEN "0010100010" => manhi <= conv_std_logic_vector(2592,24); manlo <= conv_std_logic_vector(53750480,28); WHEN "0010100011" => manhi <= conv_std_logic_vector(2608,24); manlo <= conv_std_logic_vector(54416132,28); WHEN "0010100100" => manhi <= conv_std_logic_vector(2624,24); manlo <= conv_std_logic_vector(55085880,28); WHEN "0010100101" => manhi <= conv_std_logic_vector(2640,24); manlo <= conv_std_logic_vector(55759725,28); WHEN "0010100110" => manhi <= conv_std_logic_vector(2656,24); manlo <= conv_std_logic_vector(56437666,28); WHEN "0010100111" => manhi <= conv_std_logic_vector(2672,24); manlo <= conv_std_logic_vector(57119704,28); WHEN "0010101000" => manhi <= conv_std_logic_vector(2688,24); manlo <= conv_std_logic_vector(57805839,28); WHEN "0010101001" => manhi <= conv_std_logic_vector(2704,24); manlo <= conv_std_logic_vector(58496071,28); WHEN "0010101010" => manhi <= conv_std_logic_vector(2720,24); manlo <= conv_std_logic_vector(59190399,28); WHEN "0010101011" => manhi <= conv_std_logic_vector(2736,24); manlo <= conv_std_logic_vector(59888823,28); WHEN "0010101100" => manhi <= conv_std_logic_vector(2752,24); manlo <= conv_std_logic_vector(60591345,28); WHEN "0010101101" => manhi <= conv_std_logic_vector(2768,24); manlo <= conv_std_logic_vector(61297963,28); WHEN "0010101110" => manhi <= conv_std_logic_vector(2784,24); manlo <= conv_std_logic_vector(62008678,28); WHEN "0010101111" => manhi <= conv_std_logic_vector(2800,24); manlo <= conv_std_logic_vector(62723489,28); WHEN "0010110000" => manhi <= conv_std_logic_vector(2816,24); manlo <= conv_std_logic_vector(63442397,28); WHEN "0010110001" => manhi <= conv_std_logic_vector(2832,24); manlo <= conv_std_logic_vector(64165402,28); WHEN "0010110010" => manhi <= conv_std_logic_vector(2848,24); manlo <= conv_std_logic_vector(64892504,28); WHEN "0010110011" => manhi <= conv_std_logic_vector(2864,24); manlo <= conv_std_logic_vector(65623702,28); WHEN "0010110100" => manhi <= conv_std_logic_vector(2880,24); manlo <= conv_std_logic_vector(66358997,28); WHEN "0010110101" => manhi <= conv_std_logic_vector(2896,24); manlo <= conv_std_logic_vector(67098389,28); WHEN "0010110110" => manhi <= conv_std_logic_vector(2912,24); manlo <= conv_std_logic_vector(67841877,28); WHEN "0010110111" => manhi <= conv_std_logic_vector(2928,24); manlo <= conv_std_logic_vector(68589462,28); WHEN "0010111000" => manhi <= conv_std_logic_vector(2944,24); manlo <= conv_std_logic_vector(69341144,28); WHEN "0010111001" => manhi <= conv_std_logic_vector(2960,24); manlo <= conv_std_logic_vector(70096922,28); WHEN "0010111010" => manhi <= conv_std_logic_vector(2976,24); manlo <= conv_std_logic_vector(70856798,28); WHEN "0010111011" => manhi <= conv_std_logic_vector(2992,24); manlo <= conv_std_logic_vector(71620769,28); WHEN "0010111100" => manhi <= conv_std_logic_vector(3008,24); manlo <= conv_std_logic_vector(72388838,28); WHEN "0010111101" => manhi <= conv_std_logic_vector(3024,24); manlo <= conv_std_logic_vector(73161004,28); WHEN "0010111110" => manhi <= conv_std_logic_vector(3040,24); manlo <= conv_std_logic_vector(73937266,28); WHEN "0010111111" => manhi <= conv_std_logic_vector(3056,24); manlo <= conv_std_logic_vector(74717625,28); WHEN "0011000000" => manhi <= conv_std_logic_vector(3072,24); manlo <= conv_std_logic_vector(75502080,28); WHEN "0011000001" => manhi <= conv_std_logic_vector(3088,24); manlo <= conv_std_logic_vector(76290633,28); WHEN "0011000010" => manhi <= conv_std_logic_vector(3104,24); manlo <= conv_std_logic_vector(77083282,28); WHEN "0011000011" => manhi <= conv_std_logic_vector(3120,24); manlo <= conv_std_logic_vector(77880028,28); WHEN "0011000100" => manhi <= conv_std_logic_vector(3136,24); manlo <= conv_std_logic_vector(78680870,28); WHEN "0011000101" => manhi <= conv_std_logic_vector(3152,24); manlo <= conv_std_logic_vector(79485810,28); WHEN "0011000110" => manhi <= conv_std_logic_vector(3168,24); manlo <= conv_std_logic_vector(80294846,28); WHEN "0011000111" => manhi <= conv_std_logic_vector(3184,24); manlo <= conv_std_logic_vector(81107979,28); WHEN "0011001000" => manhi <= conv_std_logic_vector(3200,24); manlo <= conv_std_logic_vector(81925209,28); WHEN "0011001001" => manhi <= conv_std_logic_vector(3216,24); manlo <= conv_std_logic_vector(82746535,28); WHEN "0011001010" => manhi <= conv_std_logic_vector(3232,24); manlo <= conv_std_logic_vector(83571958,28); WHEN "0011001011" => manhi <= conv_std_logic_vector(3248,24); manlo <= conv_std_logic_vector(84401479,28); WHEN "0011001100" => manhi <= conv_std_logic_vector(3264,24); manlo <= conv_std_logic_vector(85235095,28); WHEN "0011001101" => manhi <= conv_std_logic_vector(3280,24); manlo <= conv_std_logic_vector(86072809,28); WHEN "0011001110" => manhi <= conv_std_logic_vector(3296,24); manlo <= conv_std_logic_vector(86914620,28); WHEN "0011001111" => manhi <= conv_std_logic_vector(3312,24); manlo <= conv_std_logic_vector(87760527,28); WHEN "0011010000" => manhi <= conv_std_logic_vector(3328,24); manlo <= conv_std_logic_vector(88610531,28); WHEN "0011010001" => manhi <= conv_std_logic_vector(3344,24); manlo <= conv_std_logic_vector(89464632,28); WHEN "0011010010" => manhi <= conv_std_logic_vector(3360,24); manlo <= conv_std_logic_vector(90322830,28); WHEN "0011010011" => manhi <= conv_std_logic_vector(3376,24); manlo <= conv_std_logic_vector(91185124,28); WHEN "0011010100" => manhi <= conv_std_logic_vector(3392,24); manlo <= conv_std_logic_vector(92051516,28); WHEN "0011010101" => manhi <= conv_std_logic_vector(3408,24); manlo <= conv_std_logic_vector(92922004,28); WHEN "0011010110" => manhi <= conv_std_logic_vector(3424,24); manlo <= conv_std_logic_vector(93796589,28); WHEN "0011010111" => manhi <= conv_std_logic_vector(3440,24); manlo <= conv_std_logic_vector(94675271,28); WHEN "0011011000" => manhi <= conv_std_logic_vector(3456,24); manlo <= conv_std_logic_vector(95558049,28); WHEN "0011011001" => manhi <= conv_std_logic_vector(3472,24); manlo <= conv_std_logic_vector(96444925,28); WHEN "0011011010" => manhi <= conv_std_logic_vector(3488,24); manlo <= conv_std_logic_vector(97335897,28); WHEN "0011011011" => manhi <= conv_std_logic_vector(3504,24); manlo <= conv_std_logic_vector(98230967,28); WHEN "0011011100" => manhi <= conv_std_logic_vector(3520,24); manlo <= conv_std_logic_vector(99130133,28); WHEN "0011011101" => manhi <= conv_std_logic_vector(3536,24); manlo <= conv_std_logic_vector(100033396,28); WHEN "0011011110" => manhi <= conv_std_logic_vector(3552,24); manlo <= conv_std_logic_vector(100940755,28); WHEN "0011011111" => manhi <= conv_std_logic_vector(3568,24); manlo <= conv_std_logic_vector(101852212,28); WHEN "0011100000" => manhi <= conv_std_logic_vector(3584,24); manlo <= conv_std_logic_vector(102767766,28); WHEN "0011100001" => manhi <= conv_std_logic_vector(3600,24); manlo <= conv_std_logic_vector(103687416,28); WHEN "0011100010" => manhi <= conv_std_logic_vector(3616,24); manlo <= conv_std_logic_vector(104611163,28); WHEN "0011100011" => manhi <= conv_std_logic_vector(3632,24); manlo <= conv_std_logic_vector(105539008,28); WHEN "0011100100" => manhi <= conv_std_logic_vector(3648,24); manlo <= conv_std_logic_vector(106470949,28); WHEN "0011100101" => manhi <= conv_std_logic_vector(3664,24); manlo <= conv_std_logic_vector(107406987,28); WHEN "0011100110" => manhi <= conv_std_logic_vector(3680,24); manlo <= conv_std_logic_vector(108347122,28); WHEN "0011100111" => manhi <= conv_std_logic_vector(3696,24); manlo <= conv_std_logic_vector(109291353,28); WHEN "0011101000" => manhi <= conv_std_logic_vector(3712,24); manlo <= conv_std_logic_vector(110239682,28); WHEN "0011101001" => manhi <= conv_std_logic_vector(3728,24); manlo <= conv_std_logic_vector(111192108,28); WHEN "0011101010" => manhi <= conv_std_logic_vector(3744,24); manlo <= conv_std_logic_vector(112148630,28); WHEN "0011101011" => manhi <= conv_std_logic_vector(3760,24); manlo <= conv_std_logic_vector(113109250,28); WHEN "0011101100" => manhi <= conv_std_logic_vector(3776,24); manlo <= conv_std_logic_vector(114073966,28); WHEN "0011101101" => manhi <= conv_std_logic_vector(3792,24); manlo <= conv_std_logic_vector(115042779,28); WHEN "0011101110" => manhi <= conv_std_logic_vector(3808,24); manlo <= conv_std_logic_vector(116015689,28); WHEN "0011101111" => manhi <= conv_std_logic_vector(3824,24); manlo <= conv_std_logic_vector(116992696,28); WHEN "0011110000" => manhi <= conv_std_logic_vector(3840,24); manlo <= conv_std_logic_vector(117973801,28); WHEN "0011110001" => manhi <= conv_std_logic_vector(3856,24); manlo <= conv_std_logic_vector(118959001,28); WHEN "0011110010" => manhi <= conv_std_logic_vector(3872,24); manlo <= conv_std_logic_vector(119948299,28); WHEN "0011110011" => manhi <= conv_std_logic_vector(3888,24); manlo <= conv_std_logic_vector(120941694,28); WHEN "0011110100" => manhi <= conv_std_logic_vector(3904,24); manlo <= conv_std_logic_vector(121939186,28); WHEN "0011110101" => manhi <= conv_std_logic_vector(3920,24); manlo <= conv_std_logic_vector(122940775,28); WHEN "0011110110" => manhi <= conv_std_logic_vector(3936,24); manlo <= conv_std_logic_vector(123946461,28); WHEN "0011110111" => manhi <= conv_std_logic_vector(3952,24); manlo <= conv_std_logic_vector(124956243,28); WHEN "0011111000" => manhi <= conv_std_logic_vector(3968,24); manlo <= conv_std_logic_vector(125970123,28); WHEN "0011111001" => manhi <= conv_std_logic_vector(3984,24); manlo <= conv_std_logic_vector(126988100,28); WHEN "0011111010" => manhi <= conv_std_logic_vector(4000,24); manlo <= conv_std_logic_vector(128010173,28); WHEN "0011111011" => manhi <= conv_std_logic_vector(4016,24); manlo <= conv_std_logic_vector(129036344,28); WHEN "0011111100" => manhi <= conv_std_logic_vector(4032,24); manlo <= conv_std_logic_vector(130066611,28); WHEN "0011111101" => manhi <= conv_std_logic_vector(4048,24); manlo <= conv_std_logic_vector(131100976,28); WHEN "0011111110" => manhi <= conv_std_logic_vector(4064,24); manlo <= conv_std_logic_vector(132139437,28); WHEN "0011111111" => manhi <= conv_std_logic_vector(4080,24); manlo <= conv_std_logic_vector(133181996,28); WHEN "0100000000" => manhi <= conv_std_logic_vector(4096,24); manlo <= conv_std_logic_vector(134228651,28); WHEN "0100000001" => manhi <= conv_std_logic_vector(4112,24); manlo <= conv_std_logic_vector(135279404,28); WHEN "0100000010" => manhi <= conv_std_logic_vector(4128,24); manlo <= conv_std_logic_vector(136334253,28); WHEN "0100000011" => manhi <= conv_std_logic_vector(4144,24); manlo <= conv_std_logic_vector(137393200,28); WHEN "0100000100" => manhi <= conv_std_logic_vector(4160,24); manlo <= conv_std_logic_vector(138456243,28); WHEN "0100000101" => manhi <= conv_std_logic_vector(4176,24); manlo <= conv_std_logic_vector(139523384,28); WHEN "0100000110" => manhi <= conv_std_logic_vector(4192,24); manlo <= conv_std_logic_vector(140594622,28); WHEN "0100000111" => manhi <= conv_std_logic_vector(4208,24); manlo <= conv_std_logic_vector(141669956,28); WHEN "0100001000" => manhi <= conv_std_logic_vector(4224,24); manlo <= conv_std_logic_vector(142749388,28); WHEN "0100001001" => manhi <= conv_std_logic_vector(4240,24); manlo <= conv_std_logic_vector(143832916,28); WHEN "0100001010" => manhi <= conv_std_logic_vector(4256,24); manlo <= conv_std_logic_vector(144920542,28); WHEN "0100001011" => manhi <= conv_std_logic_vector(4272,24); manlo <= conv_std_logic_vector(146012265,28); WHEN "0100001100" => manhi <= conv_std_logic_vector(4288,24); manlo <= conv_std_logic_vector(147108085,28); WHEN "0100001101" => manhi <= conv_std_logic_vector(4304,24); manlo <= conv_std_logic_vector(148208001,28); WHEN "0100001110" => manhi <= conv_std_logic_vector(4320,24); manlo <= conv_std_logic_vector(149312015,28); WHEN "0100001111" => manhi <= conv_std_logic_vector(4336,24); manlo <= conv_std_logic_vector(150420126,28); WHEN "0100010000" => manhi <= conv_std_logic_vector(4352,24); manlo <= conv_std_logic_vector(151532334,28); WHEN "0100010001" => manhi <= conv_std_logic_vector(4368,24); manlo <= conv_std_logic_vector(152648639,28); WHEN "0100010010" => manhi <= conv_std_logic_vector(4384,24); manlo <= conv_std_logic_vector(153769041,28); WHEN "0100010011" => manhi <= conv_std_logic_vector(4400,24); manlo <= conv_std_logic_vector(154893541,28); WHEN "0100010100" => manhi <= conv_std_logic_vector(4416,24); manlo <= conv_std_logic_vector(156022137,28); WHEN "0100010101" => manhi <= conv_std_logic_vector(4432,24); manlo <= conv_std_logic_vector(157154830,28); WHEN "0100010110" => manhi <= conv_std_logic_vector(4448,24); manlo <= conv_std_logic_vector(158291621,28); WHEN "0100010111" => manhi <= conv_std_logic_vector(4464,24); manlo <= conv_std_logic_vector(159432508,28); WHEN "0100011000" => manhi <= conv_std_logic_vector(4480,24); manlo <= conv_std_logic_vector(160577493,28); WHEN "0100011001" => manhi <= conv_std_logic_vector(4496,24); manlo <= conv_std_logic_vector(161726574,28); WHEN "0100011010" => manhi <= conv_std_logic_vector(4512,24); manlo <= conv_std_logic_vector(162879753,28); WHEN "0100011011" => manhi <= conv_std_logic_vector(4528,24); manlo <= conv_std_logic_vector(164037029,28); WHEN "0100011100" => manhi <= conv_std_logic_vector(4544,24); manlo <= conv_std_logic_vector(165198402,28); WHEN "0100011101" => manhi <= conv_std_logic_vector(4560,24); manlo <= conv_std_logic_vector(166363872,28); WHEN "0100011110" => manhi <= conv_std_logic_vector(4576,24); manlo <= conv_std_logic_vector(167533439,28); WHEN "0100011111" => manhi <= conv_std_logic_vector(4592,24); manlo <= conv_std_logic_vector(168707104,28); WHEN "0100100000" => manhi <= conv_std_logic_vector(4608,24); manlo <= conv_std_logic_vector(169884865,28); WHEN "0100100001" => manhi <= conv_std_logic_vector(4624,24); manlo <= conv_std_logic_vector(171066724,28); WHEN "0100100010" => manhi <= conv_std_logic_vector(4640,24); manlo <= conv_std_logic_vector(172252679,28); WHEN "0100100011" => manhi <= conv_std_logic_vector(4656,24); manlo <= conv_std_logic_vector(173442732,28); WHEN "0100100100" => manhi <= conv_std_logic_vector(4672,24); manlo <= conv_std_logic_vector(174636882,28); WHEN "0100100101" => manhi <= conv_std_logic_vector(4688,24); manlo <= conv_std_logic_vector(175835129,28); WHEN "0100100110" => manhi <= conv_std_logic_vector(4704,24); manlo <= conv_std_logic_vector(177037474,28); WHEN "0100100111" => manhi <= conv_std_logic_vector(4720,24); manlo <= conv_std_logic_vector(178243915,28); WHEN "0100101000" => manhi <= conv_std_logic_vector(4736,24); manlo <= conv_std_logic_vector(179454454,28); WHEN "0100101001" => manhi <= conv_std_logic_vector(4752,24); manlo <= conv_std_logic_vector(180669089,28); WHEN "0100101010" => manhi <= conv_std_logic_vector(4768,24); manlo <= conv_std_logic_vector(181887822,28); WHEN "0100101011" => manhi <= conv_std_logic_vector(4784,24); manlo <= conv_std_logic_vector(183110652,28); WHEN "0100101100" => manhi <= conv_std_logic_vector(4800,24); manlo <= conv_std_logic_vector(184337579,28); WHEN "0100101101" => manhi <= conv_std_logic_vector(4816,24); manlo <= conv_std_logic_vector(185568604,28); WHEN "0100101110" => manhi <= conv_std_logic_vector(4832,24); manlo <= conv_std_logic_vector(186803725,28); WHEN "0100101111" => manhi <= conv_std_logic_vector(4848,24); manlo <= conv_std_logic_vector(188042944,28); WHEN "0100110000" => manhi <= conv_std_logic_vector(4864,24); manlo <= conv_std_logic_vector(189286260,28); WHEN "0100110001" => manhi <= conv_std_logic_vector(4880,24); manlo <= conv_std_logic_vector(190533673,28); WHEN "0100110010" => manhi <= conv_std_logic_vector(4896,24); manlo <= conv_std_logic_vector(191785183,28); WHEN "0100110011" => manhi <= conv_std_logic_vector(4912,24); manlo <= conv_std_logic_vector(193040791,28); WHEN "0100110100" => manhi <= conv_std_logic_vector(4928,24); manlo <= conv_std_logic_vector(194300496,28); WHEN "0100110101" => manhi <= conv_std_logic_vector(4944,24); manlo <= conv_std_logic_vector(195564298,28); WHEN "0100110110" => manhi <= conv_std_logic_vector(4960,24); manlo <= conv_std_logic_vector(196832197,28); WHEN "0100110111" => manhi <= conv_std_logic_vector(4976,24); manlo <= conv_std_logic_vector(198104193,28); WHEN "0100111000" => manhi <= conv_std_logic_vector(4992,24); manlo <= conv_std_logic_vector(199380286,28); WHEN "0100111001" => manhi <= conv_std_logic_vector(5008,24); manlo <= conv_std_logic_vector(200660477,28); WHEN "0100111010" => manhi <= conv_std_logic_vector(5024,24); manlo <= conv_std_logic_vector(201944765,28); WHEN "0100111011" => manhi <= conv_std_logic_vector(5040,24); manlo <= conv_std_logic_vector(203233150,28); WHEN "0100111100" => manhi <= conv_std_logic_vector(5056,24); manlo <= conv_std_logic_vector(204525633,28); WHEN "0100111101" => manhi <= conv_std_logic_vector(5072,24); manlo <= conv_std_logic_vector(205822213,28); WHEN "0100111110" => manhi <= conv_std_logic_vector(5088,24); manlo <= conv_std_logic_vector(207122889,28); WHEN "0100111111" => manhi <= conv_std_logic_vector(5104,24); manlo <= conv_std_logic_vector(208427664,28); WHEN "0101000000" => manhi <= conv_std_logic_vector(5120,24); manlo <= conv_std_logic_vector(209736535,28); WHEN "0101000001" => manhi <= conv_std_logic_vector(5136,24); manlo <= conv_std_logic_vector(211049504,28); WHEN "0101000010" => manhi <= conv_std_logic_vector(5152,24); manlo <= conv_std_logic_vector(212366570,28); WHEN "0101000011" => manhi <= conv_std_logic_vector(5168,24); manlo <= conv_std_logic_vector(213687733,28); WHEN "0101000100" => manhi <= conv_std_logic_vector(5184,24); manlo <= conv_std_logic_vector(215012993,28); WHEN "0101000101" => manhi <= conv_std_logic_vector(5200,24); manlo <= conv_std_logic_vector(216342351,28); WHEN "0101000110" => manhi <= conv_std_logic_vector(5216,24); manlo <= conv_std_logic_vector(217675806,28); WHEN "0101000111" => manhi <= conv_std_logic_vector(5232,24); manlo <= conv_std_logic_vector(219013358,28); WHEN "0101001000" => manhi <= conv_std_logic_vector(5248,24); manlo <= conv_std_logic_vector(220355007,28); WHEN "0101001001" => manhi <= conv_std_logic_vector(5264,24); manlo <= conv_std_logic_vector(221700754,28); WHEN "0101001010" => manhi <= conv_std_logic_vector(5280,24); manlo <= conv_std_logic_vector(223050598,28); WHEN "0101001011" => manhi <= conv_std_logic_vector(5296,24); manlo <= conv_std_logic_vector(224404540,28); WHEN "0101001100" => manhi <= conv_std_logic_vector(5312,24); manlo <= conv_std_logic_vector(225762578,28); WHEN "0101001101" => manhi <= conv_std_logic_vector(5328,24); manlo <= conv_std_logic_vector(227124714,28); WHEN "0101001110" => manhi <= conv_std_logic_vector(5344,24); manlo <= conv_std_logic_vector(228490948,28); WHEN "0101001111" => manhi <= conv_std_logic_vector(5360,24); manlo <= conv_std_logic_vector(229861278,28); WHEN "0101010000" => manhi <= conv_std_logic_vector(5376,24); manlo <= conv_std_logic_vector(231235706,28); WHEN "0101010001" => manhi <= conv_std_logic_vector(5392,24); manlo <= conv_std_logic_vector(232614231,28); WHEN "0101010010" => manhi <= conv_std_logic_vector(5408,24); manlo <= conv_std_logic_vector(233996854,28); WHEN "0101010011" => manhi <= conv_std_logic_vector(5424,24); manlo <= conv_std_logic_vector(235383573,28); WHEN "0101010100" => manhi <= conv_std_logic_vector(5440,24); manlo <= conv_std_logic_vector(236774391,28); WHEN "0101010101" => manhi <= conv_std_logic_vector(5456,24); manlo <= conv_std_logic_vector(238169305,28); WHEN "0101010110" => manhi <= conv_std_logic_vector(5472,24); manlo <= conv_std_logic_vector(239568317,28); WHEN "0101010111" => manhi <= conv_std_logic_vector(5488,24); manlo <= conv_std_logic_vector(240971426,28); WHEN "0101011000" => manhi <= conv_std_logic_vector(5504,24); manlo <= conv_std_logic_vector(242378633,28); WHEN "0101011001" => manhi <= conv_std_logic_vector(5520,24); manlo <= conv_std_logic_vector(243789936,28); WHEN "0101011010" => manhi <= conv_std_logic_vector(5536,24); manlo <= conv_std_logic_vector(245205338,28); WHEN "0101011011" => manhi <= conv_std_logic_vector(5552,24); manlo <= conv_std_logic_vector(246624836,28); WHEN "0101011100" => manhi <= conv_std_logic_vector(5568,24); manlo <= conv_std_logic_vector(248048432,28); WHEN "0101011101" => manhi <= conv_std_logic_vector(5584,24); manlo <= conv_std_logic_vector(249476125,28); WHEN "0101011110" => manhi <= conv_std_logic_vector(5600,24); manlo <= conv_std_logic_vector(250907916,28); WHEN "0101011111" => manhi <= conv_std_logic_vector(5616,24); manlo <= conv_std_logic_vector(252343804,28); WHEN "0101100000" => manhi <= conv_std_logic_vector(5632,24); manlo <= conv_std_logic_vector(253783789,28); WHEN "0101100001" => manhi <= conv_std_logic_vector(5648,24); manlo <= conv_std_logic_vector(255227872,28); WHEN "0101100010" => manhi <= conv_std_logic_vector(5664,24); manlo <= conv_std_logic_vector(256676052,28); WHEN "0101100011" => manhi <= conv_std_logic_vector(5680,24); manlo <= conv_std_logic_vector(258128329,28); WHEN "0101100100" => manhi <= conv_std_logic_vector(5696,24); manlo <= conv_std_logic_vector(259584704,28); WHEN "0101100101" => manhi <= conv_std_logic_vector(5712,24); manlo <= conv_std_logic_vector(261045176,28); WHEN "0101100110" => manhi <= conv_std_logic_vector(5728,24); manlo <= conv_std_logic_vector(262509746,28); WHEN "0101100111" => manhi <= conv_std_logic_vector(5744,24); manlo <= conv_std_logic_vector(263978413,28); WHEN "0101101000" => manhi <= conv_std_logic_vector(5760,24); manlo <= conv_std_logic_vector(265451178,28); WHEN "0101101001" => manhi <= conv_std_logic_vector(5776,24); manlo <= conv_std_logic_vector(266928039,28); WHEN "0101101010" => manhi <= conv_std_logic_vector(5792,24); manlo <= conv_std_logic_vector(268408999,28); WHEN "0101101011" => manhi <= conv_std_logic_vector(5809,24); manlo <= conv_std_logic_vector(1458599,28); WHEN "0101101100" => manhi <= conv_std_logic_vector(5825,24); manlo <= conv_std_logic_vector(2947754,28); WHEN "0101101101" => manhi <= conv_std_logic_vector(5841,24); manlo <= conv_std_logic_vector(4441005,28); WHEN "0101101110" => manhi <= conv_std_logic_vector(5857,24); manlo <= conv_std_logic_vector(5938354,28); WHEN "0101101111" => manhi <= conv_std_logic_vector(5873,24); manlo <= conv_std_logic_vector(7439800,28); WHEN "0101110000" => manhi <= conv_std_logic_vector(5889,24); manlo <= conv_std_logic_vector(8945344,28); WHEN "0101110001" => manhi <= conv_std_logic_vector(5905,24); manlo <= conv_std_logic_vector(10454985,28); WHEN "0101110010" => manhi <= conv_std_logic_vector(5921,24); manlo <= conv_std_logic_vector(11968724,28); WHEN "0101110011" => manhi <= conv_std_logic_vector(5937,24); manlo <= conv_std_logic_vector(13486560,28); WHEN "0101110100" => manhi <= conv_std_logic_vector(5953,24); manlo <= conv_std_logic_vector(15008494,28); WHEN "0101110101" => manhi <= conv_std_logic_vector(5969,24); manlo <= conv_std_logic_vector(16534525,28); WHEN "0101110110" => manhi <= conv_std_logic_vector(5985,24); manlo <= conv_std_logic_vector(18064653,28); WHEN "0101110111" => manhi <= conv_std_logic_vector(6001,24); manlo <= conv_std_logic_vector(19598879,28); WHEN "0101111000" => manhi <= conv_std_logic_vector(6017,24); manlo <= conv_std_logic_vector(21137203,28); WHEN "0101111001" => manhi <= conv_std_logic_vector(6033,24); manlo <= conv_std_logic_vector(22679624,28); WHEN "0101111010" => manhi <= conv_std_logic_vector(6049,24); manlo <= conv_std_logic_vector(24226142,28); WHEN "0101111011" => manhi <= conv_std_logic_vector(6065,24); manlo <= conv_std_logic_vector(25776758,28); WHEN "0101111100" => manhi <= conv_std_logic_vector(6081,24); manlo <= conv_std_logic_vector(27331471,28); WHEN "0101111101" => manhi <= conv_std_logic_vector(6097,24); manlo <= conv_std_logic_vector(28890282,28); WHEN "0101111110" => manhi <= conv_std_logic_vector(6113,24); manlo <= conv_std_logic_vector(30453190,28); WHEN "0101111111" => manhi <= conv_std_logic_vector(6129,24); manlo <= conv_std_logic_vector(32020196,28); WHEN "0110000000" => manhi <= conv_std_logic_vector(6145,24); manlo <= conv_std_logic_vector(33591299,28); WHEN "0110000001" => manhi <= conv_std_logic_vector(6161,24); manlo <= conv_std_logic_vector(35166500,28); WHEN "0110000010" => manhi <= conv_std_logic_vector(6177,24); manlo <= conv_std_logic_vector(36745798,28); WHEN "0110000011" => manhi <= conv_std_logic_vector(6193,24); manlo <= conv_std_logic_vector(38329194,28); WHEN "0110000100" => manhi <= conv_std_logic_vector(6209,24); manlo <= conv_std_logic_vector(39916688,28); WHEN "0110000101" => manhi <= conv_std_logic_vector(6225,24); manlo <= conv_std_logic_vector(41508278,28); WHEN "0110000110" => manhi <= conv_std_logic_vector(6241,24); manlo <= conv_std_logic_vector(43103967,28); WHEN "0110000111" => manhi <= conv_std_logic_vector(6257,24); manlo <= conv_std_logic_vector(44703753,28); WHEN "0110001000" => manhi <= conv_std_logic_vector(6273,24); manlo <= conv_std_logic_vector(46307636,28); WHEN "0110001001" => manhi <= conv_std_logic_vector(6289,24); manlo <= conv_std_logic_vector(47915617,28); WHEN "0110001010" => manhi <= conv_std_logic_vector(6305,24); manlo <= conv_std_logic_vector(49527695,28); WHEN "0110001011" => manhi <= conv_std_logic_vector(6321,24); manlo <= conv_std_logic_vector(51143871,28); WHEN "0110001100" => manhi <= conv_std_logic_vector(6337,24); manlo <= conv_std_logic_vector(52764145,28); WHEN "0110001101" => manhi <= conv_std_logic_vector(6353,24); manlo <= conv_std_logic_vector(54388516,28); WHEN "0110001110" => manhi <= conv_std_logic_vector(6369,24); manlo <= conv_std_logic_vector(56016985,28); WHEN "0110001111" => manhi <= conv_std_logic_vector(6385,24); manlo <= conv_std_logic_vector(57649551,28); WHEN "0110010000" => manhi <= conv_std_logic_vector(6401,24); manlo <= conv_std_logic_vector(59286215,28); WHEN "0110010001" => manhi <= conv_std_logic_vector(6417,24); manlo <= conv_std_logic_vector(60926976,28); WHEN "0110010010" => manhi <= conv_std_logic_vector(6433,24); manlo <= conv_std_logic_vector(62571835,28); WHEN "0110010011" => manhi <= conv_std_logic_vector(6449,24); manlo <= conv_std_logic_vector(64220791,28); WHEN "0110010100" => manhi <= conv_std_logic_vector(6465,24); manlo <= conv_std_logic_vector(65873845,28); WHEN "0110010101" => manhi <= conv_std_logic_vector(6481,24); manlo <= conv_std_logic_vector(67530997,28); WHEN "0110010110" => manhi <= conv_std_logic_vector(6497,24); manlo <= conv_std_logic_vector(69192246,28); WHEN "0110010111" => manhi <= conv_std_logic_vector(6513,24); manlo <= conv_std_logic_vector(70857593,28); WHEN "0110011000" => manhi <= conv_std_logic_vector(6529,24); manlo <= conv_std_logic_vector(72527037,28); WHEN "0110011001" => manhi <= conv_std_logic_vector(6545,24); manlo <= conv_std_logic_vector(74200579,28); WHEN "0110011010" => manhi <= conv_std_logic_vector(6561,24); manlo <= conv_std_logic_vector(75878219,28); WHEN "0110011011" => manhi <= conv_std_logic_vector(6577,24); manlo <= conv_std_logic_vector(77559956,28); WHEN "0110011100" => manhi <= conv_std_logic_vector(6593,24); manlo <= conv_std_logic_vector(79245791,28); WHEN "0110011101" => manhi <= conv_std_logic_vector(6609,24); manlo <= conv_std_logic_vector(80935723,28); WHEN "0110011110" => manhi <= conv_std_logic_vector(6625,24); manlo <= conv_std_logic_vector(82629753,28); WHEN "0110011111" => manhi <= conv_std_logic_vector(6641,24); manlo <= conv_std_logic_vector(84327881,28); WHEN "0110100000" => manhi <= conv_std_logic_vector(6657,24); manlo <= conv_std_logic_vector(86030106,28); WHEN "0110100001" => manhi <= conv_std_logic_vector(6673,24); manlo <= conv_std_logic_vector(87736429,28); WHEN "0110100010" => manhi <= conv_std_logic_vector(6689,24); manlo <= conv_std_logic_vector(89446849,28); WHEN "0110100011" => manhi <= conv_std_logic_vector(6705,24); manlo <= conv_std_logic_vector(91161367,28); WHEN "0110100100" => manhi <= conv_std_logic_vector(6721,24); manlo <= conv_std_logic_vector(92879983,28); WHEN "0110100101" => manhi <= conv_std_logic_vector(6737,24); manlo <= conv_std_logic_vector(94602697,28); WHEN "0110100110" => manhi <= conv_std_logic_vector(6753,24); manlo <= conv_std_logic_vector(96329508,28); WHEN "0110100111" => manhi <= conv_std_logic_vector(6769,24); manlo <= conv_std_logic_vector(98060416,28); WHEN "0110101000" => manhi <= conv_std_logic_vector(6785,24); manlo <= conv_std_logic_vector(99795423,28); WHEN "0110101001" => manhi <= conv_std_logic_vector(6801,24); manlo <= conv_std_logic_vector(101534527,28); WHEN "0110101010" => manhi <= conv_std_logic_vector(6817,24); manlo <= conv_std_logic_vector(103277728,28); WHEN "0110101011" => manhi <= conv_std_logic_vector(6833,24); manlo <= conv_std_logic_vector(105025028,28); WHEN "0110101100" => manhi <= conv_std_logic_vector(6849,24); manlo <= conv_std_logic_vector(106776425,28); WHEN "0110101101" => manhi <= conv_std_logic_vector(6865,24); manlo <= conv_std_logic_vector(108531919,28); WHEN "0110101110" => manhi <= conv_std_logic_vector(6881,24); manlo <= conv_std_logic_vector(110291512,28); WHEN "0110101111" => manhi <= conv_std_logic_vector(6897,24); manlo <= conv_std_logic_vector(112055202,28); WHEN "0110110000" => manhi <= conv_std_logic_vector(6913,24); manlo <= conv_std_logic_vector(113822989,28); WHEN "0110110001" => manhi <= conv_std_logic_vector(6929,24); manlo <= conv_std_logic_vector(115594875,28); WHEN "0110110010" => manhi <= conv_std_logic_vector(6945,24); manlo <= conv_std_logic_vector(117370858,28); WHEN "0110110011" => manhi <= conv_std_logic_vector(6961,24); manlo <= conv_std_logic_vector(119150939,28); WHEN "0110110100" => manhi <= conv_std_logic_vector(6977,24); manlo <= conv_std_logic_vector(120935117,28); WHEN "0110110101" => manhi <= conv_std_logic_vector(6993,24); manlo <= conv_std_logic_vector(122723393,28); WHEN "0110110110" => manhi <= conv_std_logic_vector(7009,24); manlo <= conv_std_logic_vector(124515767,28); WHEN "0110110111" => manhi <= conv_std_logic_vector(7025,24); manlo <= conv_std_logic_vector(126312239,28); WHEN "0110111000" => manhi <= conv_std_logic_vector(7041,24); manlo <= conv_std_logic_vector(128112808,28); WHEN "0110111001" => manhi <= conv_std_logic_vector(7057,24); manlo <= conv_std_logic_vector(129917475,28); WHEN "0110111010" => manhi <= conv_std_logic_vector(7073,24); manlo <= conv_std_logic_vector(131726240,28); WHEN "0110111011" => manhi <= conv_std_logic_vector(7089,24); manlo <= conv_std_logic_vector(133539102,28); WHEN "0110111100" => manhi <= conv_std_logic_vector(7105,24); manlo <= conv_std_logic_vector(135356063,28); WHEN "0110111101" => manhi <= conv_std_logic_vector(7121,24); manlo <= conv_std_logic_vector(137177121,28); WHEN "0110111110" => manhi <= conv_std_logic_vector(7137,24); manlo <= conv_std_logic_vector(139002276,28); WHEN "0110111111" => manhi <= conv_std_logic_vector(7153,24); manlo <= conv_std_logic_vector(140831530,28); WHEN "0111000000" => manhi <= conv_std_logic_vector(7169,24); manlo <= conv_std_logic_vector(142664881,28); WHEN "0111000001" => manhi <= conv_std_logic_vector(7185,24); manlo <= conv_std_logic_vector(144502330,28); WHEN "0111000010" => manhi <= conv_std_logic_vector(7201,24); manlo <= conv_std_logic_vector(146343877,28); WHEN "0111000011" => manhi <= conv_std_logic_vector(7217,24); manlo <= conv_std_logic_vector(148189521,28); WHEN "0111000100" => manhi <= conv_std_logic_vector(7233,24); manlo <= conv_std_logic_vector(150039263,28); WHEN "0111000101" => manhi <= conv_std_logic_vector(7249,24); manlo <= conv_std_logic_vector(151893103,28); WHEN "0111000110" => manhi <= conv_std_logic_vector(7265,24); manlo <= conv_std_logic_vector(153751041,28); WHEN "0111000111" => manhi <= conv_std_logic_vector(7281,24); manlo <= conv_std_logic_vector(155613076,28); WHEN "0111001000" => manhi <= conv_std_logic_vector(7297,24); manlo <= conv_std_logic_vector(157479210,28); WHEN "0111001001" => manhi <= conv_std_logic_vector(7313,24); manlo <= conv_std_logic_vector(159349441,28); WHEN "0111001010" => manhi <= conv_std_logic_vector(7329,24); manlo <= conv_std_logic_vector(161223770,28); WHEN "0111001011" => manhi <= conv_std_logic_vector(7345,24); manlo <= conv_std_logic_vector(163102196,28); WHEN "0111001100" => manhi <= conv_std_logic_vector(7361,24); manlo <= conv_std_logic_vector(164984721,28); WHEN "0111001101" => manhi <= conv_std_logic_vector(7377,24); manlo <= conv_std_logic_vector(166871343,28); WHEN "0111001110" => manhi <= conv_std_logic_vector(7393,24); manlo <= conv_std_logic_vector(168762063,28); WHEN "0111001111" => manhi <= conv_std_logic_vector(7409,24); manlo <= conv_std_logic_vector(170656881,28); WHEN "0111010000" => manhi <= conv_std_logic_vector(7425,24); manlo <= conv_std_logic_vector(172555797,28); WHEN "0111010001" => manhi <= conv_std_logic_vector(7441,24); manlo <= conv_std_logic_vector(174458810,28); WHEN "0111010010" => manhi <= conv_std_logic_vector(7457,24); manlo <= conv_std_logic_vector(176365921,28); WHEN "0111010011" => manhi <= conv_std_logic_vector(7473,24); manlo <= conv_std_logic_vector(178277130,28); WHEN "0111010100" => manhi <= conv_std_logic_vector(7489,24); manlo <= conv_std_logic_vector(180192437,28); WHEN "0111010101" => manhi <= conv_std_logic_vector(7505,24); manlo <= conv_std_logic_vector(182111842,28); WHEN "0111010110" => manhi <= conv_std_logic_vector(7521,24); manlo <= conv_std_logic_vector(184035345,28); WHEN "0111010111" => manhi <= conv_std_logic_vector(7537,24); manlo <= conv_std_logic_vector(185962945,28); WHEN "0111011000" => manhi <= conv_std_logic_vector(7553,24); manlo <= conv_std_logic_vector(187894643,28); WHEN "0111011001" => manhi <= conv_std_logic_vector(7569,24); manlo <= conv_std_logic_vector(189830439,28); WHEN "0111011010" => manhi <= conv_std_logic_vector(7585,24); manlo <= conv_std_logic_vector(191770333,28); WHEN "0111011011" => manhi <= conv_std_logic_vector(7601,24); manlo <= conv_std_logic_vector(193714325,28); WHEN "0111011100" => manhi <= conv_std_logic_vector(7617,24); manlo <= conv_std_logic_vector(195662415,28); WHEN "0111011101" => manhi <= conv_std_logic_vector(7633,24); manlo <= conv_std_logic_vector(197614602,28); WHEN "0111011110" => manhi <= conv_std_logic_vector(7649,24); manlo <= conv_std_logic_vector(199570888,28); WHEN "0111011111" => manhi <= conv_std_logic_vector(7665,24); manlo <= conv_std_logic_vector(201531271,28); WHEN "0111100000" => manhi <= conv_std_logic_vector(7681,24); manlo <= conv_std_logic_vector(203495752,28); WHEN "0111100001" => manhi <= conv_std_logic_vector(7697,24); manlo <= conv_std_logic_vector(205464331,28); WHEN "0111100010" => manhi <= conv_std_logic_vector(7713,24); manlo <= conv_std_logic_vector(207437008,28); WHEN "0111100011" => manhi <= conv_std_logic_vector(7729,24); manlo <= conv_std_logic_vector(209413783,28); WHEN "0111100100" => manhi <= conv_std_logic_vector(7745,24); manlo <= conv_std_logic_vector(211394656,28); WHEN "0111100101" => manhi <= conv_std_logic_vector(7761,24); manlo <= conv_std_logic_vector(213379626,28); WHEN "0111100110" => manhi <= conv_std_logic_vector(7777,24); manlo <= conv_std_logic_vector(215368695,28); WHEN "0111100111" => manhi <= conv_std_logic_vector(7793,24); manlo <= conv_std_logic_vector(217361861,28); WHEN "0111101000" => manhi <= conv_std_logic_vector(7809,24); manlo <= conv_std_logic_vector(219359125,28); WHEN "0111101001" => manhi <= conv_std_logic_vector(7825,24); manlo <= conv_std_logic_vector(221360487,28); WHEN "0111101010" => manhi <= conv_std_logic_vector(7841,24); manlo <= conv_std_logic_vector(223365947,28); WHEN "0111101011" => manhi <= conv_std_logic_vector(7857,24); manlo <= conv_std_logic_vector(225375505,28); WHEN "0111101100" => manhi <= conv_std_logic_vector(7873,24); manlo <= conv_std_logic_vector(227389161,28); WHEN "0111101101" => manhi <= conv_std_logic_vector(7889,24); manlo <= conv_std_logic_vector(229406915,28); WHEN "0111101110" => manhi <= conv_std_logic_vector(7905,24); manlo <= conv_std_logic_vector(231428767,28); WHEN "0111101111" => manhi <= conv_std_logic_vector(7921,24); manlo <= conv_std_logic_vector(233454716,28); WHEN "0111110000" => manhi <= conv_std_logic_vector(7937,24); manlo <= conv_std_logic_vector(235484764,28); WHEN "0111110001" => manhi <= conv_std_logic_vector(7953,24); manlo <= conv_std_logic_vector(237518910,28); WHEN "0111110010" => manhi <= conv_std_logic_vector(7969,24); manlo <= conv_std_logic_vector(239557153,28); WHEN "0111110011" => manhi <= conv_std_logic_vector(7985,24); manlo <= conv_std_logic_vector(241599495,28); WHEN "0111110100" => manhi <= conv_std_logic_vector(8001,24); manlo <= conv_std_logic_vector(243645934,28); WHEN "0111110101" => manhi <= conv_std_logic_vector(8017,24); manlo <= conv_std_logic_vector(245696471,28); WHEN "0111110110" => manhi <= conv_std_logic_vector(8033,24); manlo <= conv_std_logic_vector(247751107,28); WHEN "0111110111" => manhi <= conv_std_logic_vector(8049,24); manlo <= conv_std_logic_vector(249809840,28); WHEN "0111111000" => manhi <= conv_std_logic_vector(8065,24); manlo <= conv_std_logic_vector(251872671,28); WHEN "0111111001" => manhi <= conv_std_logic_vector(8081,24); manlo <= conv_std_logic_vector(253939600,28); WHEN "0111111010" => manhi <= conv_std_logic_vector(8097,24); manlo <= conv_std_logic_vector(256010627,28); WHEN "0111111011" => manhi <= conv_std_logic_vector(8113,24); manlo <= conv_std_logic_vector(258085753,28); WHEN "0111111100" => manhi <= conv_std_logic_vector(8129,24); manlo <= conv_std_logic_vector(260164976,28); WHEN "0111111101" => manhi <= conv_std_logic_vector(8145,24); manlo <= conv_std_logic_vector(262248297,28); WHEN "0111111110" => manhi <= conv_std_logic_vector(8161,24); manlo <= conv_std_logic_vector(264335716,28); WHEN "0111111111" => manhi <= conv_std_logic_vector(8177,24); manlo <= conv_std_logic_vector(266427233,28); WHEN "1000000000" => manhi <= conv_std_logic_vector(8194,24); manlo <= conv_std_logic_vector(87392,28); WHEN "1000000001" => manhi <= conv_std_logic_vector(8210,24); manlo <= conv_std_logic_vector(2187105,28); WHEN "1000000010" => manhi <= conv_std_logic_vector(8226,24); manlo <= conv_std_logic_vector(4290916,28); WHEN "1000000011" => manhi <= conv_std_logic_vector(8242,24); manlo <= conv_std_logic_vector(6398825,28); WHEN "1000000100" => manhi <= conv_std_logic_vector(8258,24); manlo <= conv_std_logic_vector(8510832,28); WHEN "1000000101" => manhi <= conv_std_logic_vector(8274,24); manlo <= conv_std_logic_vector(10626938,28); WHEN "1000000110" => manhi <= conv_std_logic_vector(8290,24); manlo <= conv_std_logic_vector(12747141,28); WHEN "1000000111" => manhi <= conv_std_logic_vector(8306,24); manlo <= conv_std_logic_vector(14871442,28); WHEN "1000001000" => manhi <= conv_std_logic_vector(8322,24); manlo <= conv_std_logic_vector(16999841,28); WHEN "1000001001" => manhi <= conv_std_logic_vector(8338,24); manlo <= conv_std_logic_vector(19132338,28); WHEN "1000001010" => manhi <= conv_std_logic_vector(8354,24); manlo <= conv_std_logic_vector(21268934,28); WHEN "1000001011" => manhi <= conv_std_logic_vector(8370,24); manlo <= conv_std_logic_vector(23409627,28); WHEN "1000001100" => manhi <= conv_std_logic_vector(8386,24); manlo <= conv_std_logic_vector(25554418,28); WHEN "1000001101" => manhi <= conv_std_logic_vector(8402,24); manlo <= conv_std_logic_vector(27703308,28); WHEN "1000001110" => manhi <= conv_std_logic_vector(8418,24); manlo <= conv_std_logic_vector(29856295,28); WHEN "1000001111" => manhi <= conv_std_logic_vector(8434,24); manlo <= conv_std_logic_vector(32013381,28); WHEN "1000010000" => manhi <= conv_std_logic_vector(8450,24); manlo <= conv_std_logic_vector(34174564,28); WHEN "1000010001" => manhi <= conv_std_logic_vector(8466,24); manlo <= conv_std_logic_vector(36339846,28); WHEN "1000010010" => manhi <= conv_std_logic_vector(8482,24); manlo <= conv_std_logic_vector(38509225,28); WHEN "1000010011" => manhi <= conv_std_logic_vector(8498,24); manlo <= conv_std_logic_vector(40682703,28); WHEN "1000010100" => manhi <= conv_std_logic_vector(8514,24); manlo <= conv_std_logic_vector(42860279,28); WHEN "1000010101" => manhi <= conv_std_logic_vector(8530,24); manlo <= conv_std_logic_vector(45041953,28); WHEN "1000010110" => manhi <= conv_std_logic_vector(8546,24); manlo <= conv_std_logic_vector(47227725,28); WHEN "1000010111" => manhi <= conv_std_logic_vector(8562,24); manlo <= conv_std_logic_vector(49417595,28); WHEN "1000011000" => manhi <= conv_std_logic_vector(8578,24); manlo <= conv_std_logic_vector(51611563,28); WHEN "1000011001" => manhi <= conv_std_logic_vector(8594,24); manlo <= conv_std_logic_vector(53809629,28); WHEN "1000011010" => manhi <= conv_std_logic_vector(8610,24); manlo <= conv_std_logic_vector(56011794,28); WHEN "1000011011" => manhi <= conv_std_logic_vector(8626,24); manlo <= conv_std_logic_vector(58218056,28); WHEN "1000011100" => manhi <= conv_std_logic_vector(8642,24); manlo <= conv_std_logic_vector(60428417,28); WHEN "1000011101" => manhi <= conv_std_logic_vector(8658,24); manlo <= conv_std_logic_vector(62642876,28); WHEN "1000011110" => manhi <= conv_std_logic_vector(8674,24); manlo <= conv_std_logic_vector(64861432,28); WHEN "1000011111" => manhi <= conv_std_logic_vector(8690,24); manlo <= conv_std_logic_vector(67084087,28); WHEN "1000100000" => manhi <= conv_std_logic_vector(8706,24); manlo <= conv_std_logic_vector(69310840,28); WHEN "1000100001" => manhi <= conv_std_logic_vector(8722,24); manlo <= conv_std_logic_vector(71541691,28); WHEN "1000100010" => manhi <= conv_std_logic_vector(8738,24); manlo <= conv_std_logic_vector(73776641,28); WHEN "1000100011" => manhi <= conv_std_logic_vector(8754,24); manlo <= conv_std_logic_vector(76015688,28); WHEN "1000100100" => manhi <= conv_std_logic_vector(8770,24); manlo <= conv_std_logic_vector(78258834,28); WHEN "1000100101" => manhi <= conv_std_logic_vector(8786,24); manlo <= conv_std_logic_vector(80506077,28); WHEN "1000100110" => manhi <= conv_std_logic_vector(8802,24); manlo <= conv_std_logic_vector(82757419,28); WHEN "1000100111" => manhi <= conv_std_logic_vector(8818,24); manlo <= conv_std_logic_vector(85012859,28); WHEN "1000101000" => manhi <= conv_std_logic_vector(8834,24); manlo <= conv_std_logic_vector(87272397,28); WHEN "1000101001" => manhi <= conv_std_logic_vector(8850,24); manlo <= conv_std_logic_vector(89536034,28); WHEN "1000101010" => manhi <= conv_std_logic_vector(8866,24); manlo <= conv_std_logic_vector(91803768,28); WHEN "1000101011" => manhi <= conv_std_logic_vector(8882,24); manlo <= conv_std_logic_vector(94075601,28); WHEN "1000101100" => manhi <= conv_std_logic_vector(8898,24); manlo <= conv_std_logic_vector(96351532,28); WHEN "1000101101" => manhi <= conv_std_logic_vector(8914,24); manlo <= conv_std_logic_vector(98631561,28); WHEN "1000101110" => manhi <= conv_std_logic_vector(8930,24); manlo <= conv_std_logic_vector(100915688,28); WHEN "1000101111" => manhi <= conv_std_logic_vector(8946,24); manlo <= conv_std_logic_vector(103203913,28); WHEN "1000110000" => manhi <= conv_std_logic_vector(8962,24); manlo <= conv_std_logic_vector(105496237,28); WHEN "1000110001" => manhi <= conv_std_logic_vector(8978,24); manlo <= conv_std_logic_vector(107792658,28); WHEN "1000110010" => manhi <= conv_std_logic_vector(8994,24); manlo <= conv_std_logic_vector(110093178,28); WHEN "1000110011" => manhi <= conv_std_logic_vector(9010,24); manlo <= conv_std_logic_vector(112397796,28); WHEN "1000110100" => manhi <= conv_std_logic_vector(9026,24); manlo <= conv_std_logic_vector(114706513,28); WHEN "1000110101" => manhi <= conv_std_logic_vector(9042,24); manlo <= conv_std_logic_vector(117019327,28); WHEN "1000110110" => manhi <= conv_std_logic_vector(9058,24); manlo <= conv_std_logic_vector(119336240,28); WHEN "1000110111" => manhi <= conv_std_logic_vector(9074,24); manlo <= conv_std_logic_vector(121657251,28); WHEN "1000111000" => manhi <= conv_std_logic_vector(9090,24); manlo <= conv_std_logic_vector(123982360,28); WHEN "1000111001" => manhi <= conv_std_logic_vector(9106,24); manlo <= conv_std_logic_vector(126311567,28); WHEN "1000111010" => manhi <= conv_std_logic_vector(9122,24); manlo <= conv_std_logic_vector(128644873,28); WHEN "1000111011" => manhi <= conv_std_logic_vector(9138,24); manlo <= conv_std_logic_vector(130982277,28); WHEN "1000111100" => manhi <= conv_std_logic_vector(9154,24); manlo <= conv_std_logic_vector(133323779,28); WHEN "1000111101" => manhi <= conv_std_logic_vector(9170,24); manlo <= conv_std_logic_vector(135669379,28); WHEN "1000111110" => manhi <= conv_std_logic_vector(9186,24); manlo <= conv_std_logic_vector(138019077,28); WHEN "1000111111" => manhi <= conv_std_logic_vector(9202,24); manlo <= conv_std_logic_vector(140372874,28); WHEN "1001000000" => manhi <= conv_std_logic_vector(9218,24); manlo <= conv_std_logic_vector(142730769,28); WHEN "1001000001" => manhi <= conv_std_logic_vector(9234,24); manlo <= conv_std_logic_vector(145092762,28); WHEN "1001000010" => manhi <= conv_std_logic_vector(9250,24); manlo <= conv_std_logic_vector(147458854,28); WHEN "1001000011" => manhi <= conv_std_logic_vector(9266,24); manlo <= conv_std_logic_vector(149829044,28); WHEN "1001000100" => manhi <= conv_std_logic_vector(9282,24); manlo <= conv_std_logic_vector(152203332,28); WHEN "1001000101" => manhi <= conv_std_logic_vector(9298,24); manlo <= conv_std_logic_vector(154581718,28); WHEN "1001000110" => manhi <= conv_std_logic_vector(9314,24); manlo <= conv_std_logic_vector(156964202,28); WHEN "1001000111" => manhi <= conv_std_logic_vector(9330,24); manlo <= conv_std_logic_vector(159350785,28); WHEN "1001001000" => manhi <= conv_std_logic_vector(9346,24); manlo <= conv_std_logic_vector(161741466,28); WHEN "1001001001" => manhi <= conv_std_logic_vector(9362,24); manlo <= conv_std_logic_vector(164136246,28); WHEN "1001001010" => manhi <= conv_std_logic_vector(9378,24); manlo <= conv_std_logic_vector(166535123,28); WHEN "1001001011" => manhi <= conv_std_logic_vector(9394,24); manlo <= conv_std_logic_vector(168938099,28); WHEN "1001001100" => manhi <= conv_std_logic_vector(9410,24); manlo <= conv_std_logic_vector(171345174,28); WHEN "1001001101" => manhi <= conv_std_logic_vector(9426,24); manlo <= conv_std_logic_vector(173756346,28); WHEN "1001001110" => manhi <= conv_std_logic_vector(9442,24); manlo <= conv_std_logic_vector(176171617,28); WHEN "1001001111" => manhi <= conv_std_logic_vector(9458,24); manlo <= conv_std_logic_vector(178590986,28); WHEN "1001010000" => manhi <= conv_std_logic_vector(9474,24); manlo <= conv_std_logic_vector(181014454,28); WHEN "1001010001" => manhi <= conv_std_logic_vector(9490,24); manlo <= conv_std_logic_vector(183442020,28); WHEN "1001010010" => manhi <= conv_std_logic_vector(9506,24); manlo <= conv_std_logic_vector(185873684,28); WHEN "1001010011" => manhi <= conv_std_logic_vector(9522,24); manlo <= conv_std_logic_vector(188309446,28); WHEN "1001010100" => manhi <= conv_std_logic_vector(9538,24); manlo <= conv_std_logic_vector(190749307,28); WHEN "1001010101" => manhi <= conv_std_logic_vector(9554,24); manlo <= conv_std_logic_vector(193193266,28); WHEN "1001010110" => manhi <= conv_std_logic_vector(9570,24); manlo <= conv_std_logic_vector(195641323,28); WHEN "1001010111" => manhi <= conv_std_logic_vector(9586,24); manlo <= conv_std_logic_vector(198093479,28); WHEN "1001011000" => manhi <= conv_std_logic_vector(9602,24); manlo <= conv_std_logic_vector(200549733,28); WHEN "1001011001" => manhi <= conv_std_logic_vector(9618,24); manlo <= conv_std_logic_vector(203010086,28); WHEN "1001011010" => manhi <= conv_std_logic_vector(9634,24); manlo <= conv_std_logic_vector(205474536,28); WHEN "1001011011" => manhi <= conv_std_logic_vector(9650,24); manlo <= conv_std_logic_vector(207943085,28); WHEN "1001011100" => manhi <= conv_std_logic_vector(9666,24); manlo <= conv_std_logic_vector(210415733,28); WHEN "1001011101" => manhi <= conv_std_logic_vector(9682,24); manlo <= conv_std_logic_vector(212892479,28); WHEN "1001011110" => manhi <= conv_std_logic_vector(9698,24); manlo <= conv_std_logic_vector(215373323,28); WHEN "1001011111" => manhi <= conv_std_logic_vector(9714,24); manlo <= conv_std_logic_vector(217858266,28); WHEN "1001100000" => manhi <= conv_std_logic_vector(9730,24); manlo <= conv_std_logic_vector(220347307,28); WHEN "1001100001" => manhi <= conv_std_logic_vector(9746,24); manlo <= conv_std_logic_vector(222840446,28); WHEN "1001100010" => manhi <= conv_std_logic_vector(9762,24); manlo <= conv_std_logic_vector(225337684,28); WHEN "1001100011" => manhi <= conv_std_logic_vector(9778,24); manlo <= conv_std_logic_vector(227839020,28); WHEN "1001100100" => manhi <= conv_std_logic_vector(9794,24); manlo <= conv_std_logic_vector(230344454,28); WHEN "1001100101" => manhi <= conv_std_logic_vector(9810,24); manlo <= conv_std_logic_vector(232853987,28); WHEN "1001100110" => manhi <= conv_std_logic_vector(9826,24); manlo <= conv_std_logic_vector(235367618,28); WHEN "1001100111" => manhi <= conv_std_logic_vector(9842,24); manlo <= conv_std_logic_vector(237885348,28); WHEN "1001101000" => manhi <= conv_std_logic_vector(9858,24); manlo <= conv_std_logic_vector(240407176,28); WHEN "1001101001" => manhi <= conv_std_logic_vector(9874,24); manlo <= conv_std_logic_vector(242933102,28); WHEN "1001101010" => manhi <= conv_std_logic_vector(9890,24); manlo <= conv_std_logic_vector(245463127,28); WHEN "1001101011" => manhi <= conv_std_logic_vector(9906,24); manlo <= conv_std_logic_vector(247997251,28); WHEN "1001101100" => manhi <= conv_std_logic_vector(9922,24); manlo <= conv_std_logic_vector(250535472,28); WHEN "1001101101" => manhi <= conv_std_logic_vector(9938,24); manlo <= conv_std_logic_vector(253077793,28); WHEN "1001101110" => manhi <= conv_std_logic_vector(9954,24); manlo <= conv_std_logic_vector(255624211,28); WHEN "1001101111" => manhi <= conv_std_logic_vector(9970,24); manlo <= conv_std_logic_vector(258174728,28); WHEN "1001110000" => manhi <= conv_std_logic_vector(9986,24); manlo <= conv_std_logic_vector(260729344,28); WHEN "1001110001" => manhi <= conv_std_logic_vector(10002,24); manlo <= conv_std_logic_vector(263288057,28); WHEN "1001110010" => manhi <= conv_std_logic_vector(10018,24); manlo <= conv_std_logic_vector(265850870,28); WHEN "1001110011" => manhi <= conv_std_logic_vector(10034,24); manlo <= conv_std_logic_vector(268417780,28); WHEN "1001110100" => manhi <= conv_std_logic_vector(10051,24); manlo <= conv_std_logic_vector(2553334,28); WHEN "1001110101" => manhi <= conv_std_logic_vector(10067,24); manlo <= conv_std_logic_vector(5128441,28); WHEN "1001110110" => manhi <= conv_std_logic_vector(10083,24); manlo <= conv_std_logic_vector(7707647,28); WHEN "1001110111" => manhi <= conv_std_logic_vector(10099,24); manlo <= conv_std_logic_vector(10290952,28); WHEN "1001111000" => manhi <= conv_std_logic_vector(10115,24); manlo <= conv_std_logic_vector(12878355,28); WHEN "1001111001" => manhi <= conv_std_logic_vector(10131,24); manlo <= conv_std_logic_vector(15469857,28); WHEN "1001111010" => manhi <= conv_std_logic_vector(10147,24); manlo <= conv_std_logic_vector(18065457,28); WHEN "1001111011" => manhi <= conv_std_logic_vector(10163,24); manlo <= conv_std_logic_vector(20665155,28); WHEN "1001111100" => manhi <= conv_std_logic_vector(10179,24); manlo <= conv_std_logic_vector(23268952,28); WHEN "1001111101" => manhi <= conv_std_logic_vector(10195,24); manlo <= conv_std_logic_vector(25876847,28); WHEN "1001111110" => manhi <= conv_std_logic_vector(10211,24); manlo <= conv_std_logic_vector(28488841,28); WHEN "1001111111" => manhi <= conv_std_logic_vector(10227,24); manlo <= conv_std_logic_vector(31104934,28); WHEN "1010000000" => manhi <= conv_std_logic_vector(10243,24); manlo <= conv_std_logic_vector(33725125,28); WHEN "1010000001" => manhi <= conv_std_logic_vector(10259,24); manlo <= conv_std_logic_vector(36349414,28); WHEN "1010000010" => manhi <= conv_std_logic_vector(10275,24); manlo <= conv_std_logic_vector(38977802,28); WHEN "1010000011" => manhi <= conv_std_logic_vector(10291,24); manlo <= conv_std_logic_vector(41610288,28); WHEN "1010000100" => manhi <= conv_std_logic_vector(10307,24); manlo <= conv_std_logic_vector(44246873,28); WHEN "1010000101" => manhi <= conv_std_logic_vector(10323,24); manlo <= conv_std_logic_vector(46887557,28); WHEN "1010000110" => manhi <= conv_std_logic_vector(10339,24); manlo <= conv_std_logic_vector(49532339,28); WHEN "1010000111" => manhi <= conv_std_logic_vector(10355,24); manlo <= conv_std_logic_vector(52181219,28); WHEN "1010001000" => manhi <= conv_std_logic_vector(10371,24); manlo <= conv_std_logic_vector(54834198,28); WHEN "1010001001" => manhi <= conv_std_logic_vector(10387,24); manlo <= conv_std_logic_vector(57491276,28); WHEN "1010001010" => manhi <= conv_std_logic_vector(10403,24); manlo <= conv_std_logic_vector(60152452,28); WHEN "1010001011" => manhi <= conv_std_logic_vector(10419,24); manlo <= conv_std_logic_vector(62817727,28); WHEN "1010001100" => manhi <= conv_std_logic_vector(10435,24); manlo <= conv_std_logic_vector(65487100,28); WHEN "1010001101" => manhi <= conv_std_logic_vector(10451,24); manlo <= conv_std_logic_vector(68160572,28); WHEN "1010001110" => manhi <= conv_std_logic_vector(10467,24); manlo <= conv_std_logic_vector(70838142,28); WHEN "1010001111" => manhi <= conv_std_logic_vector(10483,24); manlo <= conv_std_logic_vector(73519811,28); WHEN "1010010000" => manhi <= conv_std_logic_vector(10499,24); manlo <= conv_std_logic_vector(76205578,28); WHEN "1010010001" => manhi <= conv_std_logic_vector(10515,24); manlo <= conv_std_logic_vector(78895444,28); WHEN "1010010010" => manhi <= conv_std_logic_vector(10531,24); manlo <= conv_std_logic_vector(81589409,28); WHEN "1010010011" => manhi <= conv_std_logic_vector(10547,24); manlo <= conv_std_logic_vector(84287472,28); WHEN "1010010100" => manhi <= conv_std_logic_vector(10563,24); manlo <= conv_std_logic_vector(86989633,28); WHEN "1010010101" => manhi <= conv_std_logic_vector(10579,24); manlo <= conv_std_logic_vector(89695894,28); WHEN "1010010110" => manhi <= conv_std_logic_vector(10595,24); manlo <= conv_std_logic_vector(92406252,28); WHEN "1010010111" => manhi <= conv_std_logic_vector(10611,24); manlo <= conv_std_logic_vector(95120710,28); WHEN "1010011000" => manhi <= conv_std_logic_vector(10627,24); manlo <= conv_std_logic_vector(97839266,28); WHEN "1010011001" => manhi <= conv_std_logic_vector(10643,24); manlo <= conv_std_logic_vector(100561920,28); WHEN "1010011010" => manhi <= conv_std_logic_vector(10659,24); manlo <= conv_std_logic_vector(103288674,28); WHEN "1010011011" => manhi <= conv_std_logic_vector(10675,24); manlo <= conv_std_logic_vector(106019525,28); WHEN "1010011100" => manhi <= conv_std_logic_vector(10691,24); manlo <= conv_std_logic_vector(108754476,28); WHEN "1010011101" => manhi <= conv_std_logic_vector(10707,24); manlo <= conv_std_logic_vector(111493525,28); WHEN "1010011110" => manhi <= conv_std_logic_vector(10723,24); manlo <= conv_std_logic_vector(114236673,28); WHEN "1010011111" => manhi <= conv_std_logic_vector(10739,24); manlo <= conv_std_logic_vector(116983919,28); WHEN "1010100000" => manhi <= conv_std_logic_vector(10755,24); manlo <= conv_std_logic_vector(119735264,28); WHEN "1010100001" => manhi <= conv_std_logic_vector(10771,24); manlo <= conv_std_logic_vector(122490707,28); WHEN "1010100010" => manhi <= conv_std_logic_vector(10787,24); manlo <= conv_std_logic_vector(125250249,28); WHEN "1010100011" => manhi <= conv_std_logic_vector(10803,24); manlo <= conv_std_logic_vector(128013890,28); WHEN "1010100100" => manhi <= conv_std_logic_vector(10819,24); manlo <= conv_std_logic_vector(130781629,28); WHEN "1010100101" => manhi <= conv_std_logic_vector(10835,24); manlo <= conv_std_logic_vector(133553468,28); WHEN "1010100110" => manhi <= conv_std_logic_vector(10851,24); manlo <= conv_std_logic_vector(136329404,28); WHEN "1010100111" => manhi <= conv_std_logic_vector(10867,24); manlo <= conv_std_logic_vector(139109440,28); WHEN "1010101000" => manhi <= conv_std_logic_vector(10883,24); manlo <= conv_std_logic_vector(141893574,28); WHEN "1010101001" => manhi <= conv_std_logic_vector(10899,24); manlo <= conv_std_logic_vector(144681806,28); WHEN "1010101010" => manhi <= conv_std_logic_vector(10915,24); manlo <= conv_std_logic_vector(147474137,28); WHEN "1010101011" => manhi <= conv_std_logic_vector(10931,24); manlo <= conv_std_logic_vector(150270567,28); WHEN "1010101100" => manhi <= conv_std_logic_vector(10947,24); manlo <= conv_std_logic_vector(153071096,28); WHEN "1010101101" => manhi <= conv_std_logic_vector(10963,24); manlo <= conv_std_logic_vector(155875723,28); WHEN "1010101110" => manhi <= conv_std_logic_vector(10979,24); manlo <= conv_std_logic_vector(158684449,28); WHEN "1010101111" => manhi <= conv_std_logic_vector(10995,24); manlo <= conv_std_logic_vector(161497274,28); WHEN "1010110000" => manhi <= conv_std_logic_vector(11011,24); manlo <= conv_std_logic_vector(164314197,28); WHEN "1010110001" => manhi <= conv_std_logic_vector(11027,24); manlo <= conv_std_logic_vector(167135219,28); WHEN "1010110010" => manhi <= conv_std_logic_vector(11043,24); manlo <= conv_std_logic_vector(169960340,28); WHEN "1010110011" => manhi <= conv_std_logic_vector(11059,24); manlo <= conv_std_logic_vector(172789560,28); WHEN "1010110100" => manhi <= conv_std_logic_vector(11075,24); manlo <= conv_std_logic_vector(175622878,28); WHEN "1010110101" => manhi <= conv_std_logic_vector(11091,24); manlo <= conv_std_logic_vector(178460295,28); WHEN "1010110110" => manhi <= conv_std_logic_vector(11107,24); manlo <= conv_std_logic_vector(181301810,28); WHEN "1010110111" => manhi <= conv_std_logic_vector(11123,24); manlo <= conv_std_logic_vector(184147424,28); WHEN "1010111000" => manhi <= conv_std_logic_vector(11139,24); manlo <= conv_std_logic_vector(186997137,28); WHEN "1010111001" => manhi <= conv_std_logic_vector(11155,24); manlo <= conv_std_logic_vector(189850949,28); WHEN "1010111010" => manhi <= conv_std_logic_vector(11171,24); manlo <= conv_std_logic_vector(192708860,28); WHEN "1010111011" => manhi <= conv_std_logic_vector(11187,24); manlo <= conv_std_logic_vector(195570869,28); WHEN "1010111100" => manhi <= conv_std_logic_vector(11203,24); manlo <= conv_std_logic_vector(198436977,28); WHEN "1010111101" => manhi <= conv_std_logic_vector(11219,24); manlo <= conv_std_logic_vector(201307183,28); WHEN "1010111110" => manhi <= conv_std_logic_vector(11235,24); manlo <= conv_std_logic_vector(204181489,28); WHEN "1010111111" => manhi <= conv_std_logic_vector(11251,24); manlo <= conv_std_logic_vector(207059893,28); WHEN "1011000000" => manhi <= conv_std_logic_vector(11267,24); manlo <= conv_std_logic_vector(209942395,28); WHEN "1011000001" => manhi <= conv_std_logic_vector(11283,24); manlo <= conv_std_logic_vector(212828997,28); WHEN "1011000010" => manhi <= conv_std_logic_vector(11299,24); manlo <= conv_std_logic_vector(215719697,28); WHEN "1011000011" => manhi <= conv_std_logic_vector(11315,24); manlo <= conv_std_logic_vector(218614497,28); WHEN "1011000100" => manhi <= conv_std_logic_vector(11331,24); manlo <= conv_std_logic_vector(221513394,28); WHEN "1011000101" => manhi <= conv_std_logic_vector(11347,24); manlo <= conv_std_logic_vector(224416391,28); WHEN "1011000110" => manhi <= conv_std_logic_vector(11363,24); manlo <= conv_std_logic_vector(227323486,28); WHEN "1011000111" => manhi <= conv_std_logic_vector(11379,24); manlo <= conv_std_logic_vector(230234681,28); WHEN "1011001000" => manhi <= conv_std_logic_vector(11395,24); manlo <= conv_std_logic_vector(233149974,28); WHEN "1011001001" => manhi <= conv_std_logic_vector(11411,24); manlo <= conv_std_logic_vector(236069365,28); WHEN "1011001010" => manhi <= conv_std_logic_vector(11427,24); manlo <= conv_std_logic_vector(238992856,28); WHEN "1011001011" => manhi <= conv_std_logic_vector(11443,24); manlo <= conv_std_logic_vector(241920445,28); WHEN "1011001100" => manhi <= conv_std_logic_vector(11459,24); manlo <= conv_std_logic_vector(244852133,28); WHEN "1011001101" => manhi <= conv_std_logic_vector(11475,24); manlo <= conv_std_logic_vector(247787920,28); WHEN "1011001110" => manhi <= conv_std_logic_vector(11491,24); manlo <= conv_std_logic_vector(250727806,28); WHEN "1011001111" => manhi <= conv_std_logic_vector(11507,24); manlo <= conv_std_logic_vector(253671790,28); WHEN "1011010000" => manhi <= conv_std_logic_vector(11523,24); manlo <= conv_std_logic_vector(256619874,28); WHEN "1011010001" => manhi <= conv_std_logic_vector(11539,24); manlo <= conv_std_logic_vector(259572056,28); WHEN "1011010010" => manhi <= conv_std_logic_vector(11555,24); manlo <= conv_std_logic_vector(262528337,28); WHEN "1011010011" => manhi <= conv_std_logic_vector(11571,24); manlo <= conv_std_logic_vector(265488717,28); WHEN "1011010100" => manhi <= conv_std_logic_vector(11588,24); manlo <= conv_std_logic_vector(17739,28); WHEN "1011010101" => manhi <= conv_std_logic_vector(11604,24); manlo <= conv_std_logic_vector(2986317,28); WHEN "1011010110" => manhi <= conv_std_logic_vector(11620,24); manlo <= conv_std_logic_vector(5958993,28); WHEN "1011010111" => manhi <= conv_std_logic_vector(11636,24); manlo <= conv_std_logic_vector(8935768,28); WHEN "1011011000" => manhi <= conv_std_logic_vector(11652,24); manlo <= conv_std_logic_vector(11916642,28); WHEN "1011011001" => manhi <= conv_std_logic_vector(11668,24); manlo <= conv_std_logic_vector(14901615,28); WHEN "1011011010" => manhi <= conv_std_logic_vector(11684,24); manlo <= conv_std_logic_vector(17890686,28); WHEN "1011011011" => manhi <= conv_std_logic_vector(11700,24); manlo <= conv_std_logic_vector(20883857,28); WHEN "1011011100" => manhi <= conv_std_logic_vector(11716,24); manlo <= conv_std_logic_vector(23881126,28); WHEN "1011011101" => manhi <= conv_std_logic_vector(11732,24); manlo <= conv_std_logic_vector(26882494,28); WHEN "1011011110" => manhi <= conv_std_logic_vector(11748,24); manlo <= conv_std_logic_vector(29887961,28); WHEN "1011011111" => manhi <= conv_std_logic_vector(11764,24); manlo <= conv_std_logic_vector(32897527,28); WHEN "1011100000" => manhi <= conv_std_logic_vector(11780,24); manlo <= conv_std_logic_vector(35911192,28); WHEN "1011100001" => manhi <= conv_std_logic_vector(11796,24); manlo <= conv_std_logic_vector(38928956,28); WHEN "1011100010" => manhi <= conv_std_logic_vector(11812,24); manlo <= conv_std_logic_vector(41950818,28); WHEN "1011100011" => manhi <= conv_std_logic_vector(11828,24); manlo <= conv_std_logic_vector(44976780,28); WHEN "1011100100" => manhi <= conv_std_logic_vector(11844,24); manlo <= conv_std_logic_vector(48006840,28); WHEN "1011100101" => manhi <= conv_std_logic_vector(11860,24); manlo <= conv_std_logic_vector(51040999,28); WHEN "1011100110" => manhi <= conv_std_logic_vector(11876,24); manlo <= conv_std_logic_vector(54079258,28); WHEN "1011100111" => manhi <= conv_std_logic_vector(11892,24); manlo <= conv_std_logic_vector(57121615,28); WHEN "1011101000" => manhi <= conv_std_logic_vector(11908,24); manlo <= conv_std_logic_vector(60168071,28); WHEN "1011101001" => manhi <= conv_std_logic_vector(11924,24); manlo <= conv_std_logic_vector(63218625,28); WHEN "1011101010" => manhi <= conv_std_logic_vector(11940,24); manlo <= conv_std_logic_vector(66273279,28); WHEN "1011101011" => manhi <= conv_std_logic_vector(11956,24); manlo <= conv_std_logic_vector(69332032,28); WHEN "1011101100" => manhi <= conv_std_logic_vector(11972,24); manlo <= conv_std_logic_vector(72394883,28); WHEN "1011101101" => manhi <= conv_std_logic_vector(11988,24); manlo <= conv_std_logic_vector(75461834,28); WHEN "1011101110" => manhi <= conv_std_logic_vector(12004,24); manlo <= conv_std_logic_vector(78532883,28); WHEN "1011101111" => manhi <= conv_std_logic_vector(12020,24); manlo <= conv_std_logic_vector(81608032,28); WHEN "1011110000" => manhi <= conv_std_logic_vector(12036,24); manlo <= conv_std_logic_vector(84687279,28); WHEN "1011110001" => manhi <= conv_std_logic_vector(12052,24); manlo <= conv_std_logic_vector(87770625,28); WHEN "1011110010" => manhi <= conv_std_logic_vector(12068,24); manlo <= conv_std_logic_vector(90858070,28); WHEN "1011110011" => manhi <= conv_std_logic_vector(12084,24); manlo <= conv_std_logic_vector(93949615,28); WHEN "1011110100" => manhi <= conv_std_logic_vector(12100,24); manlo <= conv_std_logic_vector(97045258,28); WHEN "1011110101" => manhi <= conv_std_logic_vector(12116,24); manlo <= conv_std_logic_vector(100145000,28); WHEN "1011110110" => manhi <= conv_std_logic_vector(12132,24); manlo <= conv_std_logic_vector(103248841,28); WHEN "1011110111" => manhi <= conv_std_logic_vector(12148,24); manlo <= conv_std_logic_vector(106356781,28); WHEN "1011111000" => manhi <= conv_std_logic_vector(12164,24); manlo <= conv_std_logic_vector(109468819,28); WHEN "1011111001" => manhi <= conv_std_logic_vector(12180,24); manlo <= conv_std_logic_vector(112584957,28); WHEN "1011111010" => manhi <= conv_std_logic_vector(12196,24); manlo <= conv_std_logic_vector(115705194,28); WHEN "1011111011" => manhi <= conv_std_logic_vector(12212,24); manlo <= conv_std_logic_vector(118829530,28); WHEN "1011111100" => manhi <= conv_std_logic_vector(12228,24); manlo <= conv_std_logic_vector(121957965,28); WHEN "1011111101" => manhi <= conv_std_logic_vector(12244,24); manlo <= conv_std_logic_vector(125090499,28); WHEN "1011111110" => manhi <= conv_std_logic_vector(12260,24); manlo <= conv_std_logic_vector(128227131,28); WHEN "1011111111" => manhi <= conv_std_logic_vector(12276,24); manlo <= conv_std_logic_vector(131367863,28); WHEN "1100000000" => manhi <= conv_std_logic_vector(12292,24); manlo <= conv_std_logic_vector(134512694,28); WHEN "1100000001" => manhi <= conv_std_logic_vector(12308,24); manlo <= conv_std_logic_vector(137661624,28); WHEN "1100000010" => manhi <= conv_std_logic_vector(12324,24); manlo <= conv_std_logic_vector(140814653,28); WHEN "1100000011" => manhi <= conv_std_logic_vector(12340,24); manlo <= conv_std_logic_vector(143971780,28); WHEN "1100000100" => manhi <= conv_std_logic_vector(12356,24); manlo <= conv_std_logic_vector(147133007,28); WHEN "1100000101" => manhi <= conv_std_logic_vector(12372,24); manlo <= conv_std_logic_vector(150298333,28); WHEN "1100000110" => manhi <= conv_std_logic_vector(12388,24); manlo <= conv_std_logic_vector(153467758,28); WHEN "1100000111" => manhi <= conv_std_logic_vector(12404,24); manlo <= conv_std_logic_vector(156641282,28); WHEN "1100001000" => manhi <= conv_std_logic_vector(12420,24); manlo <= conv_std_logic_vector(159818905,28); WHEN "1100001001" => manhi <= conv_std_logic_vector(12436,24); manlo <= conv_std_logic_vector(163000627,28); WHEN "1100001010" => manhi <= conv_std_logic_vector(12452,24); manlo <= conv_std_logic_vector(166186448,28); WHEN "1100001011" => manhi <= conv_std_logic_vector(12468,24); manlo <= conv_std_logic_vector(169376368,28); WHEN "1100001100" => manhi <= conv_std_logic_vector(12484,24); manlo <= conv_std_logic_vector(172570387,28); WHEN "1100001101" => manhi <= conv_std_logic_vector(12500,24); manlo <= conv_std_logic_vector(175768505,28); WHEN "1100001110" => manhi <= conv_std_logic_vector(12516,24); manlo <= conv_std_logic_vector(178970722,28); WHEN "1100001111" => manhi <= conv_std_logic_vector(12532,24); manlo <= conv_std_logic_vector(182177038,28); WHEN "1100010000" => manhi <= conv_std_logic_vector(12548,24); manlo <= conv_std_logic_vector(185387453,28); WHEN "1100010001" => manhi <= conv_std_logic_vector(12564,24); manlo <= conv_std_logic_vector(188601968,28); WHEN "1100010010" => manhi <= conv_std_logic_vector(12580,24); manlo <= conv_std_logic_vector(191820581,28); WHEN "1100010011" => manhi <= conv_std_logic_vector(12596,24); manlo <= conv_std_logic_vector(195043294,28); WHEN "1100010100" => manhi <= conv_std_logic_vector(12612,24); manlo <= conv_std_logic_vector(198270105,28); WHEN "1100010101" => manhi <= conv_std_logic_vector(12628,24); manlo <= conv_std_logic_vector(201501016,28); WHEN "1100010110" => manhi <= conv_std_logic_vector(12644,24); manlo <= conv_std_logic_vector(204736025,28); WHEN "1100010111" => manhi <= conv_std_logic_vector(12660,24); manlo <= conv_std_logic_vector(207975134,28); WHEN "1100011000" => manhi <= conv_std_logic_vector(12676,24); manlo <= conv_std_logic_vector(211218342,28); WHEN "1100011001" => manhi <= conv_std_logic_vector(12692,24); manlo <= conv_std_logic_vector(214465649,28); WHEN "1100011010" => manhi <= conv_std_logic_vector(12708,24); manlo <= conv_std_logic_vector(217717055,28); WHEN "1100011011" => manhi <= conv_std_logic_vector(12724,24); manlo <= conv_std_logic_vector(220972560,28); WHEN "1100011100" => manhi <= conv_std_logic_vector(12740,24); manlo <= conv_std_logic_vector(224232165,28); WHEN "1100011101" => manhi <= conv_std_logic_vector(12756,24); manlo <= conv_std_logic_vector(227495868,28); WHEN "1100011110" => manhi <= conv_std_logic_vector(12772,24); manlo <= conv_std_logic_vector(230763671,28); WHEN "1100011111" => manhi <= conv_std_logic_vector(12788,24); manlo <= conv_std_logic_vector(234035572,28); WHEN "1100100000" => manhi <= conv_std_logic_vector(12804,24); manlo <= conv_std_logic_vector(237311573,28); WHEN "1100100001" => manhi <= conv_std_logic_vector(12820,24); manlo <= conv_std_logic_vector(240591673,28); WHEN "1100100010" => manhi <= conv_std_logic_vector(12836,24); manlo <= conv_std_logic_vector(243875872,28); WHEN "1100100011" => manhi <= conv_std_logic_vector(12852,24); manlo <= conv_std_logic_vector(247164170,28); WHEN "1100100100" => manhi <= conv_std_logic_vector(12868,24); manlo <= conv_std_logic_vector(250456567,28); WHEN "1100100101" => manhi <= conv_std_logic_vector(12884,24); manlo <= conv_std_logic_vector(253753064,28); WHEN "1100100110" => manhi <= conv_std_logic_vector(12900,24); manlo <= conv_std_logic_vector(257053659,28); WHEN "1100100111" => manhi <= conv_std_logic_vector(12916,24); manlo <= conv_std_logic_vector(260358354,28); WHEN "1100101000" => manhi <= conv_std_logic_vector(12932,24); manlo <= conv_std_logic_vector(263667148,28); WHEN "1100101001" => manhi <= conv_std_logic_vector(12948,24); manlo <= conv_std_logic_vector(266980041,28); WHEN "1100101010" => manhi <= conv_std_logic_vector(12965,24); manlo <= conv_std_logic_vector(1861577,28); WHEN "1100101011" => manhi <= conv_std_logic_vector(12981,24); manlo <= conv_std_logic_vector(5182668,28); WHEN "1100101100" => manhi <= conv_std_logic_vector(12997,24); manlo <= conv_std_logic_vector(8507859,28); WHEN "1100101101" => manhi <= conv_std_logic_vector(13013,24); manlo <= conv_std_logic_vector(11837149,28); WHEN "1100101110" => manhi <= conv_std_logic_vector(13029,24); manlo <= conv_std_logic_vector(15170538,28); WHEN "1100101111" => manhi <= conv_std_logic_vector(13045,24); manlo <= conv_std_logic_vector(18508026,28); WHEN "1100110000" => manhi <= conv_std_logic_vector(13061,24); manlo <= conv_std_logic_vector(21849613,28); WHEN "1100110001" => manhi <= conv_std_logic_vector(13077,24); manlo <= conv_std_logic_vector(25195299,28); WHEN "1100110010" => manhi <= conv_std_logic_vector(13093,24); manlo <= conv_std_logic_vector(28545085,28); WHEN "1100110011" => manhi <= conv_std_logic_vector(13109,24); manlo <= conv_std_logic_vector(31898970,28); WHEN "1100110100" => manhi <= conv_std_logic_vector(13125,24); manlo <= conv_std_logic_vector(35256954,28); WHEN "1100110101" => manhi <= conv_std_logic_vector(13141,24); manlo <= conv_std_logic_vector(38619037,28); WHEN "1100110110" => manhi <= conv_std_logic_vector(13157,24); manlo <= conv_std_logic_vector(41985219,28); WHEN "1100110111" => manhi <= conv_std_logic_vector(13173,24); manlo <= conv_std_logic_vector(45355501,28); WHEN "1100111000" => manhi <= conv_std_logic_vector(13189,24); manlo <= conv_std_logic_vector(48729882,28); WHEN "1100111001" => manhi <= conv_std_logic_vector(13205,24); manlo <= conv_std_logic_vector(52108362,28); WHEN "1100111010" => manhi <= conv_std_logic_vector(13221,24); manlo <= conv_std_logic_vector(55490941,28); WHEN "1100111011" => manhi <= conv_std_logic_vector(13237,24); manlo <= conv_std_logic_vector(58877620,28); WHEN "1100111100" => manhi <= conv_std_logic_vector(13253,24); manlo <= conv_std_logic_vector(62268398,28); WHEN "1100111101" => manhi <= conv_std_logic_vector(13269,24); manlo <= conv_std_logic_vector(65663275,28); WHEN "1100111110" => manhi <= conv_std_logic_vector(13285,24); manlo <= conv_std_logic_vector(69062251,28); WHEN "1100111111" => manhi <= conv_std_logic_vector(13301,24); manlo <= conv_std_logic_vector(72465326,28); WHEN "1101000000" => manhi <= conv_std_logic_vector(13317,24); manlo <= conv_std_logic_vector(75872501,28); WHEN "1101000001" => manhi <= conv_std_logic_vector(13333,24); manlo <= conv_std_logic_vector(79283775,28); WHEN "1101000010" => manhi <= conv_std_logic_vector(13349,24); manlo <= conv_std_logic_vector(82699148,28); WHEN "1101000011" => manhi <= conv_std_logic_vector(13365,24); manlo <= conv_std_logic_vector(86118621,28); WHEN "1101000100" => manhi <= conv_std_logic_vector(13381,24); manlo <= conv_std_logic_vector(89542193,28); WHEN "1101000101" => manhi <= conv_std_logic_vector(13397,24); manlo <= conv_std_logic_vector(92969864,28); WHEN "1101000110" => manhi <= conv_std_logic_vector(13413,24); manlo <= conv_std_logic_vector(96401634,28); WHEN "1101000111" => manhi <= conv_std_logic_vector(13429,24); manlo <= conv_std_logic_vector(99837503,28); WHEN "1101001000" => manhi <= conv_std_logic_vector(13445,24); manlo <= conv_std_logic_vector(103277472,28); WHEN "1101001001" => manhi <= conv_std_logic_vector(13461,24); manlo <= conv_std_logic_vector(106721540,28); WHEN "1101001010" => manhi <= conv_std_logic_vector(13477,24); manlo <= conv_std_logic_vector(110169708,28); WHEN "1101001011" => manhi <= conv_std_logic_vector(13493,24); manlo <= conv_std_logic_vector(113621975,28); WHEN "1101001100" => manhi <= conv_std_logic_vector(13509,24); manlo <= conv_std_logic_vector(117078341,28); WHEN "1101001101" => manhi <= conv_std_logic_vector(13525,24); manlo <= conv_std_logic_vector(120538806,28); WHEN "1101001110" => manhi <= conv_std_logic_vector(13541,24); manlo <= conv_std_logic_vector(124003370,28); WHEN "1101001111" => manhi <= conv_std_logic_vector(13557,24); manlo <= conv_std_logic_vector(127472034,28); WHEN "1101010000" => manhi <= conv_std_logic_vector(13573,24); manlo <= conv_std_logic_vector(130944798,28); WHEN "1101010001" => manhi <= conv_std_logic_vector(13589,24); manlo <= conv_std_logic_vector(134421660,28); WHEN "1101010010" => manhi <= conv_std_logic_vector(13605,24); manlo <= conv_std_logic_vector(137902622,28); WHEN "1101010011" => manhi <= conv_std_logic_vector(13621,24); manlo <= conv_std_logic_vector(141387683,28); WHEN "1101010100" => manhi <= conv_std_logic_vector(13637,24); manlo <= conv_std_logic_vector(144876844,28); WHEN "1101010101" => manhi <= conv_std_logic_vector(13653,24); manlo <= conv_std_logic_vector(148370104,28); WHEN "1101010110" => manhi <= conv_std_logic_vector(13669,24); manlo <= conv_std_logic_vector(151867463,28); WHEN "1101010111" => manhi <= conv_std_logic_vector(13685,24); manlo <= conv_std_logic_vector(155368921,28); WHEN "1101011000" => manhi <= conv_std_logic_vector(13701,24); manlo <= conv_std_logic_vector(158874479,28); WHEN "1101011001" => manhi <= conv_std_logic_vector(13717,24); manlo <= conv_std_logic_vector(162384136,28); WHEN "1101011010" => manhi <= conv_std_logic_vector(13733,24); manlo <= conv_std_logic_vector(165897893,28); WHEN "1101011011" => manhi <= conv_std_logic_vector(13749,24); manlo <= conv_std_logic_vector(169415749,28); WHEN "1101011100" => manhi <= conv_std_logic_vector(13765,24); manlo <= conv_std_logic_vector(172937704,28); WHEN "1101011101" => manhi <= conv_std_logic_vector(13781,24); manlo <= conv_std_logic_vector(176463758,28); WHEN "1101011110" => manhi <= conv_std_logic_vector(13797,24); manlo <= conv_std_logic_vector(179993912,28); WHEN "1101011111" => manhi <= conv_std_logic_vector(13813,24); manlo <= conv_std_logic_vector(183528166,28); WHEN "1101100000" => manhi <= conv_std_logic_vector(13829,24); manlo <= conv_std_logic_vector(187066519,28); WHEN "1101100001" => manhi <= conv_std_logic_vector(13845,24); manlo <= conv_std_logic_vector(190608971,28); WHEN "1101100010" => manhi <= conv_std_logic_vector(13861,24); manlo <= conv_std_logic_vector(194155522,28); WHEN "1101100011" => manhi <= conv_std_logic_vector(13877,24); manlo <= conv_std_logic_vector(197706173,28); WHEN "1101100100" => manhi <= conv_std_logic_vector(13893,24); manlo <= conv_std_logic_vector(201260923,28); WHEN "1101100101" => manhi <= conv_std_logic_vector(13909,24); manlo <= conv_std_logic_vector(204819773,28); WHEN "1101100110" => manhi <= conv_std_logic_vector(13925,24); manlo <= conv_std_logic_vector(208382722,28); WHEN "1101100111" => manhi <= conv_std_logic_vector(13941,24); manlo <= conv_std_logic_vector(211949770,28); WHEN "1101101000" => manhi <= conv_std_logic_vector(13957,24); manlo <= conv_std_logic_vector(215520918,28); WHEN "1101101001" => manhi <= conv_std_logic_vector(13973,24); manlo <= conv_std_logic_vector(219096165,28); WHEN "1101101010" => manhi <= conv_std_logic_vector(13989,24); manlo <= conv_std_logic_vector(222675512,28); WHEN "1101101011" => manhi <= conv_std_logic_vector(14005,24); manlo <= conv_std_logic_vector(226258958,28); WHEN "1101101100" => manhi <= conv_std_logic_vector(14021,24); manlo <= conv_std_logic_vector(229846504,28); WHEN "1101101101" => manhi <= conv_std_logic_vector(14037,24); manlo <= conv_std_logic_vector(233438148,28); WHEN "1101101110" => manhi <= conv_std_logic_vector(14053,24); manlo <= conv_std_logic_vector(237033893,28); WHEN "1101101111" => manhi <= conv_std_logic_vector(14069,24); manlo <= conv_std_logic_vector(240633737,28); WHEN "1101110000" => manhi <= conv_std_logic_vector(14085,24); manlo <= conv_std_logic_vector(244237680,28); WHEN "1101110001" => manhi <= conv_std_logic_vector(14101,24); manlo <= conv_std_logic_vector(247845722,28); WHEN "1101110010" => manhi <= conv_std_logic_vector(14117,24); manlo <= conv_std_logic_vector(251457864,28); WHEN "1101110011" => manhi <= conv_std_logic_vector(14133,24); manlo <= conv_std_logic_vector(255074106,28); WHEN "1101110100" => manhi <= conv_std_logic_vector(14149,24); manlo <= conv_std_logic_vector(258694447,28); WHEN "1101110101" => manhi <= conv_std_logic_vector(14165,24); manlo <= conv_std_logic_vector(262318887,28); WHEN "1101110110" => manhi <= conv_std_logic_vector(14181,24); manlo <= conv_std_logic_vector(265947427,28); WHEN "1101110111" => manhi <= conv_std_logic_vector(14198,24); manlo <= conv_std_logic_vector(1144611,28); WHEN "1101111000" => manhi <= conv_std_logic_vector(14214,24); manlo <= conv_std_logic_vector(4781350,28); WHEN "1101111001" => manhi <= conv_std_logic_vector(14230,24); manlo <= conv_std_logic_vector(8422188,28); WHEN "1101111010" => manhi <= conv_std_logic_vector(14246,24); manlo <= conv_std_logic_vector(12067126,28); WHEN "1101111011" => manhi <= conv_std_logic_vector(14262,24); manlo <= conv_std_logic_vector(15716163,28); WHEN "1101111100" => manhi <= conv_std_logic_vector(14278,24); manlo <= conv_std_logic_vector(19369300,28); WHEN "1101111101" => manhi <= conv_std_logic_vector(14294,24); manlo <= conv_std_logic_vector(23026536,28); WHEN "1101111110" => manhi <= conv_std_logic_vector(14310,24); manlo <= conv_std_logic_vector(26687871,28); WHEN "1101111111" => manhi <= conv_std_logic_vector(14326,24); manlo <= conv_std_logic_vector(30353307,28); WHEN "1110000000" => manhi <= conv_std_logic_vector(14342,24); manlo <= conv_std_logic_vector(34022841,28); WHEN "1110000001" => manhi <= conv_std_logic_vector(14358,24); manlo <= conv_std_logic_vector(37696476,28); WHEN "1110000010" => manhi <= conv_std_logic_vector(14374,24); manlo <= conv_std_logic_vector(41374209,28); WHEN "1110000011" => manhi <= conv_std_logic_vector(14390,24); manlo <= conv_std_logic_vector(45056043,28); WHEN "1110000100" => manhi <= conv_std_logic_vector(14406,24); manlo <= conv_std_logic_vector(48741975,28); WHEN "1110000101" => manhi <= conv_std_logic_vector(14422,24); manlo <= conv_std_logic_vector(52432007,28); WHEN "1110000110" => manhi <= conv_std_logic_vector(14438,24); manlo <= conv_std_logic_vector(56126139,28); WHEN "1110000111" => manhi <= conv_std_logic_vector(14454,24); manlo <= conv_std_logic_vector(59824371,28); WHEN "1110001000" => manhi <= conv_std_logic_vector(14470,24); manlo <= conv_std_logic_vector(63526701,28); WHEN "1110001001" => manhi <= conv_std_logic_vector(14486,24); manlo <= conv_std_logic_vector(67233132,28); WHEN "1110001010" => manhi <= conv_std_logic_vector(14502,24); manlo <= conv_std_logic_vector(70943662,28); WHEN "1110001011" => manhi <= conv_std_logic_vector(14518,24); manlo <= conv_std_logic_vector(74658291,28); WHEN "1110001100" => manhi <= conv_std_logic_vector(14534,24); manlo <= conv_std_logic_vector(78377020,28); WHEN "1110001101" => manhi <= conv_std_logic_vector(14550,24); manlo <= conv_std_logic_vector(82099849,28); WHEN "1110001110" => manhi <= conv_std_logic_vector(14566,24); manlo <= conv_std_logic_vector(85826777,28); WHEN "1110001111" => manhi <= conv_std_logic_vector(14582,24); manlo <= conv_std_logic_vector(89557804,28); WHEN "1110010000" => manhi <= conv_std_logic_vector(14598,24); manlo <= conv_std_logic_vector(93292931,28); WHEN "1110010001" => manhi <= conv_std_logic_vector(14614,24); manlo <= conv_std_logic_vector(97032158,28); WHEN "1110010010" => manhi <= conv_std_logic_vector(14630,24); manlo <= conv_std_logic_vector(100775484,28); WHEN "1110010011" => manhi <= conv_std_logic_vector(14646,24); manlo <= conv_std_logic_vector(104522910,28); WHEN "1110010100" => manhi <= conv_std_logic_vector(14662,24); manlo <= conv_std_logic_vector(108274436,28); WHEN "1110010101" => manhi <= conv_std_logic_vector(14678,24); manlo <= conv_std_logic_vector(112030061,28); WHEN "1110010110" => manhi <= conv_std_logic_vector(14694,24); manlo <= conv_std_logic_vector(115789786,28); WHEN "1110010111" => manhi <= conv_std_logic_vector(14710,24); manlo <= conv_std_logic_vector(119553610,28); WHEN "1110011000" => manhi <= conv_std_logic_vector(14726,24); manlo <= conv_std_logic_vector(123321534,28); WHEN "1110011001" => manhi <= conv_std_logic_vector(14742,24); manlo <= conv_std_logic_vector(127093557,28); WHEN "1110011010" => manhi <= conv_std_logic_vector(14758,24); manlo <= conv_std_logic_vector(130869680,28); WHEN "1110011011" => manhi <= conv_std_logic_vector(14774,24); manlo <= conv_std_logic_vector(134649903,28); WHEN "1110011100" => manhi <= conv_std_logic_vector(14790,24); manlo <= conv_std_logic_vector(138434225,28); WHEN "1110011101" => manhi <= conv_std_logic_vector(14806,24); manlo <= conv_std_logic_vector(142222647,28); WHEN "1110011110" => manhi <= conv_std_logic_vector(14822,24); manlo <= conv_std_logic_vector(146015168,28); WHEN "1110011111" => manhi <= conv_std_logic_vector(14838,24); manlo <= conv_std_logic_vector(149811789,28); WHEN "1110100000" => manhi <= conv_std_logic_vector(14854,24); manlo <= conv_std_logic_vector(153612510,28); WHEN "1110100001" => manhi <= conv_std_logic_vector(14870,24); manlo <= conv_std_logic_vector(157417330,28); WHEN "1110100010" => manhi <= conv_std_logic_vector(14886,24); manlo <= conv_std_logic_vector(161226250,28); WHEN "1110100011" => manhi <= conv_std_logic_vector(14902,24); manlo <= conv_std_logic_vector(165039270,28); WHEN "1110100100" => manhi <= conv_std_logic_vector(14918,24); manlo <= conv_std_logic_vector(168856389,28); WHEN "1110100101" => manhi <= conv_std_logic_vector(14934,24); manlo <= conv_std_logic_vector(172677608,28); WHEN "1110100110" => manhi <= conv_std_logic_vector(14950,24); manlo <= conv_std_logic_vector(176502926,28); WHEN "1110100111" => manhi <= conv_std_logic_vector(14966,24); manlo <= conv_std_logic_vector(180332344,28); WHEN "1110101000" => manhi <= conv_std_logic_vector(14982,24); manlo <= conv_std_logic_vector(184165862,28); WHEN "1110101001" => manhi <= conv_std_logic_vector(14998,24); manlo <= conv_std_logic_vector(188003480,28); WHEN "1110101010" => manhi <= conv_std_logic_vector(15014,24); manlo <= conv_std_logic_vector(191845197,28); WHEN "1110101011" => manhi <= conv_std_logic_vector(15030,24); manlo <= conv_std_logic_vector(195691014,28); WHEN "1110101100" => manhi <= conv_std_logic_vector(15046,24); manlo <= conv_std_logic_vector(199540930,28); WHEN "1110101101" => manhi <= conv_std_logic_vector(15062,24); manlo <= conv_std_logic_vector(203394946,28); WHEN "1110101110" => manhi <= conv_std_logic_vector(15078,24); manlo <= conv_std_logic_vector(207253062,28); WHEN "1110101111" => manhi <= conv_std_logic_vector(15094,24); manlo <= conv_std_logic_vector(211115277,28); WHEN "1110110000" => manhi <= conv_std_logic_vector(15110,24); manlo <= conv_std_logic_vector(214981593,28); WHEN "1110110001" => manhi <= conv_std_logic_vector(15126,24); manlo <= conv_std_logic_vector(218852007,28); WHEN "1110110010" => manhi <= conv_std_logic_vector(15142,24); manlo <= conv_std_logic_vector(222726522,28); WHEN "1110110011" => manhi <= conv_std_logic_vector(15158,24); manlo <= conv_std_logic_vector(226605136,28); WHEN "1110110100" => manhi <= conv_std_logic_vector(15174,24); manlo <= conv_std_logic_vector(230487850,28); WHEN "1110110101" => manhi <= conv_std_logic_vector(15190,24); manlo <= conv_std_logic_vector(234374664,28); WHEN "1110110110" => manhi <= conv_std_logic_vector(15206,24); manlo <= conv_std_logic_vector(238265577,28); WHEN "1110110111" => manhi <= conv_std_logic_vector(15222,24); manlo <= conv_std_logic_vector(242160590,28); WHEN "1110111000" => manhi <= conv_std_logic_vector(15238,24); manlo <= conv_std_logic_vector(246059703,28); WHEN "1110111001" => manhi <= conv_std_logic_vector(15254,24); manlo <= conv_std_logic_vector(249962916,28); WHEN "1110111010" => manhi <= conv_std_logic_vector(15270,24); manlo <= conv_std_logic_vector(253870228,28); WHEN "1110111011" => manhi <= conv_std_logic_vector(15286,24); manlo <= conv_std_logic_vector(257781640,28); WHEN "1110111100" => manhi <= conv_std_logic_vector(15302,24); manlo <= conv_std_logic_vector(261697152,28); WHEN "1110111101" => manhi <= conv_std_logic_vector(15318,24); manlo <= conv_std_logic_vector(265616763,28); WHEN "1110111110" => manhi <= conv_std_logic_vector(15335,24); manlo <= conv_std_logic_vector(1105018,28); WHEN "1110111111" => manhi <= conv_std_logic_vector(15351,24); manlo <= conv_std_logic_vector(5032829,28); WHEN "1111000000" => manhi <= conv_std_logic_vector(15367,24); manlo <= conv_std_logic_vector(8964740,28); WHEN "1111000001" => manhi <= conv_std_logic_vector(15383,24); manlo <= conv_std_logic_vector(12900750,28); WHEN "1111000010" => manhi <= conv_std_logic_vector(15399,24); manlo <= conv_std_logic_vector(16840860,28); WHEN "1111000011" => manhi <= conv_std_logic_vector(15415,24); manlo <= conv_std_logic_vector(20785070,28); WHEN "1111000100" => manhi <= conv_std_logic_vector(15431,24); manlo <= conv_std_logic_vector(24733380,28); WHEN "1111000101" => manhi <= conv_std_logic_vector(15447,24); manlo <= conv_std_logic_vector(28685790,28); WHEN "1111000110" => manhi <= conv_std_logic_vector(15463,24); manlo <= conv_std_logic_vector(32642299,28); WHEN "1111000111" => manhi <= conv_std_logic_vector(15479,24); manlo <= conv_std_logic_vector(36602908,28); WHEN "1111001000" => manhi <= conv_std_logic_vector(15495,24); manlo <= conv_std_logic_vector(40567617,28); WHEN "1111001001" => manhi <= conv_std_logic_vector(15511,24); manlo <= conv_std_logic_vector(44536425,28); WHEN "1111001010" => manhi <= conv_std_logic_vector(15527,24); manlo <= conv_std_logic_vector(48509334,28); WHEN "1111001011" => manhi <= conv_std_logic_vector(15543,24); manlo <= conv_std_logic_vector(52486342,28); WHEN "1111001100" => manhi <= conv_std_logic_vector(15559,24); manlo <= conv_std_logic_vector(56467450,28); WHEN "1111001101" => manhi <= conv_std_logic_vector(15575,24); manlo <= conv_std_logic_vector(60452657,28); WHEN "1111001110" => manhi <= conv_std_logic_vector(15591,24); manlo <= conv_std_logic_vector(64441965,28); WHEN "1111001111" => manhi <= conv_std_logic_vector(15607,24); manlo <= conv_std_logic_vector(68435372,28); WHEN "1111010000" => manhi <= conv_std_logic_vector(15623,24); manlo <= conv_std_logic_vector(72432880,28); WHEN "1111010001" => manhi <= conv_std_logic_vector(15639,24); manlo <= conv_std_logic_vector(76434487,28); WHEN "1111010010" => manhi <= conv_std_logic_vector(15655,24); manlo <= conv_std_logic_vector(80440193,28); WHEN "1111010011" => manhi <= conv_std_logic_vector(15671,24); manlo <= conv_std_logic_vector(84450000,28); WHEN "1111010100" => manhi <= conv_std_logic_vector(15687,24); manlo <= conv_std_logic_vector(88463906,28); WHEN "1111010101" => manhi <= conv_std_logic_vector(15703,24); manlo <= conv_std_logic_vector(92481913,28); WHEN "1111010110" => manhi <= conv_std_logic_vector(15719,24); manlo <= conv_std_logic_vector(96504019,28); WHEN "1111010111" => manhi <= conv_std_logic_vector(15735,24); manlo <= conv_std_logic_vector(100530225,28); WHEN "1111011000" => manhi <= conv_std_logic_vector(15751,24); manlo <= conv_std_logic_vector(104560531,28); WHEN "1111011001" => manhi <= conv_std_logic_vector(15767,24); manlo <= conv_std_logic_vector(108594936,28); WHEN "1111011010" => manhi <= conv_std_logic_vector(15783,24); manlo <= conv_std_logic_vector(112633442,28); WHEN "1111011011" => manhi <= conv_std_logic_vector(15799,24); manlo <= conv_std_logic_vector(116676047,28); WHEN "1111011100" => manhi <= conv_std_logic_vector(15815,24); manlo <= conv_std_logic_vector(120722752,28); WHEN "1111011101" => manhi <= conv_std_logic_vector(15831,24); manlo <= conv_std_logic_vector(124773557,28); WHEN "1111011110" => manhi <= conv_std_logic_vector(15847,24); manlo <= conv_std_logic_vector(128828462,28); WHEN "1111011111" => manhi <= conv_std_logic_vector(15863,24); manlo <= conv_std_logic_vector(132887467,28); WHEN "1111100000" => manhi <= conv_std_logic_vector(15879,24); manlo <= conv_std_logic_vector(136950572,28); WHEN "1111100001" => manhi <= conv_std_logic_vector(15895,24); manlo <= conv_std_logic_vector(141017776,28); WHEN "1111100010" => manhi <= conv_std_logic_vector(15911,24); manlo <= conv_std_logic_vector(145089081,28); WHEN "1111100011" => manhi <= conv_std_logic_vector(15927,24); manlo <= conv_std_logic_vector(149164485,28); WHEN "1111100100" => manhi <= conv_std_logic_vector(15943,24); manlo <= conv_std_logic_vector(153243989,28); WHEN "1111100101" => manhi <= conv_std_logic_vector(15959,24); manlo <= conv_std_logic_vector(157327593,28); WHEN "1111100110" => manhi <= conv_std_logic_vector(15975,24); manlo <= conv_std_logic_vector(161415297,28); WHEN "1111100111" => manhi <= conv_std_logic_vector(15991,24); manlo <= conv_std_logic_vector(165507101,28); WHEN "1111101000" => manhi <= conv_std_logic_vector(16007,24); manlo <= conv_std_logic_vector(169603005,28); WHEN "1111101001" => manhi <= conv_std_logic_vector(16023,24); manlo <= conv_std_logic_vector(173703009,28); WHEN "1111101010" => manhi <= conv_std_logic_vector(16039,24); manlo <= conv_std_logic_vector(177807112,28); WHEN "1111101011" => manhi <= conv_std_logic_vector(16055,24); manlo <= conv_std_logic_vector(181915316,28); WHEN "1111101100" => manhi <= conv_std_logic_vector(16071,24); manlo <= conv_std_logic_vector(186027619,28); WHEN "1111101101" => manhi <= conv_std_logic_vector(16087,24); manlo <= conv_std_logic_vector(190144023,28); WHEN "1111101110" => manhi <= conv_std_logic_vector(16103,24); manlo <= conv_std_logic_vector(194264526,28); WHEN "1111101111" => manhi <= conv_std_logic_vector(16119,24); manlo <= conv_std_logic_vector(198389129,28); WHEN "1111110000" => manhi <= conv_std_logic_vector(16135,24); manlo <= conv_std_logic_vector(202517832,28); WHEN "1111110001" => manhi <= conv_std_logic_vector(16151,24); manlo <= conv_std_logic_vector(206650635,28); WHEN "1111110010" => manhi <= conv_std_logic_vector(16167,24); manlo <= conv_std_logic_vector(210787538,28); WHEN "1111110011" => manhi <= conv_std_logic_vector(16183,24); manlo <= conv_std_logic_vector(214928541,28); WHEN "1111110100" => manhi <= conv_std_logic_vector(16199,24); manlo <= conv_std_logic_vector(219073644,28); WHEN "1111110101" => manhi <= conv_std_logic_vector(16215,24); manlo <= conv_std_logic_vector(223222847,28); WHEN "1111110110" => manhi <= conv_std_logic_vector(16231,24); manlo <= conv_std_logic_vector(227376150,28); WHEN "1111110111" => manhi <= conv_std_logic_vector(16247,24); manlo <= conv_std_logic_vector(231533553,28); WHEN "1111111000" => manhi <= conv_std_logic_vector(16263,24); manlo <= conv_std_logic_vector(235695056,28); WHEN "1111111001" => manhi <= conv_std_logic_vector(16279,24); manlo <= conv_std_logic_vector(239860659,28); WHEN "1111111010" => manhi <= conv_std_logic_vector(16295,24); manlo <= conv_std_logic_vector(244030361,28); WHEN "1111111011" => manhi <= conv_std_logic_vector(16311,24); manlo <= conv_std_logic_vector(248204164,28); WHEN "1111111100" => manhi <= conv_std_logic_vector(16327,24); manlo <= conv_std_logic_vector(252382067,28); WHEN "1111111101" => manhi <= conv_std_logic_vector(16343,24); manlo <= conv_std_logic_vector(256564069,28); WHEN "1111111110" => manhi <= conv_std_logic_vector(16359,24); manlo <= conv_std_logic_vector(260750172,28); WHEN "1111111111" => manhi <= conv_std_logic_vector(16375,24); manlo <= conv_std_logic_vector(264940375,28); WHEN others => manhi <= conv_std_logic_vector(0,24); manlo <= conv_std_logic_vector(0,28); END CASE; END PROCESS; END rtl;
library verilog; use verilog.vl_types.all; entity ServoLinPosCntr is generic( ADDR_LEN : integer := 8; POSITION_DATA_LEN: integer := 8; SPEED_DATA_LEN : integer := 5 ); port( clk : in vl_logic; rst : in vl_logic; data : in vl_logic_vector; address : out vl_logic_vector; position : out vl_logic_vector; nextValue : in vl_logic ); attribute mti_svvh_generic_type : integer; attribute mti_svvh_generic_type of ADDR_LEN : constant is 1; attribute mti_svvh_generic_type of POSITION_DATA_LEN : constant is 1; attribute mti_svvh_generic_type of SPEED_DATA_LEN : constant is 1; end ServoLinPosCntr;
entity test is subtype t is foo(bar (open)(baz (quz'xxx))); end;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use STD.TEXTIO.ALL; -- Uncomment the following lines to use the declarations that are -- provided for instantiating Xilinx primitive components. --library UNISIM; --use UNISIM.VComponents.all; entity BaudGen is Generic(bg_clock_freq : integer; bg_baud_rate : integer); Port( CLK_I : in std_logic; RST_I : in std_logic; CE_16 : out std_logic ); end BaudGen; architecture Behavioral of BaudGen is -- divide bg_clock_freq and bg_baud_rate -- by their common divisor... -- function gcd(M, N: integer) return integer is begin if ((M mod N) = 0) then return N; else return gcd(N, M mod N); end if; end; constant common_div : integer := gcd(bg_clock_freq, 16 * bg_baud_rate); constant clock_freq : integer := bg_clock_freq / common_div; constant baud_freq : integer := 16 * bg_baud_rate / common_div; constant limit : integer := clock_freq - baud_freq; signal COUNTER : integer range 0 to clock_freq - 1; begin process(CLK_I) begin if (rising_edge(CLK_I)) then CE_16 <= '0'; -- make CE_16 stay on for (at most) one cycle if (RST_I = '1') then COUNTER <= 0; elsif (COUNTER >= limit) then CE_16 <= '1'; COUNTER <= COUNTER - limit; else COUNTER <= COUNTER + baud_freq; end if; end if; end process; end Behavioral;
-------------------------------------------------------------------------------- --Copyright (c) 2014, Benjamin Bässler <ccl@xunit.de> --All rights reserved. -- --Redistribution and use in source and binary forms, with or without --modification, are permitted provided that the following conditions are met: -- --* Redistributions of source code must retain the above copyright notice, this -- list of conditions and the following disclaimer. -- --* Redistributions in binary form must reproduce the above copyright notice, -- this list of conditions and the following disclaimer in the documentation -- and/or other materials provided with the distribution. -- --THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" --AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE --IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE --DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE --FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL --DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR --SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER --CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, --OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE --OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -------------------------------------------------------------------------------- --! @file counter.vhd --! @brief A Simple counter it increments its value by G_INC_VALUE --! @author Benjamin Bässler --! @email ccl@xunit.de --! @date 2013-07-08 -------------------------------------------------------------------------------- --! Use standard library library ieee; --! Use numeric std use IEEE.numeric_std.all; use IEEE.std_logic_1164.all; use work.types.all; --! @brief Counter increments the cnt_out when clk_in rises and inc_in is high entity counter is generic( --! Defines the Size of the Counter G_CNT_LENGTH : NATURAL := T_LABEL'LENGTH; --! Defines the value to increment G_INC_VALUE : NATURAL := 1; --! Defines a offset between the internal and the output value G_OFFSET : UNSIGNED(63 downto 0) := x"0000000000000001" ); port( --! Clock input clk_in : in STD_LOGIC; --! Reset input rst_in : in STD_LOGIC; --! If high the counter will be incremented inc_in : in STD_LOGIC; --! Outputs the currenct counter value cnt_out : out UNSIGNED (G_CNT_LENGTH - 1 downto 0) ); end entity counter; --! @brief Simple Counter --! @details Counts architecture counter_arc of counter is -- Counter value signal cnt_s : UNSIGNED(G_CNT_LENGTH - 1 downto 0); begin cnt_out <= resize(cnt_s + G_OFFSET, G_CNT_LENGTH) when inc_in='0' else resize(cnt_s + G_OFFSET + G_INC_VALUE, G_CNT_LENGTH); p_cnt_inc : process(rst_in, clk_in, inc_in) begin if rst_in = '1' then cnt_s <= (others => '0'); elsif rst_in = '0' and rising_edge(clk_in) and inc_in = '1' then cnt_s <= cnt_s + G_INC_VALUE; end if; end process p_cnt_inc; end counter_arc;
--======================================================================================================================== -- Copyright (c) 2017 by Bitvis AS. All rights reserved. -- You should have received a copy of the license file containing the MIT License (see LICENSE.TXT), if not, -- contact Bitvis AS <support@bitvis.no>. -- -- UVVM AND ANY PART THEREOF ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE -- WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS -- OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR -- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH UVVM OR THE USE OR OTHER DEALINGS IN UVVM. --======================================================================================================================== ------------------------------------------------------------------------------------------ -- Description : See library quick reference (under 'doc') and README-file(s) ------------------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.math_real.all; library uvvm_util; context uvvm_util.uvvm_util_context; package ti_vvc_framework_support_pkg is constant C_VVC_NAME_MAX_LENGTH : natural := 20; ------------------------------------------------------------------------ -- Common support types for UVVM ------------------------------------------------------------------------ type t_immediate_or_queued is (NO_command_type, IMMEDIATE, QUEUED); type t_flag_record is record set : std_logic; reset : std_logic; is_active : std_logic; end record; type t_uvvm_state is (IDLE, PHASE_A, PHASE_B, INIT_COMPLETED); type t_lastness is (LAST, NOT_LAST); type t_broadcastable_cmd is (NO_CMD, ENABLE_LOG_MSG, DISABLE_LOG_MSG, FLUSH_COMMAND_QUEUE, INSERT_DELAY, AWAIT_COMPLETION, TERMINATE_CURRENT_COMMAND); constant C_BROADCAST_CMD_STRING_MAX_LENGTH : natural := 300; type t_vvc_broadcast_cmd_record is record operation : t_broadcastable_cmd; msg_id : t_msg_id; msg : string(1 to C_BROADCAST_CMD_STRING_MAX_LENGTH); proc_call : string(1 to C_BROADCAST_CMD_STRING_MAX_LENGTH); quietness : t_quietness; delay : time; timeout : time; gen_integer : integer; end record; constant C_VVC_BROADCAST_CMD_DEFAULT : t_vvc_broadcast_cmd_record := ( operation => NO_CMD, msg_id => NO_ID, msg => (others => NUL), proc_call => (others => NUL), quietness => NON_QUIET, delay => 0 ns, timeout => 0 ns, gen_integer => -1 ); ------------------------------------------------------------------------ -- Common signals for acknowledging a pending command ------------------------------------------------------------------------ shared variable shared_vvc_broadcast_cmd : t_vvc_broadcast_cmd_record := C_VVC_BROADCAST_CMD_DEFAULT; signal VVC_BROADCAST : std_logic := 'L'; ------------------------------------------------------------------------ -- Common signal for signalling between VVCs, used during await_any_completion() -- Default (when not active): Z -- Awaiting: 1: -- Completed: 0 -- This signal is a vector to support multiple sequencers calling await_any_completion simultaneously: -- - When calling await_any_completion, each sequencer specifies which bit in this global signal the VVCs shall use. ------------------------------------------------------------------------ signal global_awaiting_completion : std_logic_vector(C_MAX_NUM_SEQUENCERS-1 downto 0); -- ACK on global triggers ------------------------------------------------------------------------ -- Shared variables for UVVM framework ------------------------------------------------------------------------ shared variable shared_cmd_idx : integer := 0; shared variable shared_uvvm_state : t_uvvm_state := IDLE; ------------------------------------------- -- flag_handler ------------------------------------------- -- Flag handler is a general flag/semaphore handling mechanism between two separate processes/threads -- The idea is to allow one process to set a flag and another to reset it. The flag may then be used by both - or others -- May be used for a message from process 1 to process 2 with acknowledge; - like do-something & done, or valid & ack procedure flag_handler( signal flag : inout t_flag_record ); ------------------------------------------- -- set_flag ------------------------------------------- -- Sets reset and is_active to 'Z' and pulses set_flag procedure set_flag( signal flag : inout t_flag_record ); ------------------------------------------- -- reset_flag ------------------------------------------- -- Sets set and is_active to 'Z' and pulses reset_flag procedure reset_flag( signal flag : inout t_flag_record ); ------------------------------------------- -- await_uvvm_initialization ------------------------------------------- -- Waits until uvvm has been initialized procedure await_uvvm_initialization( constant dummy : in t_void ); ------------------------------------------- -- format_command_idx ------------------------------------------- -- Converts the command index to string, enclused by -- C_CMD_IDX_PREFIX and C_CMD_IDX_SUFFIX impure function format_command_idx( command_idx : integer ) return string; --*********************************************** -- BROADCAST COMMANDS --*********************************************** ------------------------------------------- -- enable_log_msg (Broadcast) ------------------------------------------- -- Enables a log message for all VVCs procedure enable_log_msg( signal VVC_BROADCAST : inout std_logic; constant msg_id : in t_msg_id; constant msg : in string := ""; constant quietness : in t_quietness := NON_QUIET ); ------------------------------------------- -- disable_log_msg (Broadcast) ------------------------------------------- -- Disables a log message for all VVCs procedure disable_log_msg( signal VVC_BROADCAST : inout std_logic; constant msg_id : in t_msg_id; constant msg : in string := ""; constant quietness : in t_quietness := NON_QUIET ); ------------------------------------------- -- flush_command_queue (Broadcast) ------------------------------------------- -- Flushes the command queue for all VVCs procedure flush_command_queue( signal VVC_BROADCAST : inout std_logic; constant msg : in string := "" ); ------------------------------------------- -- insert_delay (Broadcast) ------------------------------------------- -- Inserts delay into all VVCs (specified as number of clock cycles) procedure insert_delay( signal VVC_BROADCAST : inout std_logic; constant delay : in natural; -- in clock cycles constant msg : in string := "" ); ------------------------------------------- -- insert_delay (Broadcast) ------------------------------------------- -- Inserts delay into all VVCs (specified as time) procedure insert_delay( signal VVC_BROADCAST : inout std_logic; constant delay : in time; constant msg : in string := "" ); ------------------------------------------- -- await_completion (Broadcast) ------------------------------------------- -- Wait for all VVCs to finish (specified as time) procedure await_completion( signal VVC_BROADCAST : inout std_logic; constant timeout : in time; constant msg : in string := "" ); ------------------------------------------- -- terminate_current_command (Broadcast) ------------------------------------------- -- terminates all current tasks procedure terminate_current_command( signal VVC_BROADCAST : inout std_logic; constant msg : in string := "" ); ------------------------------------------- -- terminate_all_commands (Broadcast) ------------------------------------------- -- terminates all tasks procedure terminate_all_commands( signal VVC_BROADCAST : inout std_logic; constant msg : in string := "" ); ------------------------------------------- -- transmit_broadcast ------------------------------------------- -- Common broadcast transmission routine procedure transmit_broadcast( signal VVC_BROADCAST : inout std_logic; constant operation : in t_broadcastable_cmd; constant proc_call : in string; constant msg_id : in t_msg_id; constant msg : in string := ""; constant quietness : in t_quietness := NON_QUIET; constant delay : in time := 0 ns; constant delay_int : in integer := -1; constant timeout : in time := std.env.resolution_limit ); ------------------------------------------- -- get_scope_for_log ------------------------------------------- -- Returns a string with length <= C_LOG_SCOPE_WIDTH. -- Inputs vvc_name and channel are truncated to match C_LOG_SCOPE_WIDTH if to long. -- An alert is issued if C_MINIMUM_VVC_NAME_SCOPE_WIDTH and C_MINIMUM_CHANNEL_SCOPE_WIDTH -- are to long relative to C_LOG_SCOPE_WIDTH. impure function get_scope_for_log( constant vvc_name : string; constant instance_idx : natural; constant channel : t_channel ) return string; ------------------------------------------- -- get_scope_for_log ------------------------------------------- -- Returns a string with length <= C_LOG_SCOPE_WIDTH. -- Input vvc_name is truncated to match C_LOG_SCOPE_WIDTH if to long. -- An alert is issued if C_MINIMUM_VVC_NAME_SCOPE_WIDTH -- is to long relative to C_LOG_SCOPE_WIDTH. impure function get_scope_for_log( constant vvc_name : string; constant instance_idx : natural ) return string; end package ti_vvc_framework_support_pkg; package body ti_vvc_framework_support_pkg is ------------------------------------------------------------------------ -- ------------------------------------------------------------------------ -- Flag handler is a general flag/semaphore handling mechanism between two separate processes/threads -- The idea is to allow one process to set a flag and another to reset it. The flag may then be used by both - or others -- May be used for a message from process 1 to process 2 with acknowledge; - like do-something & done, or valid & ack procedure flag_handler( signal flag : inout t_flag_record ) is begin flag.reset <= 'Z'; flag.set <= 'Z'; flag.is_active <= '0'; wait until flag.set = '1'; flag.is_active <= '1'; wait until flag.reset = '1'; flag.is_active <= '0'; end procedure; procedure set_flag( signal flag : inout t_flag_record ) is begin flag.reset <= 'Z'; flag.is_active <= 'Z'; gen_pulse(flag.set, 0 ns, "set flag"); end procedure; procedure reset_flag( signal flag : inout t_flag_record ) is begin flag.set <= 'Z'; flag.is_active <= 'Z'; gen_pulse(flag.reset, 0 ns, "reset flag", C_TB_SCOPE_DEFAULT, ID_NEVER); end procedure; -- This procedure checks the shared_uvvm_state on each delta cycle procedure await_uvvm_initialization( constant dummy : in t_void) is begin while (shared_uvvm_state /= INIT_COMPLETED) loop wait for 0 ns; end loop; end procedure; impure function format_command_idx( command_idx : integer ) return string is begin return C_CMD_IDX_PREFIX & to_string(command_idx) & C_CMD_IDX_SUFFIX; end; procedure enable_log_msg( signal VVC_BROADCAST : inout std_logic; constant msg_id : in t_msg_id; constant msg : in string := ""; constant quietness : in t_quietness := NON_QUIET ) is constant proc_name : string := "enable_log_msg"; constant proc_call : string := proc_name & "(VVC_BROADCAST, " & to_upper(to_string(msg_id)) & ")"; begin transmit_broadcast(VVC_BROADCAST, ENABLE_LOG_MSG, proc_call, msg_id, msg, quietness); end procedure; procedure disable_log_msg( signal VVC_BROADCAST : inout std_logic; constant msg_id : in t_msg_id; constant msg : in string := ""; constant quietness : in t_quietness := NON_QUIET ) is constant proc_name : string := "disable_log_msg"; constant proc_call : string := proc_name & "(VVC_BROADCAST, " & to_upper(to_string(msg_id)) & ")"; begin transmit_broadcast(VVC_BROADCAST, DISABLE_LOG_MSG, proc_call, msg_id, msg, quietness); end procedure; procedure flush_command_queue( signal VVC_BROADCAST : inout std_logic; constant msg : in string := "" ) is constant proc_name : string := "flush_command_queue"; constant proc_call : string := proc_name & "(VVC_BROADCAST)"; begin transmit_broadcast(VVC_BROADCAST, FLUSH_COMMAND_QUEUE, proc_call, NO_ID, msg); end procedure; procedure insert_delay( signal VVC_BROADCAST : inout std_logic; constant delay : in natural; -- in clock cycles constant msg : in string := "" ) is constant proc_name : string := "insert_delay"; constant proc_call : string := proc_name & "(VVC_BROADCAST, " & to_string(delay) & ")"; begin transmit_broadcast(VVC_BROADCAST, FLUSH_COMMAND_QUEUE, proc_call, NO_ID, msg, NON_QUIET, 0 ns, delay); end procedure; procedure insert_delay( signal VVC_BROADCAST : inout std_logic; constant delay : in time; constant msg : in string := "" ) is constant proc_name : string := "insert_delay"; constant proc_call : string := proc_name & "(VVC_BROADCAST, " & to_string(delay) & ")"; begin transmit_broadcast(VVC_BROADCAST, INSERT_DELAY, proc_call, NO_ID, msg, NON_QUIET, delay); end procedure; procedure await_completion( signal VVC_BROADCAST : inout std_logic; constant timeout : in time; constant msg : in string := "" ) is constant proc_name : string := "await_completion"; constant proc_call : string := proc_name & "(VVC_BROADCAST)"; begin transmit_broadcast(VVC_BROADCAST, AWAIT_COMPLETION, proc_call, NO_ID, msg, NON_QUIET, 0 ns, -1, timeout); end procedure; procedure terminate_current_command( signal VVC_BROADCAST : inout std_logic; constant msg : in string := "" ) is constant proc_name : string := "terminate_current_command"; constant proc_call : string := proc_name & "(VVC_BROADCAST)"; begin transmit_broadcast(VVC_BROADCAST, TERMINATE_CURRENT_COMMAND, proc_call, NO_ID, msg); end procedure; procedure terminate_all_commands( signal VVC_BROADCAST : inout std_logic; constant msg : in string := "" ) is constant proc_name : string := "terminate_all_commands"; constant proc_call : string := proc_name & "(VVC_BROADCAST)"; begin flush_command_queue(VVC_BROADCAST, msg); terminate_current_command(VVC_BROADCAST, msg); end procedure; procedure transmit_broadcast( signal VVC_BROADCAST : inout std_logic; constant operation : in t_broadcastable_cmd; constant proc_call : in string; constant msg_id : in t_msg_id; constant msg : in string := ""; constant quietness : in t_quietness := NON_QUIET; constant delay : in time := 0 ns; constant delay_int : in integer := -1; constant timeout : in time := std.env.resolution_limit) is begin await_semaphore_in_delta_cycles(protected_semaphore); shared_vvc_broadcast_cmd.operation := operation; shared_vvc_broadcast_cmd.msg_id := msg_id; shared_vvc_broadcast_cmd.msg := (others => NUL); -- default empty shared_vvc_broadcast_cmd.msg(1 to msg'length) := msg; shared_vvc_broadcast_cmd.quietness := quietness; shared_vvc_broadcast_cmd.timeout := timeout; shared_vvc_broadcast_cmd.delay := delay; shared_vvc_broadcast_cmd.gen_integer := delay_int; shared_vvc_broadcast_cmd.proc_call := (others => NUL); -- default empty shared_vvc_broadcast_cmd.proc_call(1 to proc_call'length) := proc_call; if VVC_BROADCAST /= 'L' then -- a VVC is waiting for example in await_completion wait until VVC_BROADCAST = 'L'; end if; -- Trigger the broadcast VVC_BROADCAST <= '1'; wait for 0 ns; -- set back to 'L' and wait until all VVCs have set it back VVC_BROADCAST <= 'L'; wait until VVC_BROADCAST = 'L' for timeout; -- Wait for executor if not (VVC_BROADCAST'event) and VVC_BROADCAST /= 'L' then -- Indicates timeout tb_error("Timeout while waiting for the broadcast command to be ACK'ed", C_SCOPE); else log(ID_UVVM_CMD_ACK, "ACK received for broadcast command", C_SCOPE); end if; shared_vvc_broadcast_cmd := C_VVC_BROADCAST_CMD_DEFAULT; wait for 0 ns; wait for 0 ns; wait for 0 ns; wait for 0 ns; wait for 0 ns; release_semaphore(protected_semaphore); end procedure; impure function get_scope_for_log( constant vvc_name : string; constant instance_idx : natural; constant channel : t_channel ) return string is constant C_INSTANCE_IDX_STR : string := to_string(instance_idx); constant C_CHANNEL_STR : string := to_upper(to_string(channel)); constant C_SCOPE_LENGTH : natural := vvc_name'length + C_INSTANCE_IDX_STR'length + C_CHANNEL_STR'length + 2; -- +2 because of the two added commas variable v_vvc_name_truncation_value : integer; variable v_channel_truncation_value : integer; variable v_vvc_name_truncation_idx : integer; variable v_channel_truncation_idx : integer; begin if (C_MINIMUM_VVC_NAME_SCOPE_WIDTH + C_MINIMUM_CHANNEL_SCOPE_WIDTH + C_INSTANCE_IDX_STR'length + 2) > C_LOG_SCOPE_WIDTH then -- +2 because of the two added commas alert(TB_WARNING, "The combined width of C_MINIMUM_VVC_NAME_SCOPE_WIDTH and C_MINIMUM_CHANNEL_SCOPE_WIDTH cannot be greather than C_LOG_SCOPE_WIDTH - (number of characters in instance) - 2.", C_SCOPE); end if; -- If C_SCOPE_LENGTH is not greater than allowed width, return scope if C_SCOPE_LENGTH <= C_LOG_SCOPE_WIDTH then return vvc_name & "," & C_INSTANCE_IDX_STR & "," & C_CHANNEL_STR; -- If C_SCOPE_LENGTH is greater than allowed width -- Check if vvc_name is greater than minimum width to truncate elsif vvc_name'length <= C_MINIMUM_VVC_NAME_SCOPE_WIDTH then return vvc_name & "," & C_INSTANCE_IDX_STR & "," & C_CHANNEL_STR(1 to (C_CHANNEL_STR'length - (C_SCOPE_LENGTH-C_LOG_SCOPE_WIDTH))); -- Check if channel is greater than minimum width to truncate elsif C_CHANNEL_STR'length <= C_MINIMUM_CHANNEL_SCOPE_WIDTH then return vvc_name(1 to (vvc_name'length - (C_SCOPE_LENGTH-C_LOG_SCOPE_WIDTH))) & "," & C_INSTANCE_IDX_STR & "," & C_CHANNEL_STR; -- If both vvc_name and channel is to be truncated else -- Calculate linear scaling of truncation between vvc_name and channel: (a*x)/(a+b), (b*x)/(a+b) v_vvc_name_truncation_idx := integer(round(real(vvc_name'length * (C_SCOPE_LENGTH-C_LOG_SCOPE_WIDTH)))/real(vvc_name'length + C_CHANNEL_STR'length)); v_channel_truncation_value := integer(round(real(C_CHANNEL_STR'length * (C_SCOPE_LENGTH-C_LOG_SCOPE_WIDTH)))/real(vvc_name'length + C_CHANNEL_STR'length)); -- In case division ended with .5 and both rounded up if (v_vvc_name_truncation_idx + v_channel_truncation_value) > (C_SCOPE_LENGTH-C_LOG_SCOPE_WIDTH) then v_channel_truncation_value := v_channel_truncation_value - 1; end if; -- Character index to truncate v_vvc_name_truncation_idx := vvc_name'length - v_vvc_name_truncation_idx; v_channel_truncation_idx := C_CHANNEL_STR'length - v_channel_truncation_value; -- If bellow minimum name width while v_vvc_name_truncation_idx < C_MINIMUM_VVC_NAME_SCOPE_WIDTH loop v_vvc_name_truncation_idx := v_vvc_name_truncation_idx + 1; v_channel_truncation_idx := v_channel_truncation_idx - 1; end loop; -- If bellow minimum channel width while v_channel_truncation_idx < C_MINIMUM_CHANNEL_SCOPE_WIDTH loop v_channel_truncation_idx := v_channel_truncation_idx + 1; v_vvc_name_truncation_idx := v_vvc_name_truncation_idx - 1; end loop; return vvc_name(1 to v_vvc_name_truncation_idx) & "," & C_INSTANCE_IDX_STR & "," & C_CHANNEL_STR(1 to v_channel_truncation_idx); end if; end function; impure function get_scope_for_log( constant vvc_name : string; constant instance_idx : natural ) return string is constant C_INSTANCE_IDX_STR : string := to_string(instance_idx); constant C_SCOPE_LENGTH : integer := vvc_name'length + C_INSTANCE_IDX_STR'length + 1; -- +1 because of the added comma begin if (C_MINIMUM_VVC_NAME_SCOPE_WIDTH + C_INSTANCE_IDX_STR'length + 1) > C_LOG_SCOPE_WIDTH then -- +1 because of the added comma alert(TB_WARNING, "The width of C_MINIMUM_VVC_NAME_SCOPE_WIDTH cannot be greather than C_LOG_SCOPE_WIDTH - (number of characters in instance) - 1.", C_SCOPE); end if; -- If C_SCOPE_LENGTH is not greater than allowed width, return scope if C_SCOPE_LENGTH <= C_LOG_SCOPE_WIDTH then return vvc_name & "," & C_INSTANCE_IDX_STR; -- If C_SCOPE_LENGTH is greater than allowed width truncate vvc_name else return vvc_name(1 to (vvc_name'length - (C_SCOPE_LENGTH-C_LOG_SCOPE_WIDTH))) & "," & C_INSTANCE_IDX_STR; end if; end function; end package body ti_vvc_framework_support_pkg;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; library work; use work.pkg_6502_defs.all; use work.pkg_6502_decode.all; use work.pkg_6502_opcodes.all; entity tb_proc_control is end tb_proc_control; architecture tb of tb_proc_control is signal clock : std_logic := '0'; signal clock_en : std_logic; signal reset : std_logic; signal inst : std_logic_vector(7 downto 0); signal force_sync : std_logic; signal index_carry : std_logic := '1'; signal pc_carry : std_logic := '1'; signal branch_taken : boolean := true; signal latch_dreg : std_logic; signal reg_update : std_logic; signal copy_d2p : std_logic; signal dummy_cycle : std_logic; signal sync : std_logic; signal rwn : std_logic; signal a_mux : t_amux; signal pc_oper : t_pc_oper; signal s_oper : t_sp_oper; signal adl_oper : t_adl_oper; signal adh_oper : t_adh_oper; signal dout_mux : t_dout_mux; signal opcode : string(1 to 13); signal s_is_absolute : boolean; signal s_is_abs_jump : boolean; signal s_is_immediate : boolean; signal s_is_implied : boolean; signal s_is_stack : boolean; signal s_is_push : boolean; signal s_is_zeropage : boolean; signal s_is_indirect : boolean; signal s_is_relative : boolean; signal s_is_load : boolean; signal s_is_store : boolean; signal s_is_rmw : boolean; signal s_is_jump : boolean; signal s_is_postindexed : boolean; signal s_store_a_from_alu : boolean; signal s_load_x : boolean; signal s_load_y : boolean; signal i_reg : std_logic_vector(7 downto 0); signal adh, adl : std_logic_vector(7 downto 0) := X"00"; signal pch, pcl : std_logic_vector(7 downto 0) := X"11"; signal addr : std_logic_vector(15 downto 0); signal sp : std_logic_vector(7 downto 0) := X"FF"; signal dreg : std_logic_vector(7 downto 0) := X"FF"; signal databus : std_logic_vector(7 downto 0); signal dout : std_logic_vector(7 downto 0); begin s_is_absolute <= is_absolute(i_reg); s_is_abs_jump <= is_abs_jump(i_reg); s_is_immediate <= is_immediate(i_reg); s_is_implied <= is_implied(i_reg); s_is_stack <= is_stack(i_reg); s_is_push <= is_push(i_reg); s_is_zeropage <= is_zeropage(i_reg); s_is_indirect <= is_indirect(i_reg); s_is_relative <= is_relative(i_reg); s_is_load <= is_load(i_reg); s_is_store <= is_store(i_reg); s_is_rmw <= is_rmw(i_reg); s_is_jump <= is_jump(i_reg); s_is_postindexed <= is_postindexed(i_reg); s_store_a_from_alu <= store_a_from_alu(i_reg); s_load_x <= load_x(i_reg); s_load_y <= load_y(i_reg); mut: entity work.proc_control port map ( clock => clock, clock_en => clock_en, reset => reset, interrupt => '0', i_reg => i_reg, index_carry => index_carry, pc_carry => pc_carry, branch_taken => branch_taken, sync => sync, dummy_cycle => dummy_cycle, latch_dreg => latch_dreg, reg_update => reg_update, copy_d2p => copy_d2p, rwn => rwn, a_mux => a_mux, dout_mux => dout_mux, pc_oper => pc_oper, s_oper => s_oper, adl_oper => adl_oper, adh_oper => adh_oper ); clock <= not clock after 50 ns; clock_en <= '1'; reset <= '1', '0' after 500 ns; test: process begin inst <= X"00"; force_sync <= '0'; wait until reset='0'; for i in 0 to 255 loop inst <= conv_std_logic_vector(i, 8); wait until sync='1' for 2 us; if sync='0' then wait until clock='1'; force_sync <= '1'; wait until clock='1'; force_sync <= '0'; else wait until sync='0'; end if; end loop; wait; end process; opcode <= opcode_array(conv_integer(i_reg)); process(clock) begin if rising_edge(clock) and clock_en='1' then if latch_dreg='1' then dreg <= databus; end if; if sync='1' or force_sync='1' then i_reg <= databus; end if; case pc_oper is when increment => if pcl = X"FF" then pch <= pch + 1; end if; pcl <= pcl + 1; when copy => pcl <= dreg; pch <= databus; when from_alu => pcl <= pcl + 40; when others => null; end case; case adl_oper is when increment => adl <= adl + 1; when add_idx => adl <= adl + 5; when load_bus => adl <= databus; when copy_dreg => adl <= dreg; when others => null; end case; case adh_oper is when increment => adh <= adh + 1; when clear => adh <= (others => '0'); when load_bus => adh <= databus; when others => null; end case; case s_oper is when increment => sp <= sp + 1; when decrement => sp <= sp - 1; when others => null; end case; end if; end process; with a_mux select addr <= X"FFFF" when 0, adh & adl when 1, X"01" & sp when 2, pch & pcl when 3; with dout_mux select dout <= dreg when reg_d, X"11" when reg_axy, X"22" when reg_flags, pcl when reg_pcl, pch when reg_pch, X"33" when shift_res, X"FF" when others; databus <= inst when (sync='1' or force_sync='1') else X"D" & addr(3 downto 0); end tb;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; library work; use work.pkg_6502_defs.all; use work.pkg_6502_decode.all; use work.pkg_6502_opcodes.all; entity tb_proc_control is end tb_proc_control; architecture tb of tb_proc_control is signal clock : std_logic := '0'; signal clock_en : std_logic; signal reset : std_logic; signal inst : std_logic_vector(7 downto 0); signal force_sync : std_logic; signal index_carry : std_logic := '1'; signal pc_carry : std_logic := '1'; signal branch_taken : boolean := true; signal latch_dreg : std_logic; signal reg_update : std_logic; signal copy_d2p : std_logic; signal dummy_cycle : std_logic; signal sync : std_logic; signal rwn : std_logic; signal a_mux : t_amux; signal pc_oper : t_pc_oper; signal s_oper : t_sp_oper; signal adl_oper : t_adl_oper; signal adh_oper : t_adh_oper; signal dout_mux : t_dout_mux; signal opcode : string(1 to 13); signal s_is_absolute : boolean; signal s_is_abs_jump : boolean; signal s_is_immediate : boolean; signal s_is_implied : boolean; signal s_is_stack : boolean; signal s_is_push : boolean; signal s_is_zeropage : boolean; signal s_is_indirect : boolean; signal s_is_relative : boolean; signal s_is_load : boolean; signal s_is_store : boolean; signal s_is_rmw : boolean; signal s_is_jump : boolean; signal s_is_postindexed : boolean; signal s_store_a_from_alu : boolean; signal s_load_x : boolean; signal s_load_y : boolean; signal i_reg : std_logic_vector(7 downto 0); signal adh, adl : std_logic_vector(7 downto 0) := X"00"; signal pch, pcl : std_logic_vector(7 downto 0) := X"11"; signal addr : std_logic_vector(15 downto 0); signal sp : std_logic_vector(7 downto 0) := X"FF"; signal dreg : std_logic_vector(7 downto 0) := X"FF"; signal databus : std_logic_vector(7 downto 0); signal dout : std_logic_vector(7 downto 0); begin s_is_absolute <= is_absolute(i_reg); s_is_abs_jump <= is_abs_jump(i_reg); s_is_immediate <= is_immediate(i_reg); s_is_implied <= is_implied(i_reg); s_is_stack <= is_stack(i_reg); s_is_push <= is_push(i_reg); s_is_zeropage <= is_zeropage(i_reg); s_is_indirect <= is_indirect(i_reg); s_is_relative <= is_relative(i_reg); s_is_load <= is_load(i_reg); s_is_store <= is_store(i_reg); s_is_rmw <= is_rmw(i_reg); s_is_jump <= is_jump(i_reg); s_is_postindexed <= is_postindexed(i_reg); s_store_a_from_alu <= store_a_from_alu(i_reg); s_load_x <= load_x(i_reg); s_load_y <= load_y(i_reg); mut: entity work.proc_control port map ( clock => clock, clock_en => clock_en, reset => reset, interrupt => '0', i_reg => i_reg, index_carry => index_carry, pc_carry => pc_carry, branch_taken => branch_taken, sync => sync, dummy_cycle => dummy_cycle, latch_dreg => latch_dreg, reg_update => reg_update, copy_d2p => copy_d2p, rwn => rwn, a_mux => a_mux, dout_mux => dout_mux, pc_oper => pc_oper, s_oper => s_oper, adl_oper => adl_oper, adh_oper => adh_oper ); clock <= not clock after 50 ns; clock_en <= '1'; reset <= '1', '0' after 500 ns; test: process begin inst <= X"00"; force_sync <= '0'; wait until reset='0'; for i in 0 to 255 loop inst <= conv_std_logic_vector(i, 8); wait until sync='1' for 2 us; if sync='0' then wait until clock='1'; force_sync <= '1'; wait until clock='1'; force_sync <= '0'; else wait until sync='0'; end if; end loop; wait; end process; opcode <= opcode_array(conv_integer(i_reg)); process(clock) begin if rising_edge(clock) and clock_en='1' then if latch_dreg='1' then dreg <= databus; end if; if sync='1' or force_sync='1' then i_reg <= databus; end if; case pc_oper is when increment => if pcl = X"FF" then pch <= pch + 1; end if; pcl <= pcl + 1; when copy => pcl <= dreg; pch <= databus; when from_alu => pcl <= pcl + 40; when others => null; end case; case adl_oper is when increment => adl <= adl + 1; when add_idx => adl <= adl + 5; when load_bus => adl <= databus; when copy_dreg => adl <= dreg; when others => null; end case; case adh_oper is when increment => adh <= adh + 1; when clear => adh <= (others => '0'); when load_bus => adh <= databus; when others => null; end case; case s_oper is when increment => sp <= sp + 1; when decrement => sp <= sp - 1; when others => null; end case; end if; end process; with a_mux select addr <= X"FFFF" when 0, adh & adl when 1, X"01" & sp when 2, pch & pcl when 3; with dout_mux select dout <= dreg when reg_d, X"11" when reg_axy, X"22" when reg_flags, pcl when reg_pcl, pch when reg_pch, X"33" when shift_res, X"FF" when others; databus <= inst when (sync='1' or force_sync='1') else X"D" & addr(3 downto 0); end tb;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; library work; use work.pkg_6502_defs.all; use work.pkg_6502_decode.all; use work.pkg_6502_opcodes.all; entity tb_proc_control is end tb_proc_control; architecture tb of tb_proc_control is signal clock : std_logic := '0'; signal clock_en : std_logic; signal reset : std_logic; signal inst : std_logic_vector(7 downto 0); signal force_sync : std_logic; signal index_carry : std_logic := '1'; signal pc_carry : std_logic := '1'; signal branch_taken : boolean := true; signal latch_dreg : std_logic; signal reg_update : std_logic; signal copy_d2p : std_logic; signal dummy_cycle : std_logic; signal sync : std_logic; signal rwn : std_logic; signal a_mux : t_amux; signal pc_oper : t_pc_oper; signal s_oper : t_sp_oper; signal adl_oper : t_adl_oper; signal adh_oper : t_adh_oper; signal dout_mux : t_dout_mux; signal opcode : string(1 to 13); signal s_is_absolute : boolean; signal s_is_abs_jump : boolean; signal s_is_immediate : boolean; signal s_is_implied : boolean; signal s_is_stack : boolean; signal s_is_push : boolean; signal s_is_zeropage : boolean; signal s_is_indirect : boolean; signal s_is_relative : boolean; signal s_is_load : boolean; signal s_is_store : boolean; signal s_is_rmw : boolean; signal s_is_jump : boolean; signal s_is_postindexed : boolean; signal s_store_a_from_alu : boolean; signal s_load_x : boolean; signal s_load_y : boolean; signal i_reg : std_logic_vector(7 downto 0); signal adh, adl : std_logic_vector(7 downto 0) := X"00"; signal pch, pcl : std_logic_vector(7 downto 0) := X"11"; signal addr : std_logic_vector(15 downto 0); signal sp : std_logic_vector(7 downto 0) := X"FF"; signal dreg : std_logic_vector(7 downto 0) := X"FF"; signal databus : std_logic_vector(7 downto 0); signal dout : std_logic_vector(7 downto 0); begin s_is_absolute <= is_absolute(i_reg); s_is_abs_jump <= is_abs_jump(i_reg); s_is_immediate <= is_immediate(i_reg); s_is_implied <= is_implied(i_reg); s_is_stack <= is_stack(i_reg); s_is_push <= is_push(i_reg); s_is_zeropage <= is_zeropage(i_reg); s_is_indirect <= is_indirect(i_reg); s_is_relative <= is_relative(i_reg); s_is_load <= is_load(i_reg); s_is_store <= is_store(i_reg); s_is_rmw <= is_rmw(i_reg); s_is_jump <= is_jump(i_reg); s_is_postindexed <= is_postindexed(i_reg); s_store_a_from_alu <= store_a_from_alu(i_reg); s_load_x <= load_x(i_reg); s_load_y <= load_y(i_reg); mut: entity work.proc_control port map ( clock => clock, clock_en => clock_en, reset => reset, interrupt => '0', i_reg => i_reg, index_carry => index_carry, pc_carry => pc_carry, branch_taken => branch_taken, sync => sync, dummy_cycle => dummy_cycle, latch_dreg => latch_dreg, reg_update => reg_update, copy_d2p => copy_d2p, rwn => rwn, a_mux => a_mux, dout_mux => dout_mux, pc_oper => pc_oper, s_oper => s_oper, adl_oper => adl_oper, adh_oper => adh_oper ); clock <= not clock after 50 ns; clock_en <= '1'; reset <= '1', '0' after 500 ns; test: process begin inst <= X"00"; force_sync <= '0'; wait until reset='0'; for i in 0 to 255 loop inst <= conv_std_logic_vector(i, 8); wait until sync='1' for 2 us; if sync='0' then wait until clock='1'; force_sync <= '1'; wait until clock='1'; force_sync <= '0'; else wait until sync='0'; end if; end loop; wait; end process; opcode <= opcode_array(conv_integer(i_reg)); process(clock) begin if rising_edge(clock) and clock_en='1' then if latch_dreg='1' then dreg <= databus; end if; if sync='1' or force_sync='1' then i_reg <= databus; end if; case pc_oper is when increment => if pcl = X"FF" then pch <= pch + 1; end if; pcl <= pcl + 1; when copy => pcl <= dreg; pch <= databus; when from_alu => pcl <= pcl + 40; when others => null; end case; case adl_oper is when increment => adl <= adl + 1; when add_idx => adl <= adl + 5; when load_bus => adl <= databus; when copy_dreg => adl <= dreg; when others => null; end case; case adh_oper is when increment => adh <= adh + 1; when clear => adh <= (others => '0'); when load_bus => adh <= databus; when others => null; end case; case s_oper is when increment => sp <= sp + 1; when decrement => sp <= sp - 1; when others => null; end case; end if; end process; with a_mux select addr <= X"FFFF" when 0, adh & adl when 1, X"01" & sp when 2, pch & pcl when 3; with dout_mux select dout <= dreg when reg_d, X"11" when reg_axy, X"22" when reg_flags, pcl when reg_pcl, pch when reg_pch, X"33" when shift_res, X"FF" when others; databus <= inst when (sync='1' or force_sync='1') else X"D" & addr(3 downto 0); end tb;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; library work; use work.pkg_6502_defs.all; use work.pkg_6502_decode.all; use work.pkg_6502_opcodes.all; entity tb_proc_control is end tb_proc_control; architecture tb of tb_proc_control is signal clock : std_logic := '0'; signal clock_en : std_logic; signal reset : std_logic; signal inst : std_logic_vector(7 downto 0); signal force_sync : std_logic; signal index_carry : std_logic := '1'; signal pc_carry : std_logic := '1'; signal branch_taken : boolean := true; signal latch_dreg : std_logic; signal reg_update : std_logic; signal copy_d2p : std_logic; signal dummy_cycle : std_logic; signal sync : std_logic; signal rwn : std_logic; signal a_mux : t_amux; signal pc_oper : t_pc_oper; signal s_oper : t_sp_oper; signal adl_oper : t_adl_oper; signal adh_oper : t_adh_oper; signal dout_mux : t_dout_mux; signal opcode : string(1 to 13); signal s_is_absolute : boolean; signal s_is_abs_jump : boolean; signal s_is_immediate : boolean; signal s_is_implied : boolean; signal s_is_stack : boolean; signal s_is_push : boolean; signal s_is_zeropage : boolean; signal s_is_indirect : boolean; signal s_is_relative : boolean; signal s_is_load : boolean; signal s_is_store : boolean; signal s_is_rmw : boolean; signal s_is_jump : boolean; signal s_is_postindexed : boolean; signal s_store_a_from_alu : boolean; signal s_load_x : boolean; signal s_load_y : boolean; signal i_reg : std_logic_vector(7 downto 0); signal adh, adl : std_logic_vector(7 downto 0) := X"00"; signal pch, pcl : std_logic_vector(7 downto 0) := X"11"; signal addr : std_logic_vector(15 downto 0); signal sp : std_logic_vector(7 downto 0) := X"FF"; signal dreg : std_logic_vector(7 downto 0) := X"FF"; signal databus : std_logic_vector(7 downto 0); signal dout : std_logic_vector(7 downto 0); begin s_is_absolute <= is_absolute(i_reg); s_is_abs_jump <= is_abs_jump(i_reg); s_is_immediate <= is_immediate(i_reg); s_is_implied <= is_implied(i_reg); s_is_stack <= is_stack(i_reg); s_is_push <= is_push(i_reg); s_is_zeropage <= is_zeropage(i_reg); s_is_indirect <= is_indirect(i_reg); s_is_relative <= is_relative(i_reg); s_is_load <= is_load(i_reg); s_is_store <= is_store(i_reg); s_is_rmw <= is_rmw(i_reg); s_is_jump <= is_jump(i_reg); s_is_postindexed <= is_postindexed(i_reg); s_store_a_from_alu <= store_a_from_alu(i_reg); s_load_x <= load_x(i_reg); s_load_y <= load_y(i_reg); mut: entity work.proc_control port map ( clock => clock, clock_en => clock_en, reset => reset, interrupt => '0', i_reg => i_reg, index_carry => index_carry, pc_carry => pc_carry, branch_taken => branch_taken, sync => sync, dummy_cycle => dummy_cycle, latch_dreg => latch_dreg, reg_update => reg_update, copy_d2p => copy_d2p, rwn => rwn, a_mux => a_mux, dout_mux => dout_mux, pc_oper => pc_oper, s_oper => s_oper, adl_oper => adl_oper, adh_oper => adh_oper ); clock <= not clock after 50 ns; clock_en <= '1'; reset <= '1', '0' after 500 ns; test: process begin inst <= X"00"; force_sync <= '0'; wait until reset='0'; for i in 0 to 255 loop inst <= conv_std_logic_vector(i, 8); wait until sync='1' for 2 us; if sync='0' then wait until clock='1'; force_sync <= '1'; wait until clock='1'; force_sync <= '0'; else wait until sync='0'; end if; end loop; wait; end process; opcode <= opcode_array(conv_integer(i_reg)); process(clock) begin if rising_edge(clock) and clock_en='1' then if latch_dreg='1' then dreg <= databus; end if; if sync='1' or force_sync='1' then i_reg <= databus; end if; case pc_oper is when increment => if pcl = X"FF" then pch <= pch + 1; end if; pcl <= pcl + 1; when copy => pcl <= dreg; pch <= databus; when from_alu => pcl <= pcl + 40; when others => null; end case; case adl_oper is when increment => adl <= adl + 1; when add_idx => adl <= adl + 5; when load_bus => adl <= databus; when copy_dreg => adl <= dreg; when others => null; end case; case adh_oper is when increment => adh <= adh + 1; when clear => adh <= (others => '0'); when load_bus => adh <= databus; when others => null; end case; case s_oper is when increment => sp <= sp + 1; when decrement => sp <= sp - 1; when others => null; end case; end if; end process; with a_mux select addr <= X"FFFF" when 0, adh & adl when 1, X"01" & sp when 2, pch & pcl when 3; with dout_mux select dout <= dreg when reg_d, X"11" when reg_axy, X"22" when reg_flags, pcl when reg_pcl, pch when reg_pch, X"33" when shift_res, X"FF" when others; databus <= inst when (sync='1' or force_sync='1') else X"D" & addr(3 downto 0); end tb;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; library work; use work.pkg_6502_defs.all; use work.pkg_6502_decode.all; use work.pkg_6502_opcodes.all; entity tb_proc_control is end tb_proc_control; architecture tb of tb_proc_control is signal clock : std_logic := '0'; signal clock_en : std_logic; signal reset : std_logic; signal inst : std_logic_vector(7 downto 0); signal force_sync : std_logic; signal index_carry : std_logic := '1'; signal pc_carry : std_logic := '1'; signal branch_taken : boolean := true; signal latch_dreg : std_logic; signal reg_update : std_logic; signal copy_d2p : std_logic; signal dummy_cycle : std_logic; signal sync : std_logic; signal rwn : std_logic; signal a_mux : t_amux; signal pc_oper : t_pc_oper; signal s_oper : t_sp_oper; signal adl_oper : t_adl_oper; signal adh_oper : t_adh_oper; signal dout_mux : t_dout_mux; signal opcode : string(1 to 13); signal s_is_absolute : boolean; signal s_is_abs_jump : boolean; signal s_is_immediate : boolean; signal s_is_implied : boolean; signal s_is_stack : boolean; signal s_is_push : boolean; signal s_is_zeropage : boolean; signal s_is_indirect : boolean; signal s_is_relative : boolean; signal s_is_load : boolean; signal s_is_store : boolean; signal s_is_rmw : boolean; signal s_is_jump : boolean; signal s_is_postindexed : boolean; signal s_store_a_from_alu : boolean; signal s_load_x : boolean; signal s_load_y : boolean; signal i_reg : std_logic_vector(7 downto 0); signal adh, adl : std_logic_vector(7 downto 0) := X"00"; signal pch, pcl : std_logic_vector(7 downto 0) := X"11"; signal addr : std_logic_vector(15 downto 0); signal sp : std_logic_vector(7 downto 0) := X"FF"; signal dreg : std_logic_vector(7 downto 0) := X"FF"; signal databus : std_logic_vector(7 downto 0); signal dout : std_logic_vector(7 downto 0); begin s_is_absolute <= is_absolute(i_reg); s_is_abs_jump <= is_abs_jump(i_reg); s_is_immediate <= is_immediate(i_reg); s_is_implied <= is_implied(i_reg); s_is_stack <= is_stack(i_reg); s_is_push <= is_push(i_reg); s_is_zeropage <= is_zeropage(i_reg); s_is_indirect <= is_indirect(i_reg); s_is_relative <= is_relative(i_reg); s_is_load <= is_load(i_reg); s_is_store <= is_store(i_reg); s_is_rmw <= is_rmw(i_reg); s_is_jump <= is_jump(i_reg); s_is_postindexed <= is_postindexed(i_reg); s_store_a_from_alu <= store_a_from_alu(i_reg); s_load_x <= load_x(i_reg); s_load_y <= load_y(i_reg); mut: entity work.proc_control port map ( clock => clock, clock_en => clock_en, reset => reset, interrupt => '0', i_reg => i_reg, index_carry => index_carry, pc_carry => pc_carry, branch_taken => branch_taken, sync => sync, dummy_cycle => dummy_cycle, latch_dreg => latch_dreg, reg_update => reg_update, copy_d2p => copy_d2p, rwn => rwn, a_mux => a_mux, dout_mux => dout_mux, pc_oper => pc_oper, s_oper => s_oper, adl_oper => adl_oper, adh_oper => adh_oper ); clock <= not clock after 50 ns; clock_en <= '1'; reset <= '1', '0' after 500 ns; test: process begin inst <= X"00"; force_sync <= '0'; wait until reset='0'; for i in 0 to 255 loop inst <= conv_std_logic_vector(i, 8); wait until sync='1' for 2 us; if sync='0' then wait until clock='1'; force_sync <= '1'; wait until clock='1'; force_sync <= '0'; else wait until sync='0'; end if; end loop; wait; end process; opcode <= opcode_array(conv_integer(i_reg)); process(clock) begin if rising_edge(clock) and clock_en='1' then if latch_dreg='1' then dreg <= databus; end if; if sync='1' or force_sync='1' then i_reg <= databus; end if; case pc_oper is when increment => if pcl = X"FF" then pch <= pch + 1; end if; pcl <= pcl + 1; when copy => pcl <= dreg; pch <= databus; when from_alu => pcl <= pcl + 40; when others => null; end case; case adl_oper is when increment => adl <= adl + 1; when add_idx => adl <= adl + 5; when load_bus => adl <= databus; when copy_dreg => adl <= dreg; when others => null; end case; case adh_oper is when increment => adh <= adh + 1; when clear => adh <= (others => '0'); when load_bus => adh <= databus; when others => null; end case; case s_oper is when increment => sp <= sp + 1; when decrement => sp <= sp - 1; when others => null; end case; end if; end process; with a_mux select addr <= X"FFFF" when 0, adh & adl when 1, X"01" & sp when 2, pch & pcl when 3; with dout_mux select dout <= dreg when reg_d, X"11" when reg_axy, X"22" when reg_flags, pcl when reg_pcl, pch when reg_pch, X"33" when shift_res, X"FF" when others; databus <= inst when (sync='1' or force_sync='1') else X"D" & addr(3 downto 0); end tb;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc566.vhd,v 1.3 2001-10-29 02:12:45 paw Exp $ -- $Revision: 1.3 $ -- -- --------------------------------------------------------------------- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Tue Nov 5 16:37:33 1996 -- -- **************************** -- -- **************************** -- -- Reversed to VHDL 87 by reverse87.pl - Tue Nov 5 11:25:30 1996 -- -- **************************** -- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Mon Nov 4 17:36:05 1996 -- -- **************************** -- ENTITY c03s04b01x00p01n01i00566ent IS END c03s04b01x00p01n01i00566ent; ARCHITECTURE c03s04b01x00p01n01i00566arch OF c03s04b01x00p01n01i00566ent IS type integer_file is file of integer; BEGIN TESTING: PROCESS file filein : integer_file open write_mode is "iofile.18"; BEGIN for i in 1 to 100 loop write(filein,3); end loop; assert FALSE report "***PASSED TEST: c03s04b01x00p01n01i00566 - The output file will be verified by test s010210.vhd." severity NOTE; wait; END PROCESS TESTING; END c03s04b01x00p01n01i00566arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc566.vhd,v 1.3 2001-10-29 02:12:45 paw Exp $ -- $Revision: 1.3 $ -- -- --------------------------------------------------------------------- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Tue Nov 5 16:37:33 1996 -- -- **************************** -- -- **************************** -- -- Reversed to VHDL 87 by reverse87.pl - Tue Nov 5 11:25:30 1996 -- -- **************************** -- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Mon Nov 4 17:36:05 1996 -- -- **************************** -- ENTITY c03s04b01x00p01n01i00566ent IS END c03s04b01x00p01n01i00566ent; ARCHITECTURE c03s04b01x00p01n01i00566arch OF c03s04b01x00p01n01i00566ent IS type integer_file is file of integer; BEGIN TESTING: PROCESS file filein : integer_file open write_mode is "iofile.18"; BEGIN for i in 1 to 100 loop write(filein,3); end loop; assert FALSE report "***PASSED TEST: c03s04b01x00p01n01i00566 - The output file will be verified by test s010210.vhd." severity NOTE; wait; END PROCESS TESTING; END c03s04b01x00p01n01i00566arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc566.vhd,v 1.3 2001-10-29 02:12:45 paw Exp $ -- $Revision: 1.3 $ -- -- --------------------------------------------------------------------- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Tue Nov 5 16:37:33 1996 -- -- **************************** -- -- **************************** -- -- Reversed to VHDL 87 by reverse87.pl - Tue Nov 5 11:25:30 1996 -- -- **************************** -- -- **************************** -- -- Ported to VHDL 93 by port93.pl - Mon Nov 4 17:36:05 1996 -- -- **************************** -- ENTITY c03s04b01x00p01n01i00566ent IS END c03s04b01x00p01n01i00566ent; ARCHITECTURE c03s04b01x00p01n01i00566arch OF c03s04b01x00p01n01i00566ent IS type integer_file is file of integer; BEGIN TESTING: PROCESS file filein : integer_file open write_mode is "iofile.18"; BEGIN for i in 1 to 100 loop write(filein,3); end loop; assert FALSE report "***PASSED TEST: c03s04b01x00p01n01i00566 - The output file will be verified by test s010210.vhd." severity NOTE; wait; END PROCESS TESTING; END c03s04b01x00p01n01i00566arch;
entity foo is end entity; architecture fum of foo is begin process begin report "integer'high = " & integer'image(integer'high); report "16#1FFFFFFFF# = " & integer'image(16#1FFFFFFFF#); wait; end process; end architecture;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
-- (C) 1992-2014 Altera Corporation. All rights reserved. -- Your use of Altera Corporation's design tools, logic functions and other -- software and tools, and its AMPP partner logic functions, and any output -- files any of the foregoing (including device programming or simulation -- files), and any associated documentation or information are expressly subject -- to the terms and conditions of the Altera Program License Subscription -- Agreement, Altera MegaCore Function License Agreement, or other applicable -- license agreement, including, without limitation, that your use is for the -- sole purpose of programming logic devices manufactured by Altera and sold by -- Altera or its authorized distributors. Please refer to the applicable -- agreement for further details. LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** FLOATING POINT CORE LIBRARY *** --*** *** --*** FP_INVSQR_LUT1.VHD *** --*** *** --*** Function: Look Up Table - Inverse Root *** --*** *** --*** Generated by MATLAB Utility *** --*** *** --*** 31/01/08 ML *** --*** *** --*** (c) 2008 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY fp_invsqr_lut1 IS PORT ( add : IN STD_LOGIC_VECTOR (9 DOWNTO 1); data : OUT STD_LOGIC_VECTOR (11 DOWNTO 1) ); END fp_invsqr_lut1; ARCHITECTURE rtl OF fp_invsqr_lut1 IS BEGIN pca: PROCESS (add) BEGIN CASE add IS WHEN "000000000" => data <= conv_std_logic_vector(1023,11); WHEN "000000001" => data <= conv_std_logic_vector(1020,11); WHEN "000000010" => data <= conv_std_logic_vector(1017,11); WHEN "000000011" => data <= conv_std_logic_vector(1014,11); WHEN "000000100" => data <= conv_std_logic_vector(1011,11); WHEN "000000101" => data <= conv_std_logic_vector(1008,11); WHEN "000000110" => data <= conv_std_logic_vector(1005,11); WHEN "000000111" => data <= conv_std_logic_vector(1002,11); WHEN "000001000" => data <= conv_std_logic_vector(999,11); WHEN "000001001" => data <= conv_std_logic_vector(996,11); WHEN "000001010" => data <= conv_std_logic_vector(993,11); WHEN "000001011" => data <= conv_std_logic_vector(990,11); WHEN "000001100" => data <= conv_std_logic_vector(988,11); WHEN "000001101" => data <= conv_std_logic_vector(985,11); WHEN "000001110" => data <= conv_std_logic_vector(982,11); WHEN "000001111" => data <= conv_std_logic_vector(979,11); WHEN "000010000" => data <= conv_std_logic_vector(976,11); WHEN "000010001" => data <= conv_std_logic_vector(974,11); WHEN "000010010" => data <= conv_std_logic_vector(971,11); WHEN "000010011" => data <= conv_std_logic_vector(968,11); WHEN "000010100" => data <= conv_std_logic_vector(965,11); WHEN "000010101" => data <= conv_std_logic_vector(963,11); WHEN "000010110" => data <= conv_std_logic_vector(960,11); WHEN "000010111" => data <= conv_std_logic_vector(957,11); WHEN "000011000" => data <= conv_std_logic_vector(955,11); WHEN "000011001" => data <= conv_std_logic_vector(952,11); WHEN "000011010" => data <= conv_std_logic_vector(949,11); WHEN "000011011" => data <= conv_std_logic_vector(947,11); WHEN "000011100" => data <= conv_std_logic_vector(944,11); WHEN "000011101" => data <= conv_std_logic_vector(941,11); WHEN "000011110" => data <= conv_std_logic_vector(939,11); WHEN "000011111" => data <= conv_std_logic_vector(936,11); WHEN "000100000" => data <= conv_std_logic_vector(934,11); WHEN "000100001" => data <= conv_std_logic_vector(931,11); WHEN "000100010" => data <= conv_std_logic_vector(929,11); WHEN "000100011" => data <= conv_std_logic_vector(926,11); WHEN "000100100" => data <= conv_std_logic_vector(924,11); WHEN "000100101" => data <= conv_std_logic_vector(921,11); WHEN "000100110" => data <= conv_std_logic_vector(918,11); WHEN "000100111" => data <= conv_std_logic_vector(916,11); WHEN "000101000" => data <= conv_std_logic_vector(913,11); WHEN "000101001" => data <= conv_std_logic_vector(911,11); WHEN "000101010" => data <= conv_std_logic_vector(909,11); WHEN "000101011" => data <= conv_std_logic_vector(906,11); WHEN "000101100" => data <= conv_std_logic_vector(904,11); WHEN "000101101" => data <= conv_std_logic_vector(901,11); WHEN "000101110" => data <= conv_std_logic_vector(899,11); WHEN "000101111" => data <= conv_std_logic_vector(896,11); WHEN "000110000" => data <= conv_std_logic_vector(894,11); WHEN "000110001" => data <= conv_std_logic_vector(892,11); WHEN "000110010" => data <= conv_std_logic_vector(889,11); WHEN "000110011" => data <= conv_std_logic_vector(887,11); WHEN "000110100" => data <= conv_std_logic_vector(885,11); WHEN "000110101" => data <= conv_std_logic_vector(882,11); WHEN "000110110" => data <= conv_std_logic_vector(880,11); WHEN "000110111" => data <= conv_std_logic_vector(878,11); WHEN "000111000" => data <= conv_std_logic_vector(875,11); WHEN "000111001" => data <= conv_std_logic_vector(873,11); WHEN "000111010" => data <= conv_std_logic_vector(871,11); WHEN "000111011" => data <= conv_std_logic_vector(868,11); WHEN "000111100" => data <= conv_std_logic_vector(866,11); WHEN "000111101" => data <= conv_std_logic_vector(864,11); WHEN "000111110" => data <= conv_std_logic_vector(862,11); WHEN "000111111" => data <= conv_std_logic_vector(859,11); WHEN "001000000" => data <= conv_std_logic_vector(857,11); WHEN "001000001" => data <= conv_std_logic_vector(855,11); WHEN "001000010" => data <= conv_std_logic_vector(853,11); WHEN "001000011" => data <= conv_std_logic_vector(850,11); WHEN "001000100" => data <= conv_std_logic_vector(848,11); WHEN "001000101" => data <= conv_std_logic_vector(846,11); WHEN "001000110" => data <= conv_std_logic_vector(844,11); WHEN "001000111" => data <= conv_std_logic_vector(842,11); WHEN "001001000" => data <= conv_std_logic_vector(840,11); WHEN "001001001" => data <= conv_std_logic_vector(837,11); WHEN "001001010" => data <= conv_std_logic_vector(835,11); WHEN "001001011" => data <= conv_std_logic_vector(833,11); WHEN "001001100" => data <= conv_std_logic_vector(831,11); WHEN "001001101" => data <= conv_std_logic_vector(829,11); WHEN "001001110" => data <= conv_std_logic_vector(827,11); WHEN "001001111" => data <= conv_std_logic_vector(825,11); WHEN "001010000" => data <= conv_std_logic_vector(823,11); WHEN "001010001" => data <= conv_std_logic_vector(820,11); WHEN "001010010" => data <= conv_std_logic_vector(818,11); WHEN "001010011" => data <= conv_std_logic_vector(816,11); WHEN "001010100" => data <= conv_std_logic_vector(814,11); WHEN "001010101" => data <= conv_std_logic_vector(812,11); WHEN "001010110" => data <= conv_std_logic_vector(810,11); WHEN "001010111" => data <= conv_std_logic_vector(808,11); WHEN "001011000" => data <= conv_std_logic_vector(806,11); WHEN "001011001" => data <= conv_std_logic_vector(804,11); WHEN "001011010" => data <= conv_std_logic_vector(802,11); WHEN "001011011" => data <= conv_std_logic_vector(800,11); WHEN "001011100" => data <= conv_std_logic_vector(798,11); WHEN "001011101" => data <= conv_std_logic_vector(796,11); WHEN "001011110" => data <= conv_std_logic_vector(794,11); WHEN "001011111" => data <= conv_std_logic_vector(792,11); WHEN "001100000" => data <= conv_std_logic_vector(790,11); WHEN "001100001" => data <= conv_std_logic_vector(788,11); WHEN "001100010" => data <= conv_std_logic_vector(786,11); WHEN "001100011" => data <= conv_std_logic_vector(785,11); WHEN "001100100" => data <= conv_std_logic_vector(783,11); WHEN "001100101" => data <= conv_std_logic_vector(781,11); WHEN "001100110" => data <= conv_std_logic_vector(779,11); WHEN "001100111" => data <= conv_std_logic_vector(777,11); WHEN "001101000" => data <= conv_std_logic_vector(775,11); WHEN "001101001" => data <= conv_std_logic_vector(773,11); WHEN "001101010" => data <= conv_std_logic_vector(771,11); WHEN "001101011" => data <= conv_std_logic_vector(769,11); WHEN "001101100" => data <= conv_std_logic_vector(768,11); WHEN "001101101" => data <= conv_std_logic_vector(766,11); WHEN "001101110" => data <= conv_std_logic_vector(764,11); WHEN "001101111" => data <= conv_std_logic_vector(762,11); WHEN "001110000" => data <= conv_std_logic_vector(760,11); WHEN "001110001" => data <= conv_std_logic_vector(758,11); WHEN "001110010" => data <= conv_std_logic_vector(757,11); WHEN "001110011" => data <= conv_std_logic_vector(755,11); WHEN "001110100" => data <= conv_std_logic_vector(753,11); WHEN "001110101" => data <= conv_std_logic_vector(751,11); WHEN "001110110" => data <= conv_std_logic_vector(749,11); WHEN "001110111" => data <= conv_std_logic_vector(748,11); WHEN "001111000" => data <= conv_std_logic_vector(746,11); WHEN "001111001" => data <= conv_std_logic_vector(744,11); WHEN "001111010" => data <= conv_std_logic_vector(742,11); WHEN "001111011" => data <= conv_std_logic_vector(741,11); WHEN "001111100" => data <= conv_std_logic_vector(739,11); WHEN "001111101" => data <= conv_std_logic_vector(737,11); WHEN "001111110" => data <= conv_std_logic_vector(735,11); WHEN "001111111" => data <= conv_std_logic_vector(734,11); WHEN "010000000" => data <= conv_std_logic_vector(732,11); WHEN "010000001" => data <= conv_std_logic_vector(730,11); WHEN "010000010" => data <= conv_std_logic_vector(728,11); WHEN "010000011" => data <= conv_std_logic_vector(727,11); WHEN "010000100" => data <= conv_std_logic_vector(725,11); WHEN "010000101" => data <= conv_std_logic_vector(723,11); WHEN "010000110" => data <= conv_std_logic_vector(722,11); WHEN "010000111" => data <= conv_std_logic_vector(720,11); WHEN "010001000" => data <= conv_std_logic_vector(718,11); WHEN "010001001" => data <= conv_std_logic_vector(717,11); WHEN "010001010" => data <= conv_std_logic_vector(715,11); WHEN "010001011" => data <= conv_std_logic_vector(713,11); WHEN "010001100" => data <= conv_std_logic_vector(712,11); WHEN "010001101" => data <= conv_std_logic_vector(710,11); WHEN "010001110" => data <= conv_std_logic_vector(709,11); WHEN "010001111" => data <= conv_std_logic_vector(707,11); WHEN "010010000" => data <= conv_std_logic_vector(705,11); WHEN "010010001" => data <= conv_std_logic_vector(704,11); WHEN "010010010" => data <= conv_std_logic_vector(702,11); WHEN "010010011" => data <= conv_std_logic_vector(700,11); WHEN "010010100" => data <= conv_std_logic_vector(699,11); WHEN "010010101" => data <= conv_std_logic_vector(697,11); WHEN "010010110" => data <= conv_std_logic_vector(696,11); WHEN "010010111" => data <= conv_std_logic_vector(694,11); WHEN "010011000" => data <= conv_std_logic_vector(693,11); WHEN "010011001" => data <= conv_std_logic_vector(691,11); WHEN "010011010" => data <= conv_std_logic_vector(689,11); WHEN "010011011" => data <= conv_std_logic_vector(688,11); WHEN "010011100" => data <= conv_std_logic_vector(686,11); WHEN "010011101" => data <= conv_std_logic_vector(685,11); WHEN "010011110" => data <= conv_std_logic_vector(683,11); WHEN "010011111" => data <= conv_std_logic_vector(682,11); WHEN "010100000" => data <= conv_std_logic_vector(680,11); WHEN "010100001" => data <= conv_std_logic_vector(679,11); WHEN "010100010" => data <= conv_std_logic_vector(677,11); WHEN "010100011" => data <= conv_std_logic_vector(676,11); WHEN "010100100" => data <= conv_std_logic_vector(674,11); WHEN "010100101" => data <= conv_std_logic_vector(673,11); WHEN "010100110" => data <= conv_std_logic_vector(671,11); WHEN "010100111" => data <= conv_std_logic_vector(670,11); WHEN "010101000" => data <= conv_std_logic_vector(668,11); WHEN "010101001" => data <= conv_std_logic_vector(667,11); WHEN "010101010" => data <= conv_std_logic_vector(665,11); WHEN "010101011" => data <= conv_std_logic_vector(664,11); WHEN "010101100" => data <= conv_std_logic_vector(662,11); WHEN "010101101" => data <= conv_std_logic_vector(661,11); WHEN "010101110" => data <= conv_std_logic_vector(660,11); WHEN "010101111" => data <= conv_std_logic_vector(658,11); WHEN "010110000" => data <= conv_std_logic_vector(657,11); WHEN "010110001" => data <= conv_std_logic_vector(655,11); WHEN "010110010" => data <= conv_std_logic_vector(654,11); WHEN "010110011" => data <= conv_std_logic_vector(652,11); WHEN "010110100" => data <= conv_std_logic_vector(651,11); WHEN "010110101" => data <= conv_std_logic_vector(650,11); WHEN "010110110" => data <= conv_std_logic_vector(648,11); WHEN "010110111" => data <= conv_std_logic_vector(647,11); WHEN "010111000" => data <= conv_std_logic_vector(645,11); WHEN "010111001" => data <= conv_std_logic_vector(644,11); WHEN "010111010" => data <= conv_std_logic_vector(643,11); WHEN "010111011" => data <= conv_std_logic_vector(641,11); WHEN "010111100" => data <= conv_std_logic_vector(640,11); WHEN "010111101" => data <= conv_std_logic_vector(639,11); WHEN "010111110" => data <= conv_std_logic_vector(637,11); WHEN "010111111" => data <= conv_std_logic_vector(636,11); WHEN "011000000" => data <= conv_std_logic_vector(634,11); WHEN "011000001" => data <= conv_std_logic_vector(633,11); WHEN "011000010" => data <= conv_std_logic_vector(632,11); WHEN "011000011" => data <= conv_std_logic_vector(630,11); WHEN "011000100" => data <= conv_std_logic_vector(629,11); WHEN "011000101" => data <= conv_std_logic_vector(628,11); WHEN "011000110" => data <= conv_std_logic_vector(626,11); WHEN "011000111" => data <= conv_std_logic_vector(625,11); WHEN "011001000" => data <= conv_std_logic_vector(624,11); WHEN "011001001" => data <= conv_std_logic_vector(622,11); WHEN "011001010" => data <= conv_std_logic_vector(621,11); WHEN "011001011" => data <= conv_std_logic_vector(620,11); WHEN "011001100" => data <= conv_std_logic_vector(619,11); WHEN "011001101" => data <= conv_std_logic_vector(617,11); WHEN "011001110" => data <= conv_std_logic_vector(616,11); WHEN "011001111" => data <= conv_std_logic_vector(615,11); WHEN "011010000" => data <= conv_std_logic_vector(613,11); WHEN "011010001" => data <= conv_std_logic_vector(612,11); WHEN "011010010" => data <= conv_std_logic_vector(611,11); WHEN "011010011" => data <= conv_std_logic_vector(610,11); WHEN "011010100" => data <= conv_std_logic_vector(608,11); WHEN "011010101" => data <= conv_std_logic_vector(607,11); WHEN "011010110" => data <= conv_std_logic_vector(606,11); WHEN "011010111" => data <= conv_std_logic_vector(605,11); WHEN "011011000" => data <= conv_std_logic_vector(603,11); WHEN "011011001" => data <= conv_std_logic_vector(602,11); WHEN "011011010" => data <= conv_std_logic_vector(601,11); WHEN "011011011" => data <= conv_std_logic_vector(600,11); WHEN "011011100" => data <= conv_std_logic_vector(598,11); WHEN "011011101" => data <= conv_std_logic_vector(597,11); WHEN "011011110" => data <= conv_std_logic_vector(596,11); WHEN "011011111" => data <= conv_std_logic_vector(595,11); WHEN "011100000" => data <= conv_std_logic_vector(594,11); WHEN "011100001" => data <= conv_std_logic_vector(592,11); WHEN "011100010" => data <= conv_std_logic_vector(591,11); WHEN "011100011" => data <= conv_std_logic_vector(590,11); WHEN "011100100" => data <= conv_std_logic_vector(589,11); WHEN "011100101" => data <= conv_std_logic_vector(588,11); WHEN "011100110" => data <= conv_std_logic_vector(586,11); WHEN "011100111" => data <= conv_std_logic_vector(585,11); WHEN "011101000" => data <= conv_std_logic_vector(584,11); WHEN "011101001" => data <= conv_std_logic_vector(583,11); WHEN "011101010" => data <= conv_std_logic_vector(582,11); WHEN "011101011" => data <= conv_std_logic_vector(580,11); WHEN "011101100" => data <= conv_std_logic_vector(579,11); WHEN "011101101" => data <= conv_std_logic_vector(578,11); WHEN "011101110" => data <= conv_std_logic_vector(577,11); WHEN "011101111" => data <= conv_std_logic_vector(576,11); WHEN "011110000" => data <= conv_std_logic_vector(575,11); WHEN "011110001" => data <= conv_std_logic_vector(574,11); WHEN "011110010" => data <= conv_std_logic_vector(572,11); WHEN "011110011" => data <= conv_std_logic_vector(571,11); WHEN "011110100" => data <= conv_std_logic_vector(570,11); WHEN "011110101" => data <= conv_std_logic_vector(569,11); WHEN "011110110" => data <= conv_std_logic_vector(568,11); WHEN "011110111" => data <= conv_std_logic_vector(567,11); WHEN "011111000" => data <= conv_std_logic_vector(566,11); WHEN "011111001" => data <= conv_std_logic_vector(565,11); WHEN "011111010" => data <= conv_std_logic_vector(563,11); WHEN "011111011" => data <= conv_std_logic_vector(562,11); WHEN "011111100" => data <= conv_std_logic_vector(561,11); WHEN "011111101" => data <= conv_std_logic_vector(560,11); WHEN "011111110" => data <= conv_std_logic_vector(559,11); WHEN "011111111" => data <= conv_std_logic_vector(558,11); WHEN "100000000" => data <= conv_std_logic_vector(557,11); WHEN "100000001" => data <= conv_std_logic_vector(556,11); WHEN "100000010" => data <= conv_std_logic_vector(555,11); WHEN "100000011" => data <= conv_std_logic_vector(554,11); WHEN "100000100" => data <= conv_std_logic_vector(553,11); WHEN "100000101" => data <= conv_std_logic_vector(551,11); WHEN "100000110" => data <= conv_std_logic_vector(550,11); WHEN "100000111" => data <= conv_std_logic_vector(549,11); WHEN "100001000" => data <= conv_std_logic_vector(548,11); WHEN "100001001" => data <= conv_std_logic_vector(547,11); WHEN "100001010" => data <= conv_std_logic_vector(546,11); WHEN "100001011" => data <= conv_std_logic_vector(545,11); WHEN "100001100" => data <= conv_std_logic_vector(544,11); WHEN "100001101" => data <= conv_std_logic_vector(543,11); WHEN "100001110" => data <= conv_std_logic_vector(542,11); WHEN "100001111" => data <= conv_std_logic_vector(541,11); WHEN "100010000" => data <= conv_std_logic_vector(540,11); WHEN "100010001" => data <= conv_std_logic_vector(539,11); WHEN "100010010" => data <= conv_std_logic_vector(538,11); WHEN "100010011" => data <= conv_std_logic_vector(537,11); WHEN "100010100" => data <= conv_std_logic_vector(536,11); WHEN "100010101" => data <= conv_std_logic_vector(535,11); WHEN "100010110" => data <= conv_std_logic_vector(534,11); WHEN "100010111" => data <= conv_std_logic_vector(533,11); WHEN "100011000" => data <= conv_std_logic_vector(532,11); WHEN "100011001" => data <= conv_std_logic_vector(531,11); WHEN "100011010" => data <= conv_std_logic_vector(530,11); WHEN "100011011" => data <= conv_std_logic_vector(529,11); WHEN "100011100" => data <= conv_std_logic_vector(528,11); WHEN "100011101" => data <= conv_std_logic_vector(527,11); WHEN "100011110" => data <= conv_std_logic_vector(526,11); WHEN "100011111" => data <= conv_std_logic_vector(525,11); WHEN "100100000" => data <= conv_std_logic_vector(524,11); WHEN "100100001" => data <= conv_std_logic_vector(523,11); WHEN "100100010" => data <= conv_std_logic_vector(522,11); WHEN "100100011" => data <= conv_std_logic_vector(521,11); WHEN "100100100" => data <= conv_std_logic_vector(520,11); WHEN "100100101" => data <= conv_std_logic_vector(519,11); WHEN "100100110" => data <= conv_std_logic_vector(518,11); WHEN "100100111" => data <= conv_std_logic_vector(517,11); WHEN "100101000" => data <= conv_std_logic_vector(516,11); WHEN "100101001" => data <= conv_std_logic_vector(515,11); WHEN "100101010" => data <= conv_std_logic_vector(514,11); WHEN "100101011" => data <= conv_std_logic_vector(513,11); WHEN "100101100" => data <= conv_std_logic_vector(512,11); WHEN "100101101" => data <= conv_std_logic_vector(511,11); WHEN "100101110" => data <= conv_std_logic_vector(510,11); WHEN "100101111" => data <= conv_std_logic_vector(509,11); WHEN "100110000" => data <= conv_std_logic_vector(508,11); WHEN "100110001" => data <= conv_std_logic_vector(508,11); WHEN "100110010" => data <= conv_std_logic_vector(507,11); WHEN "100110011" => data <= conv_std_logic_vector(506,11); WHEN "100110100" => data <= conv_std_logic_vector(505,11); WHEN "100110101" => data <= conv_std_logic_vector(504,11); WHEN "100110110" => data <= conv_std_logic_vector(503,11); WHEN "100110111" => data <= conv_std_logic_vector(502,11); WHEN "100111000" => data <= conv_std_logic_vector(501,11); WHEN "100111001" => data <= conv_std_logic_vector(500,11); WHEN "100111010" => data <= conv_std_logic_vector(499,11); WHEN "100111011" => data <= conv_std_logic_vector(498,11); WHEN "100111100" => data <= conv_std_logic_vector(497,11); WHEN "100111101" => data <= conv_std_logic_vector(497,11); WHEN "100111110" => data <= conv_std_logic_vector(496,11); WHEN "100111111" => data <= conv_std_logic_vector(495,11); WHEN "101000000" => data <= conv_std_logic_vector(494,11); WHEN "101000001" => data <= conv_std_logic_vector(493,11); WHEN "101000010" => data <= conv_std_logic_vector(492,11); WHEN "101000011" => data <= conv_std_logic_vector(491,11); WHEN "101000100" => data <= conv_std_logic_vector(490,11); WHEN "101000101" => data <= conv_std_logic_vector(489,11); WHEN "101000110" => data <= conv_std_logic_vector(489,11); WHEN "101000111" => data <= conv_std_logic_vector(488,11); WHEN "101001000" => data <= conv_std_logic_vector(487,11); WHEN "101001001" => data <= conv_std_logic_vector(486,11); WHEN "101001010" => data <= conv_std_logic_vector(485,11); WHEN "101001011" => data <= conv_std_logic_vector(484,11); WHEN "101001100" => data <= conv_std_logic_vector(483,11); WHEN "101001101" => data <= conv_std_logic_vector(483,11); WHEN "101001110" => data <= conv_std_logic_vector(482,11); WHEN "101001111" => data <= conv_std_logic_vector(481,11); WHEN "101010000" => data <= conv_std_logic_vector(480,11); WHEN "101010001" => data <= conv_std_logic_vector(479,11); WHEN "101010010" => data <= conv_std_logic_vector(478,11); WHEN "101010011" => data <= conv_std_logic_vector(477,11); WHEN "101010100" => data <= conv_std_logic_vector(477,11); WHEN "101010101" => data <= conv_std_logic_vector(476,11); WHEN "101010110" => data <= conv_std_logic_vector(475,11); WHEN "101010111" => data <= conv_std_logic_vector(474,11); WHEN "101011000" => data <= conv_std_logic_vector(473,11); WHEN "101011001" => data <= conv_std_logic_vector(472,11); WHEN "101011010" => data <= conv_std_logic_vector(472,11); WHEN "101011011" => data <= conv_std_logic_vector(471,11); WHEN "101011100" => data <= conv_std_logic_vector(470,11); WHEN "101011101" => data <= conv_std_logic_vector(469,11); WHEN "101011110" => data <= conv_std_logic_vector(468,11); WHEN "101011111" => data <= conv_std_logic_vector(468,11); WHEN "101100000" => data <= conv_std_logic_vector(467,11); WHEN "101100001" => data <= conv_std_logic_vector(466,11); WHEN "101100010" => data <= conv_std_logic_vector(465,11); WHEN "101100011" => data <= conv_std_logic_vector(464,11); WHEN "101100100" => data <= conv_std_logic_vector(464,11); WHEN "101100101" => data <= conv_std_logic_vector(463,11); WHEN "101100110" => data <= conv_std_logic_vector(462,11); WHEN "101100111" => data <= conv_std_logic_vector(461,11); WHEN "101101000" => data <= conv_std_logic_vector(460,11); WHEN "101101001" => data <= conv_std_logic_vector(460,11); WHEN "101101010" => data <= conv_std_logic_vector(459,11); WHEN "101101011" => data <= conv_std_logic_vector(458,11); WHEN "101101100" => data <= conv_std_logic_vector(457,11); WHEN "101101101" => data <= conv_std_logic_vector(456,11); WHEN "101101110" => data <= conv_std_logic_vector(456,11); WHEN "101101111" => data <= conv_std_logic_vector(455,11); WHEN "101110000" => data <= conv_std_logic_vector(454,11); WHEN "101110001" => data <= conv_std_logic_vector(453,11); WHEN "101110010" => data <= conv_std_logic_vector(453,11); WHEN "101110011" => data <= conv_std_logic_vector(452,11); WHEN "101110100" => data <= conv_std_logic_vector(451,11); WHEN "101110101" => data <= conv_std_logic_vector(450,11); WHEN "101110110" => data <= conv_std_logic_vector(449,11); WHEN "101110111" => data <= conv_std_logic_vector(449,11); WHEN "101111000" => data <= conv_std_logic_vector(448,11); WHEN "101111001" => data <= conv_std_logic_vector(447,11); WHEN "101111010" => data <= conv_std_logic_vector(446,11); WHEN "101111011" => data <= conv_std_logic_vector(446,11); WHEN "101111100" => data <= conv_std_logic_vector(445,11); WHEN "101111101" => data <= conv_std_logic_vector(444,11); WHEN "101111110" => data <= conv_std_logic_vector(443,11); WHEN "101111111" => data <= conv_std_logic_vector(443,11); WHEN "110000000" => data <= conv_std_logic_vector(442,11); WHEN "110000001" => data <= conv_std_logic_vector(441,11); WHEN "110000010" => data <= conv_std_logic_vector(440,11); WHEN "110000011" => data <= conv_std_logic_vector(440,11); WHEN "110000100" => data <= conv_std_logic_vector(439,11); WHEN "110000101" => data <= conv_std_logic_vector(438,11); WHEN "110000110" => data <= conv_std_logic_vector(438,11); WHEN "110000111" => data <= conv_std_logic_vector(437,11); WHEN "110001000" => data <= conv_std_logic_vector(436,11); WHEN "110001001" => data <= conv_std_logic_vector(435,11); WHEN "110001010" => data <= conv_std_logic_vector(435,11); WHEN "110001011" => data <= conv_std_logic_vector(434,11); WHEN "110001100" => data <= conv_std_logic_vector(433,11); WHEN "110001101" => data <= conv_std_logic_vector(433,11); WHEN "110001110" => data <= conv_std_logic_vector(432,11); WHEN "110001111" => data <= conv_std_logic_vector(431,11); WHEN "110010000" => data <= conv_std_logic_vector(430,11); WHEN "110010001" => data <= conv_std_logic_vector(430,11); WHEN "110010010" => data <= conv_std_logic_vector(429,11); WHEN "110010011" => data <= conv_std_logic_vector(428,11); WHEN "110010100" => data <= conv_std_logic_vector(428,11); WHEN "110010101" => data <= conv_std_logic_vector(427,11); WHEN "110010110" => data <= conv_std_logic_vector(426,11); WHEN "110010111" => data <= conv_std_logic_vector(425,11); WHEN "110011000" => data <= conv_std_logic_vector(425,11); WHEN "110011001" => data <= conv_std_logic_vector(424,11); WHEN "110011010" => data <= conv_std_logic_vector(423,11); WHEN "110011011" => data <= conv_std_logic_vector(423,11); WHEN "110011100" => data <= conv_std_logic_vector(422,11); WHEN "110011101" => data <= conv_std_logic_vector(421,11); WHEN "110011110" => data <= conv_std_logic_vector(421,11); WHEN "110011111" => data <= conv_std_logic_vector(420,11); WHEN "110100000" => data <= conv_std_logic_vector(419,11); WHEN "110100001" => data <= conv_std_logic_vector(419,11); WHEN "110100010" => data <= conv_std_logic_vector(418,11); WHEN "110100011" => data <= conv_std_logic_vector(417,11); WHEN "110100100" => data <= conv_std_logic_vector(417,11); WHEN "110100101" => data <= conv_std_logic_vector(416,11); WHEN "110100110" => data <= conv_std_logic_vector(415,11); WHEN "110100111" => data <= conv_std_logic_vector(415,11); WHEN "110101000" => data <= conv_std_logic_vector(414,11); WHEN "110101001" => data <= conv_std_logic_vector(413,11); WHEN "110101010" => data <= conv_std_logic_vector(413,11); WHEN "110101011" => data <= conv_std_logic_vector(412,11); WHEN "110101100" => data <= conv_std_logic_vector(411,11); WHEN "110101101" => data <= conv_std_logic_vector(411,11); WHEN "110101110" => data <= conv_std_logic_vector(410,11); WHEN "110101111" => data <= conv_std_logic_vector(409,11); WHEN "110110000" => data <= conv_std_logic_vector(409,11); WHEN "110110001" => data <= conv_std_logic_vector(408,11); WHEN "110110010" => data <= conv_std_logic_vector(407,11); WHEN "110110011" => data <= conv_std_logic_vector(407,11); WHEN "110110100" => data <= conv_std_logic_vector(406,11); WHEN "110110101" => data <= conv_std_logic_vector(405,11); WHEN "110110110" => data <= conv_std_logic_vector(405,11); WHEN "110110111" => data <= conv_std_logic_vector(404,11); WHEN "110111000" => data <= conv_std_logic_vector(404,11); WHEN "110111001" => data <= conv_std_logic_vector(403,11); WHEN "110111010" => data <= conv_std_logic_vector(402,11); WHEN "110111011" => data <= conv_std_logic_vector(402,11); WHEN "110111100" => data <= conv_std_logic_vector(401,11); WHEN "110111101" => data <= conv_std_logic_vector(400,11); WHEN "110111110" => data <= conv_std_logic_vector(400,11); WHEN "110111111" => data <= conv_std_logic_vector(399,11); WHEN "111000000" => data <= conv_std_logic_vector(399,11); WHEN "111000001" => data <= conv_std_logic_vector(398,11); WHEN "111000010" => data <= conv_std_logic_vector(397,11); WHEN "111000011" => data <= conv_std_logic_vector(397,11); WHEN "111000100" => data <= conv_std_logic_vector(396,11); WHEN "111000101" => data <= conv_std_logic_vector(395,11); WHEN "111000110" => data <= conv_std_logic_vector(395,11); WHEN "111000111" => data <= conv_std_logic_vector(394,11); WHEN "111001000" => data <= conv_std_logic_vector(394,11); WHEN "111001001" => data <= conv_std_logic_vector(393,11); WHEN "111001010" => data <= conv_std_logic_vector(392,11); WHEN "111001011" => data <= conv_std_logic_vector(392,11); WHEN "111001100" => data <= conv_std_logic_vector(391,11); WHEN "111001101" => data <= conv_std_logic_vector(391,11); WHEN "111001110" => data <= conv_std_logic_vector(390,11); WHEN "111001111" => data <= conv_std_logic_vector(389,11); WHEN "111010000" => data <= conv_std_logic_vector(389,11); WHEN "111010001" => data <= conv_std_logic_vector(388,11); WHEN "111010010" => data <= conv_std_logic_vector(388,11); WHEN "111010011" => data <= conv_std_logic_vector(387,11); WHEN "111010100" => data <= conv_std_logic_vector(386,11); WHEN "111010101" => data <= conv_std_logic_vector(386,11); WHEN "111010110" => data <= conv_std_logic_vector(385,11); WHEN "111010111" => data <= conv_std_logic_vector(385,11); WHEN "111011000" => data <= conv_std_logic_vector(384,11); WHEN "111011001" => data <= conv_std_logic_vector(383,11); WHEN "111011010" => data <= conv_std_logic_vector(383,11); WHEN "111011011" => data <= conv_std_logic_vector(382,11); WHEN "111011100" => data <= conv_std_logic_vector(382,11); WHEN "111011101" => data <= conv_std_logic_vector(381,11); WHEN "111011110" => data <= conv_std_logic_vector(381,11); WHEN "111011111" => data <= conv_std_logic_vector(380,11); WHEN "111100000" => data <= conv_std_logic_vector(379,11); WHEN "111100001" => data <= conv_std_logic_vector(379,11); WHEN "111100010" => data <= conv_std_logic_vector(378,11); WHEN "111100011" => data <= conv_std_logic_vector(378,11); WHEN "111100100" => data <= conv_std_logic_vector(377,11); WHEN "111100101" => data <= conv_std_logic_vector(377,11); WHEN "111100110" => data <= conv_std_logic_vector(376,11); WHEN "111100111" => data <= conv_std_logic_vector(375,11); WHEN "111101000" => data <= conv_std_logic_vector(375,11); WHEN "111101001" => data <= conv_std_logic_vector(374,11); WHEN "111101010" => data <= conv_std_logic_vector(374,11); WHEN "111101011" => data <= conv_std_logic_vector(373,11); WHEN "111101100" => data <= conv_std_logic_vector(373,11); WHEN "111101101" => data <= conv_std_logic_vector(372,11); WHEN "111101110" => data <= conv_std_logic_vector(372,11); WHEN "111101111" => data <= conv_std_logic_vector(371,11); WHEN "111110000" => data <= conv_std_logic_vector(370,11); WHEN "111110001" => data <= conv_std_logic_vector(370,11); WHEN "111110010" => data <= conv_std_logic_vector(369,11); WHEN "111110011" => data <= conv_std_logic_vector(369,11); WHEN "111110100" => data <= conv_std_logic_vector(368,11); WHEN "111110101" => data <= conv_std_logic_vector(368,11); WHEN "111110110" => data <= conv_std_logic_vector(367,11); WHEN "111110111" => data <= conv_std_logic_vector(367,11); WHEN "111111000" => data <= conv_std_logic_vector(366,11); WHEN "111111001" => data <= conv_std_logic_vector(366,11); WHEN "111111010" => data <= conv_std_logic_vector(365,11); WHEN "111111011" => data <= conv_std_logic_vector(364,11); WHEN "111111100" => data <= conv_std_logic_vector(364,11); WHEN "111111101" => data <= conv_std_logic_vector(363,11); WHEN "111111110" => data <= conv_std_logic_vector(363,11); WHEN "111111111" => data <= conv_std_logic_vector(362,11); WHEN others => data <= conv_std_logic_vector(0,11); END CASE; END PROCESS; END rtl;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2014, Aeroflex Gaisler -- Copyright (C) 2015, Cobham Gaisler -- -- This program is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation; either version 2 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program; if not, write to the Free Software -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ------------------------------------------------------------------------------- -- Copyright (C) 2009-2013, Aeroflex Gaisler AB ------------------------------------------------------------------------------- -- Entity: spw_2x_lvttl_pads -- File: spw_2x_lvttl_pads.vhd -- Author: Marko Isomaki, Aeroflex Gaisler -- Contact: support@gaisler.com -- Description: pads for SpW signals in router ASIC LVTTL ports ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; library work; use work.config.all; library techmap; use techmap.gencomp.all; library grlib; use grlib.stdlib.conv_std_logic; entity spw_lvttl_pads is generic ( padtech : integer := 0; oepol : integer := 0; level : integer := 0; voltage : integer := 0; filter : integer := 0; strength : integer := 4; slew : integer := 0; input_type : integer := 0 ); port ( --------------------------------------------------------------------------- -- Signals going off-chip --------------------------------------------------------------------------- spw_rxd : in std_logic_vector(0 to CFG_SPW_NUM-1); spw_rxs : in std_logic_vector(0 to CFG_SPW_NUM-1); spw_txd : out std_logic_vector(0 to CFG_SPW_NUM-1); spw_txs : out std_logic_vector(0 to CFG_SPW_NUM-1); --------------------------------------------------------------------------- -- Signals to core --------------------------------------------------------------------------- lspw_rxd : out std_logic_vector(0 to CFG_SPW_NUM-1); lspw_rxs : out std_logic_vector(0 to CFG_SPW_NUM-1); lspw_txd : in std_logic_vector(0 to CFG_SPW_NUM-1); lspw_txs : in std_logic_vector(0 to CFG_SPW_NUM-1) ); end entity; architecture rtl of spw_lvttl_pads is begin ------------------------------------------------------------------------------ -- SpW port pads ------------------------------------------------------------------------------ spw_pads : for i in 0 to CFG_SPW_NUM-1 generate spw_pad_input: if input_type <= 3 generate spw_rxd_pad : inpad generic map ( tech => padtech, level => level, voltage => voltage, filter => filter, strength => strength) port map ( pad => spw_rxd(i), o => lspw_rxd(i)); spw_rxs_pad : inpad generic map ( tech => padtech, level => level, voltage => voltage, filter => filter, strength => strength) port map ( pad => spw_rxs(i), o => lspw_rxs(i)); end generate; spw_no_pad_input: if input_type >= 4 generate lspw_rxd(i) <= spw_rxd(i); lspw_rxs(i) <= spw_rxs(i); end generate; spw_txd_pad : outpad generic map ( tech => padtech, level => level, slew => slew, voltage => voltage, strength => strength) port map ( pad => spw_txd(i), i => lspw_txd(i)); spw_txs_pad : outpad generic map ( tech => padtech, level => level, slew => slew, voltage => voltage, strength => strength) port map ( pad => spw_txs(i), i => lspw_txs(i)); end generate; end;
library ieee; use ieee.std_logic_1164.all; entity issue is port (bar : in std_logic; foobar : out std_logic); end issue; architecture beh of issue is function foo (arg : std_logic) return std_logic is begin RET_PATH1: if arg = '1' then return '1'; end if; -- null range intended, but not necessary to repro for i in 2 to 1 loop EXIT_LOOP: exit when true; end loop; RET_PATH2: return '0'; end function; begin foobar <= foo (bar); end architecture;
entity bounds6 is end entity; architecture test of bounds6 is begin process is variable i : integer; variable c : character; begin i := 32; wait for 1 ns; c := character'val(i); assert c = ' '; i := 1517262; wait for 1 ns; c := character'val(i); wait; end process; end architecture;
entity bounds6 is end entity; architecture test of bounds6 is begin process is variable i : integer; variable c : character; begin i := 32; wait for 1 ns; c := character'val(i); assert c = ' '; i := 1517262; wait for 1 ns; c := character'val(i); wait; end process; end architecture;
entity bounds6 is end entity; architecture test of bounds6 is begin process is variable i : integer; variable c : character; begin i := 32; wait for 1 ns; c := character'val(i); assert c = ' '; i := 1517262; wait for 1 ns; c := character'val(i); wait; end process; end architecture;
entity bounds6 is end entity; architecture test of bounds6 is begin process is variable i : integer; variable c : character; begin i := 32; wait for 1 ns; c := character'val(i); assert c = ' '; i := 1517262; wait for 1 ns; c := character'val(i); wait; end process; end architecture;
entity bounds6 is end entity; architecture test of bounds6 is begin process is variable i : integer; variable c : character; begin i := 32; wait for 1 ns; c := character'val(i); assert c = ' '; i := 1517262; wait for 1 ns; c := character'val(i); wait; end process; end architecture;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc784.vhd,v 1.2 2001-10-26 16:30:00 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c01s01b01x02p12n04i00784ent_a IS port ( C1 : in bit_vector; C2 : out bit_vector; C3 : inout bit_vector; C4 : buffer bit_vector; C5 : linkage bit_vector); END c01s01b01x02p12n04i00784ent_a; ARCHITECTURE c01s01b01x02p12n04i00784arch_a OF c01s01b01x02p12n04i00784ent_a IS BEGIN END c01s01b01x02p12n04i00784arch_a; ENTITY c01s01b01x02p12n04i00784ent IS port ( P1 : in bit_vector(15 downto 0); P2 : out bit_vector(15 downto 0); P3 : inout bit_vector(15 downto 0); P4 : buffer bit_vector(15 downto 0); P5 : linkage bit_vector(15 downto 0)); END c01s01b01x02p12n04i00784ent; ARCHITECTURE c01s01b01x02p12n04i00784arch OF c01s01b01x02p12n04i00784ent IS component c01s01b01x02p12n04i00784ent_b port ( C1 : in bit_vector; C2 : out bit_vector; C3 : inout bit_vector; C4 : buffer bit_vector; C5 : linkage bit_vector); end component; for L : c01s01b01x02p12n04i00784ent_b use entity work.c01s01b01x02p12n04i00784ent_a(c01s01b01x02p12n04i00784arch_a); BEGIN L : c01s01b01x02p12n04i00784ent_b port map (C1 => p1, C2 => p2, C3 => p3, C4 => p4, C5 => p5); TESTING: PROCESS BEGIN assert FALSE report "***PASSED TEST: c01s01b01x02p12n04i00784" severity NOTE; wait; END PROCESS TESTING; END c01s01b01x02p12n04i00784arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc784.vhd,v 1.2 2001-10-26 16:30:00 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c01s01b01x02p12n04i00784ent_a IS port ( C1 : in bit_vector; C2 : out bit_vector; C3 : inout bit_vector; C4 : buffer bit_vector; C5 : linkage bit_vector); END c01s01b01x02p12n04i00784ent_a; ARCHITECTURE c01s01b01x02p12n04i00784arch_a OF c01s01b01x02p12n04i00784ent_a IS BEGIN END c01s01b01x02p12n04i00784arch_a; ENTITY c01s01b01x02p12n04i00784ent IS port ( P1 : in bit_vector(15 downto 0); P2 : out bit_vector(15 downto 0); P3 : inout bit_vector(15 downto 0); P4 : buffer bit_vector(15 downto 0); P5 : linkage bit_vector(15 downto 0)); END c01s01b01x02p12n04i00784ent; ARCHITECTURE c01s01b01x02p12n04i00784arch OF c01s01b01x02p12n04i00784ent IS component c01s01b01x02p12n04i00784ent_b port ( C1 : in bit_vector; C2 : out bit_vector; C3 : inout bit_vector; C4 : buffer bit_vector; C5 : linkage bit_vector); end component; for L : c01s01b01x02p12n04i00784ent_b use entity work.c01s01b01x02p12n04i00784ent_a(c01s01b01x02p12n04i00784arch_a); BEGIN L : c01s01b01x02p12n04i00784ent_b port map (C1 => p1, C2 => p2, C3 => p3, C4 => p4, C5 => p5); TESTING: PROCESS BEGIN assert FALSE report "***PASSED TEST: c01s01b01x02p12n04i00784" severity NOTE; wait; END PROCESS TESTING; END c01s01b01x02p12n04i00784arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc784.vhd,v 1.2 2001-10-26 16:30:00 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c01s01b01x02p12n04i00784ent_a IS port ( C1 : in bit_vector; C2 : out bit_vector; C3 : inout bit_vector; C4 : buffer bit_vector; C5 : linkage bit_vector); END c01s01b01x02p12n04i00784ent_a; ARCHITECTURE c01s01b01x02p12n04i00784arch_a OF c01s01b01x02p12n04i00784ent_a IS BEGIN END c01s01b01x02p12n04i00784arch_a; ENTITY c01s01b01x02p12n04i00784ent IS port ( P1 : in bit_vector(15 downto 0); P2 : out bit_vector(15 downto 0); P3 : inout bit_vector(15 downto 0); P4 : buffer bit_vector(15 downto 0); P5 : linkage bit_vector(15 downto 0)); END c01s01b01x02p12n04i00784ent; ARCHITECTURE c01s01b01x02p12n04i00784arch OF c01s01b01x02p12n04i00784ent IS component c01s01b01x02p12n04i00784ent_b port ( C1 : in bit_vector; C2 : out bit_vector; C3 : inout bit_vector; C4 : buffer bit_vector; C5 : linkage bit_vector); end component; for L : c01s01b01x02p12n04i00784ent_b use entity work.c01s01b01x02p12n04i00784ent_a(c01s01b01x02p12n04i00784arch_a); BEGIN L : c01s01b01x02p12n04i00784ent_b port map (C1 => p1, C2 => p2, C3 => p3, C4 => p4, C5 => p5); TESTING: PROCESS BEGIN assert FALSE report "***PASSED TEST: c01s01b01x02p12n04i00784" severity NOTE; wait; END PROCESS TESTING; END c01s01b01x02p12n04i00784arch;
-- EMACS settings: -*- tab-width: 2; indent-tabs-mode: t -*- -- vim: tabstop=2:shiftwidth=2:noexpandtab -- kate: tab-width 2; replace-tabs off; indent-width 2; -- -- ============================================================================ -- Authors: Martin Zabel -- -- Module: Generic FSM for Memory Controller Test Modules -- -- Description: -- ------------------------------------ -- Check read/write by blocked and random memory accesses. -- -- Output status(0) indicates if an read error has occured (high-active). -- Output status(2 downto 1) are progress indicators, these should toogle with -- a visible frequency. Otherwise the memory controller does not except new -- commands. -- -- License: -- ============================================================================ -- Copyright 2007-2015 Technische Universitaet Dresden - Germany, -- Chair for VLSI-Design, Diagnostics and Architecture -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- ============================================================================ ------------------------------------------------------------------------------- -- Naming Conventions: -- (Based on: Keating and Bricaud: "Reuse Methodology Manual") -- -- active low signals: "*_n" -- clock signals: "clk", "clk_div#", "clk_#x" -- reset signals: "rst", "rst_n" -- generics: all UPPERCASE -- user defined types: "*_TYPE" -- state machine next state: "*_ns" -- state machine current state: "*_cs" -- output of a register: "*_r" -- asynchronous signal: "*_a" -- pipelined or register delay signals: "*_p#" -- data before being registered into register with the same name: "*_nxt" -- clock enable signals: "*_ce" -- internal version of output port: "*_i" -- tristate internal signal "*_z" ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library poc; use poc.arith.all; use poc.utils.all; entity memtest_fsm is generic ( A_BITS : positive; D_BITS : positive ); port ( clk : in std_logic; rst : in std_logic; mem_rdy : in std_logic; mem_rstb : in std_logic; mem_rdata : in std_logic_vector(D_BITS-1 downto 0); mem_req : out std_logic; mem_write : out std_logic; mem_addr : out unsigned(A_BITS-1 downto 0); mem_wdata : out std_logic_vector(D_BITS-1 downto 0); status : out std_logic_vector(2 downto 0)); end memtest_fsm; architecture rtl of memtest_fsm is -- Main FSM type FSM_TYPE is (INIT, WRITE_BLOCK, READ_BLOCK, WRITE_READ1, WRITE_READ2, FINISHED); signal fsm_cs : FSM_TYPE; signal fsm_ns : FSM_TYPE; -- Read Check FSM type CHKFSM_TYPE is (CHK_INIT, CHK_RUN); signal chkfsm_cs : CHKFSM_TYPE; signal chkfsm_ns : CHKFSM_TYPE; -- Address register signal addr_r : unsigned(A_BITS downto 0); signal addr_rst : std_logic; signal addr_inc : std_logic; -- Write Data register signal wdata_r : std_logic_vector(D_BITS-1 downto 0); signal wdata_rst : std_logic; signal wdata_got : std_logic; -- Expected Read Data Register signal exp_rdata_r : std_logic_vector(D_BITS-1 downto 0); signal exp_rdata_rst : std_logic; signal exp_rdata_got : std_logic; -- End of block has been reached. signal block_finished : std_logic; -- Read data / strobe register signal rdata_r : std_logic_vector(D_BITS-1 downto 0); signal rstb_r : std_logic; -- Read data equals expected value. signal rdata_eq_exp : std_logic; -- Read fail indicator signal rd_failed_r : std_logic; signal rd_failed_rst : std_logic; signal rd_failed_set : std_logic; -- Run counter signal run_r : unsigned(1 downto 0) := (others => '0'); signal run_inc : std_logic; begin -- rtl ----------------------------------------------------------------------------- -- Component instantiations ----------------------------------------------------------------------------- exp_rdata_prng: arith_prng generic map ( BITS => D_BITS) port map ( clk => clk, rst => exp_rdata_rst, got => exp_rdata_got, val => exp_rdata_r); wdata_prng: arith_prng generic map ( BITS => D_BITS) port map ( clk => clk, rst => wdata_rst, got => wdata_got, val => wdata_r); ----------------------------------------------------------------------------- -- Datapath not depending on FSM ----------------------------------------------------------------------------- block_finished <= addr_r(A_BITS); rdata_eq_exp <= '1' when rdata_r = std_logic_vector(exp_rdata_r) else '0'; ----------------------------------------------------------------------------- -- Main FSM ----------------------------------------------------------------------------- process (fsm_cs, mem_rdy, block_finished) begin -- process fsm_ns <= fsm_cs; mem_req <= '0'; mem_write <= '-'; run_inc <= '0'; addr_rst <= '0'; addr_inc <= '0'; wdata_rst <= '0'; wdata_got <= '0'; case fsm_cs is when INIT => wdata_rst <= '1'; addr_rst <= '1'; fsm_ns <= WRITE_BLOCK; when WRITE_BLOCK => if block_finished = '1' then addr_rst <= '1'; fsm_ns <= READ_BLOCK; else mem_req <= '1'; mem_write <= '1'; if mem_rdy = '1' then wdata_got <= '1'; addr_inc <= '1'; end if; end if; when READ_BLOCK => if block_finished = '1' then addr_rst <= '1'; fsm_ns <= WRITE_READ1; else -- Note: Read data is checked concurrently. mem_req <= '1'; mem_write <= '0'; if mem_rdy = '1' then addr_inc <= '1'; end if; end if; when WRITE_READ1 => if block_finished = '1' then addr_rst <= '1'; if SIMULATION then fsm_ns <= FINISHED; else run_inc <= '1'; fsm_ns <= WRITE_BLOCK; end if; else mem_req <= '1'; mem_write <= '1'; if mem_rdy = '1' then wdata_got <= '1'; -- do not increment address fsm_ns <= WRITE_READ2; end if; end if; when WRITE_READ2 => -- Note: Read data is checked concurrently. mem_req <= '1'; mem_write <= '0'; if mem_rdy = '1' then addr_inc <= '1'; fsm_ns <= WRITE_READ1; end if; when FINISHED => null; end case; end process; ----------------------------------------------------------------------------- -- Read Check FSM ----------------------------------------------------------------------------- process (chkfsm_cs, rstb_r, rdata_eq_exp) begin -- process chkfsm_ns <= chkfsm_cs; exp_rdata_rst <= '0'; exp_rdata_got <= '0'; rd_failed_rst <= '0'; rd_failed_set <= '0'; case chkfsm_cs is when CHK_INIT => exp_rdata_rst <= '1'; rd_failed_rst <= '1'; chkfsm_ns <= CHK_RUN; when CHK_RUN => if rstb_r = '1' then exp_rdata_got <= '1'; if rdata_eq_exp = '0' then rd_failed_set <= '1'; end if; end if; end case; end process; ----------------------------------------------------------------------------- -- Registers ----------------------------------------------------------------------------- process (clk) begin -- process if rising_edge(clk) then if rst = '1' then fsm_cs <= INIT; chkfsm_cs <= CHK_INIT; run_r <= (others => '0'); else fsm_cs <= fsm_ns; chkfsm_cs <= chkfsm_ns; if run_inc = '1' then run_r <= run_r + 1; end if; end if; if addr_rst = '1' then addr_r <= (others => '0'); elsif addr_inc = '1' then addr_r <= addr_r + 1; end if; if rd_failed_rst = '1' then rd_failed_r <= '0'; elsif rd_failed_set = '1' then rd_failed_r <= '1'; end if; if rst = '1' then rstb_r <= '0'; else rstb_r <= mem_rstb; end if; if mem_rstb = '1' then rdata_r <= mem_rdata; end if; end if; end process; ----------------------------------------------------------------------------- -- Outputs ----------------------------------------------------------------------------- mem_addr <= addr_r(A_BITS-1 downto 0); mem_wdata <= std_logic_vector(wdata_r); status(0) <= rd_failed_r; status(2 downto 1) <= std_logic_vector(run_r); end rtl;
-- ------------------------------------------------------------- -- -- Entity Declaration for inst_k3_k2_e -- -- Generated -- by: wig -- on: Wed Nov 30 09:22:45 2005 -- cmd: /cygdrive/h/work/eclipse/MIX/mix_0.pl ../macro.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: inst_k3_k2_e-e.vhd,v 1.3 2005/11/30 14:04:02 wig Exp $ -- $Date: 2005/11/30 14:04:02 $ -- $Log: inst_k3_k2_e-e.vhd,v $ -- Revision 1.3 2005/11/30 14:04:02 wig -- Updated testcase references -- -- -- Based on Mix Entity Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.71 2005/11/22 11:00:47 wig Exp -- -- Generator: mix_0.pl Version: Revision: 1.42 , wilfried.gaensheimer@micronas.com -- (C) 2003,2005 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/enty -- -- -- Start of Generated Entity inst_k3_k2_e -- entity inst_k3_k2_e is -- Generics: -- No Generated Generics for Entity inst_k3_k2_e -- Generated Port Declaration: port( -- Generated Port for Entity inst_k3_k2_e port1 : in std_ulogic_vector(3 downto 0); -- Macro test 2 k3_k2 port2 : in std_ulogic_vector(3 downto 0); -- Macro test 2 k3_k2 port3 : in std_ulogic_vector(3 downto 0); -- Macro test 2 k3_k2 port_mac : out std_ulogic; -- Macro test 2 k3_k2 __I_AUTO_REDUCED_BUS2SIGNAL port_mac_c : out std_ulogic_vector(6 downto 0) -- Macro test 2 k3_k2 -- End of Generated Port for Entity inst_k3_k2_e ); end inst_k3_k2_e; -- -- End of Generated Entity inst_k3_k2_e -- -- --!End of Entity/ies -- --------------------------------------------------------------
-- ******************************************************************** -- Actel Corporation Proprietary and Confidential -- Copyright 2008 Actel Corporation. All rights reserved. -- -- ANY USE OR REDISTRIBUTION IN PART OR IN WHOLE MUST BE HANDLED IN -- ACCORDANCE WITH THE ACTEL LICENSE AGREEMENT AND MUST BE APPROVED -- IN ADVANCE IN WRITING. -- -- Description: CU_TOP_FPGA_UART_COREUART/ CoreUARTapb UART core -- -- -- Revision Information: -- Date Description -- Jun09 Revision 4.1 -- Aug10 Revision 4.2 -- SVN Revision Information: -- SVN $Revision: 8508 $ -- SVN $Date: 2009-06-15 16:49:49 -0700 (Mon, 15 Jun 2009) $ -- -- Resolved SARs -- SAR Date Who Description -- 20741 2Sep10 AS Increased baud rate by ensuring fifo ctrl runs off -- sys clk (not baud clock). See note below. -- Notes: -- best viewed with tabstops set to "4" LIBRARY IEEE; USE IEEE.std_logic_1164.all; USE IEEE.std_logic_arith.all; USE IEEE.std_logic_unsigned.all; use work.CU_TOP_FPGA_UART_coreuart_pkg.all; ENTITY CU_TOP_FPGA_UART_COREUART IS GENERIC ( FAMILY : INTEGER := 15; -- DEVICE FAMILY -- TX PARAMETERS TX_FIFO : INTEGER := 0; -- 0=WITHOUT TX FIFO, 1=WITH TX FIFO -- RX PARAMETERS RX_FIFO : INTEGER := 0; -- 0=WITHOUT RX FIFO, 1=WITH RX FIFO RX_LEGACY_MODE : INTEGER := 0; --BAUD FRACTION PARAMETER BAUD_VAL_FRCTN_EN : INTEGER := 0 -- 0=DISABLE BAUD FRACTION, 1=ENABLE BAUD FRACTION ); PORT ( RESET_N : IN STD_LOGIC; CLK : IN STD_LOGIC; WEN : IN STD_LOGIC; OEN : IN STD_LOGIC; CSN : IN STD_LOGIC; DATA_IN : IN STD_LOGIC_VECTOR(7 DOWNTO 0); RX : IN STD_LOGIC; BAUD_VAL : IN STD_LOGIC_VECTOR(12 DOWNTO 0); BIT8 : IN STD_LOGIC; -- IF SET TO ONE 8 DATA BITS OTHERWISE 7 DATA BITS PARITY_EN : IN STD_LOGIC; -- IF SET TO ONE PARITY IS ENABLED OTHERWISE DISABLED ODD_N_EVEN : IN STD_LOGIC; -- IF SET TO ONE ODD PARITY OTHERWISE EVEN PARITY BAUD_VAL_FRACTION : IN STD_LOGIC_VECTOR(2 DOWNTO 0); --USED TO ADD EXTRA PRECISION TO BAUD VALUE WHEN BAUD_VAL_FRCTN_EN = 1 PARITY_ERR : OUT STD_LOGIC; -- PARITY ERROR INDICATOR ON RECIEVED DATA OVERFLOW : OUT STD_LOGIC; -- RECEIVER OVERFLOW TXRDY : OUT STD_LOGIC; -- TRANSMIT READY FOR ANOTHER BYTE RXRDY : OUT STD_LOGIC; -- RECEIVER HAS A BYTE READY DATA_OUT : OUT STD_LOGIC_VECTOR(7 DOWNTO 0); TX : OUT STD_LOGIC; FRAMING_ERR : OUT STD_LOGIC); END ENTITY CU_TOP_FPGA_UART_COREUART; ARCHITECTURE translated OF CU_TOP_FPGA_UART_COREUART IS -- State name constant definitions CONSTANT S0 : std_logic_vector(1 DOWNTO 0) := "00"; CONSTANT S1 : std_logic_vector(1 DOWNTO 0) := "01"; CONSTANT S2 : std_logic_vector(1 DOWNTO 0) := "10"; CONSTANT S3 : std_logic_vector(1 DOWNTO 0) := "11"; -- Sync/Async Mode Select CONSTANT SYNC_RESET : INTEGER := SYNC_MODE_SEL(FAMILY); -- Configuration bits -- Status bits SIGNAL overflow_legacy : std_logic; SIGNAL receive_full : std_logic; SIGNAL fifo_write_rx : std_logic; SIGNAL fifo_write : std_logic; SIGNAL xmit_pulse : std_logic; -- transmit pulse SIGNAL baud_clock : std_logic; -- 8x baud clock pulse SIGNAL rst_tx_empty : std_logic; -- reset transmit empty SIGNAL tx_hold_reg : std_logic_vector(7 DOWNTO 0); -- transmit byte hold register SIGNAL tx_dout_reg : std_logic_vector(7 DOWNTO 0); -- transmit byte hold register SIGNAL rx_dout : std_logic_vector(7 DOWNTO 0); -- receive data out SIGNAL read_rx_byte : std_logic; -- read rx byte register SIGNAL rx_dout_reg : std_logic_vector(7 DOWNTO 0); -- receive data out SIGNAL rx_byte : std_logic_vector(7 DOWNTO 0); -- receive byte register SIGNAL rx_byte_in : std_logic_vector(7 DOWNTO 0); -- receive byte register SIGNAL fifo_empty_tx : std_logic; SIGNAL fifo_empty_rx : std_logic; SIGNAL fifo_read_rx : std_logic; SIGNAL fifo_write_tx : std_logic; SIGNAL fifo_read_tx : std_logic; SIGNAL fifo_full_tx : std_logic; SIGNAL fifo_full_rx : std_logic; SIGNAL clear_parity : std_logic; SIGNAL clear_parity_en : std_logic; SIGNAL clear_parity_reg0 : std_logic; SIGNAL clear_parity_reg : std_logic; SIGNAL data_en : std_logic; SIGNAL stop_strobe : std_logic; SIGNAL clear_framing_error : std_logic; -- AS: added framing error self-clear mechanism (RX FIFO mode) SIGNAL clear_framing_error_en : std_logic; SIGNAL clear_framing_error_reg0 : std_logic; SIGNAL clear_framing_error_reg : std_logic; signal rx_idle : std_logic; -- AS: Added this signal for proper framing_error sync SIGNAL framing_err_i : std_logic; -- AS: Internal framing error, for reading -- AS: Added changed overflow operation (new signals required - see below) SIGNAL overflow_reg : std_logic; SIGNAL clear_overflow : std_logic; -- ---------------------------------------------------------------------------- -- cpu reads from UART registers -- ---------------------------------------------------------------------------- SIGNAL temp_xhdl7 : std_logic; SIGNAL temp_xhdl10 : std_logic; SIGNAL temp_xhdl11 : std_logic; SIGNAL temp_xhdl12 : std_logic; SIGNAL temp_xhdl13 : std_logic; SIGNAL temp_xhdl14 : std_logic_vector(7 DOWNTO 0); SIGNAL temp_xhdl16 : std_logic; SIGNAL temp_xhdl17 : std_logic; SIGNAL parity_err_xhdl1 : std_logic; SIGNAL overflow_xhdl2 : std_logic; SIGNAL txrdy_xhdl3 : std_logic; SIGNAL rxrdy_xhdl4 : std_logic; SIGNAL data_out_xhdl5 : std_logic_vector(7 DOWNTO 0); SIGNAL tx_xhdl6 : std_logic; SIGNAL rx_dout_reg_empty : std_logic; SIGNAL rx_state : std_logic_vector(1 DOWNTO 0); SIGNAL next_rx_state : std_logic_vector(1 DOWNTO 0); SIGNAL aresetn : std_logic; SIGNAL sresetn : std_logic; COMPONENT CU_TOP_FPGA_UART_Rx_async GENERIC ( -- RX Parameters RX_FIFO : integer := 0; -- 0=without rx fifo SYNC_RESET : integer := 0); PORT ( clk : IN std_logic; baud_clock : IN std_logic; reset_n : IN std_logic; bit8 : IN std_logic; parity_en : IN std_logic; odd_n_even : IN std_logic; read_rx_byte : IN std_logic; clear_parity : IN std_logic; clear_framing_error : IN std_logic; rx : IN std_logic; overflow : OUT std_logic; parity_err : OUT std_logic; framing_error : OUT std_logic; rx_idle_out : OUT std_logic; -- AS: added this signal to sync framing error properly stop_strobe : OUT std_logic; clear_parity_en : OUT std_logic; clear_framing_error_en : OUT std_logic; receive_full : OUT std_logic; rx_byte : OUT std_logic_vector(7 DOWNTO 0); fifo_write : OUT std_logic ); END COMPONENT; COMPONENT CU_TOP_FPGA_UART_Tx_async GENERIC ( -- TX Parameters TX_FIFO : integer := 0; -- 0=without tx fifo SYNC_RESET : integer := 0); PORT ( clk : IN std_logic; xmit_pulse : IN std_logic; reset_n : IN std_logic; rst_tx_empty : IN std_logic; tx_hold_reg : IN std_logic_vector(7 DOWNTO 0); tx_dout_reg : IN std_logic_vector(7 DOWNTO 0); fifo_empty : IN std_logic; fifo_full : IN std_logic; bit8 : IN std_logic; parity_en : IN std_logic; odd_n_even : IN std_logic; txrdy : OUT std_logic; tx : OUT std_logic; fifo_read_tx : OUT std_logic); END COMPONENT; COMPONENT CU_TOP_FPGA_UART_Clock_gen GENERIC( --BAUD FRACTION Parameter BAUD_VAL_FRCTN_EN : integer := 0; -- 0=disable baud fraction SYNC_RESET : integer := 0); port ( clk : in std_logic; -- system clock reset_n : in std_logic; -- active low async reset baud_val : in std_logic_vector(12 downto 0); -- value loaded into cntr BAUD_VAL_FRACTION : in std_logic_vector(2 downto 0); -- handles fractional part of baud value baud_clock : out std_logic; -- 8x baud clock pulse xmit_pulse : out std_logic -- transmit pulse ); END COMPONENT; COMPONENT CU_TOP_FPGA_UART_fifo_256x8 IS GENERIC ( SYNC_RESET : integer := 0); PORT ( DO : OUT std_logic_vector(7 DOWNTO 0); RCLOCK : IN std_logic; WCLOCK : IN std_logic; DI : IN std_logic_vector(7 DOWNTO 0); WRB : IN std_logic; RDB : IN std_logic; RESET : IN std_logic; FULL : OUT std_logic; EMPTY : OUT std_logic); END COMPONENT; BEGIN aresetn <= '1' WHEN (SYNC_RESET=1) ELSE RESET_N; sresetn <= RESET_N WHEN (SYNC_RESET=1) ELSE '1'; FRAMING_ERR <= framing_err_i; PARITY_ERR <= parity_err_xhdl1; OVERFLOW <= overflow_xhdl2; TXRDY <= txrdy_xhdl3; RXRDY <= rxrdy_xhdl4; DATA_OUT <= data_out_xhdl5; TX <= tx_xhdl6; -- --------------------------------------------------------- -- COMPONENT DECLARATIONS -- --------------------------------------------------------- -- ---------------------------------------------------------------------------- -- cpu writes to UART registers -- ---------------------------------------------------------------------------- reg_write : PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN tx_hold_reg <= '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0'; fifo_write_tx <= '1'; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN tx_hold_reg <= '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0'; fifo_write_tx <= '1'; ELSE fifo_write_tx <= '1'; IF (csn = '0' AND WEn = '0') THEN tx_hold_reg <= DATA_IN; fifo_write_tx <= '0'; END IF; END IF; END IF; END PROCESS reg_write; temp_xhdl7 <= '1' WHEN (WEn = '0' AND csn = '0') ELSE '0'; rst_tx_empty <= temp_xhdl7 ; PROCESS (rx_byte, rx_dout_reg, parity_err_xhdl1) VARIABLE data_out_xhdl5_xhdl8 : std_logic_vector(7 DOWNTO 0); BEGIN IF (RX_FIFO = 2#0#) THEN data_out_xhdl5_xhdl8 := rx_byte; ELSE IF (parity_err_xhdl1 = '1') THEN data_out_xhdl5_xhdl8 := rx_byte; ELSE data_out_xhdl5_xhdl8 := rx_dout_reg; END IF; END IF; data_out_xhdl5 <= data_out_xhdl5_xhdl8; END PROCESS; temp_xhdl10 <= '1' WHEN (csn = '0' AND OEn = '0') ELSE '0'; temp_xhdl11 <= (temp_xhdl10) WHEN (RX_FIFO = 2#0#) ELSE NOT fifo_full_rx; read_rx_byte <= temp_xhdl11 ; temp_xhdl12 <= '1' WHEN (csn = '0' AND OEn = '0') ELSE '0'; temp_xhdl13 <= clear_parity_reg WHEN RX_FIFO /= 0 ELSE (temp_xhdl12); clear_parity <= temp_xhdl13 ; temp_xhdl14 <= rx_byte WHEN (parity_err_xhdl1 = '0') ELSE "00000000"; rx_byte_in <= temp_xhdl14 ; --clear_framing_error <= clear_framing_error_reg WHEN RX_FIFO /= 0 ELSE (temp_xhdl12); clear_framing_error <= temp_xhdl12 WHEN (RX_FIFO = 0) ELSE '1' WHEN (temp_xhdl12 = '1') ELSE clear_framing_error_reg; clear_overflow <= '1' WHEN (csn = '0' AND OEn = '0') ELSE '0'; RXRDY_LEGACY: IF (RX_LEGACY_MODE = 1) GENERATE PROCESS (receive_full, rx_dout_reg_empty) VARIABLE rxrdy_xhdl4_xhdl15 : std_logic; BEGIN IF (RX_FIFO = 2#0#) THEN rxrdy_xhdl4_xhdl15 := receive_full; ELSE rxrdy_xhdl4_xhdl15 := NOT rx_dout_reg_empty; END IF; rxrdy_xhdl4 <= rxrdy_xhdl4_xhdl15; END PROCESS; END GENERATE; -- AS, added 11/17/08 RXRDY_NEW: IF (RX_LEGACY_MODE = 0) GENERATE PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN rxrdy_xhdl4 <= '0'; ELSIF (clk'EVENT AND clk = '1') THEN IF (sresetn = '0') THEN rxrdy_xhdl4 <= '0'; ELSE IF (RX_FIFO = 0) THEN IF (stop_strobe = '1' OR receive_full = '0') THEN rxrdy_xhdl4 <= receive_full; END IF; ELSE IF (stop_strobe = '1' OR rx_dout_reg_empty = '1' or (rx_dout_reg_empty = '0' and (rx_idle = '1' or RX_FIFO = 1))) THEN rxrdy_xhdl4 <= NOT rx_dout_reg_empty; END IF; END IF; END IF; END IF; END PROCESS; END GENERATE; PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN clear_parity_reg <= '0'; clear_parity_reg0 <= '0'; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN clear_parity_reg <= '0'; clear_parity_reg0 <= '0'; ELSE clear_parity_reg0 <= clear_parity_en; clear_parity_reg <= clear_parity_reg0; END IF; END IF; END PROCESS; -- AS: added self-clearing framing error PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN clear_framing_error_reg <= '0'; clear_framing_error_reg0 <= '0'; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN clear_framing_error_reg <= '0'; clear_framing_error_reg0 <= '0'; ELSE clear_framing_error_reg0 <= clear_framing_error_en; clear_framing_error_reg <= clear_framing_error_reg0; END IF; END IF; END PROCESS; -- state machine to control reading from the rx fifo PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN rx_state <= S0; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN rx_state <= S0; ELSE rx_state <= next_rx_state; END IF; END IF; END PROCESS; PROCESS (rx_state, rx_dout_reg_empty, fifo_empty_rx) BEGIN next_rx_state <= rx_state; fifo_read_rx <= '1'; data_en <= '0'; CASE rx_state IS WHEN S0 => IF (rx_dout_reg_empty = '1' AND fifo_empty_rx = '0') THEN next_rx_state <= S1; fifo_read_rx <= '0'; END IF; WHEN S1 => next_rx_state <= S2; WHEN S2 => next_rx_state <= S3; WHEN S3 => next_rx_state <= S0; data_en <= '1'; WHEN others => next_rx_state <= rx_state; END CASE; END PROCESS; PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN rx_dout_reg <= "00000000"; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN rx_dout_reg <= "00000000"; ELSE IF (data_en = '1') THEN rx_dout_reg <= rx_dout; END IF; END IF; END IF; END PROCESS; PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN rx_dout_reg_empty <= '1'; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN rx_dout_reg_empty <= '1'; ELSE IF (data_en = '1') THEN rx_dout_reg_empty <= '0'; ELSE IF (csn = '0' AND OEn = '0') THEN IF (RX_FIFO = 1) THEN IF(parity_err_xhdl1 = '0') THEN rx_dout_reg_empty <= '1'; END IF; ELSE rx_dout_reg_empty <= '1'; END IF; END IF; END IF; END IF; END IF; END PROCESS; PROCESS (CLK, aresetn) BEGIN IF (aresetn = '0') THEN overflow_reg <= '0'; ELSIF (CLK'EVENT AND CLK = '1') THEN IF (sresetn = '0') THEN overflow_reg <= '0'; ELSE IF (fifo_write = '0' AND fifo_full_rx = '1') THEN overflow_reg <= '1'; ELSIF (clear_overflow = '1') THEN overflow_reg <= '0'; ELSE overflow_reg <= overflow_reg; END IF; END IF; END IF; END PROCESS; -- AS: Changed OVERFLOW condition -- - We should not be assigning OVERFLOW to FIFO_FULL; -- instead, we should be asserting OVERFLOW if a write is -- requested while fifo_full_rx is high temp_xhdl16 <= overflow_reg WHEN RX_FIFO /= 0 ELSE overflow_legacy; overflow_xhdl2 <= temp_xhdl16 ; temp_xhdl17 <= '1' WHEN (parity_err_xhdl1 = '1' or fifo_full_rx = '1') ELSE fifo_write; fifo_write_rx <= temp_xhdl17 ; make_CU_TOP_FPGA_UART_Clock_gen : CU_TOP_FPGA_UART_Clock_gen GENERIC MAP ( BAUD_VAL_FRCTN_EN => BAUD_VAL_FRCTN_EN, SYNC_RESET => SYNC_RESET) PORT MAP ( clk => CLK, reset_n => RESET_N, baud_val => BAUD_VAL, BAUD_VAL_FRACTION => BAUD_VAL_FRACTION, baud_clock => baud_clock, xmit_pulse => xmit_pulse); make_TX : CU_TOP_FPGA_UART_Tx_async GENERIC MAP ( TX_FIFO => TX_FIFO, SYNC_RESET => SYNC_RESET) PORT MAP ( clk => CLK, xmit_pulse => xmit_pulse, reset_n => RESET_N, rst_tx_empty => rst_tx_empty, tx_hold_reg => tx_hold_reg, tx_dout_reg => tx_dout_reg, fifo_empty => fifo_empty_tx, fifo_full => fifo_full_tx, bit8 => bit8, parity_en => parity_en, odd_n_even => odd_n_even, txrdy => txrdy_xhdl3, tx => tx_xhdl6, fifo_read_tx => fifo_read_tx); make_RX : CU_TOP_FPGA_UART_Rx_async GENERIC MAP ( RX_FIFO => RX_FIFO, SYNC_RESET => SYNC_RESET) PORT MAP ( clk => CLK, baud_clock => baud_clock, reset_n => RESET_N, bit8 => bit8, parity_en => parity_en, odd_n_even => odd_n_even, read_rx_byte => read_rx_byte, clear_parity => clear_parity, rx => RX, overflow => overflow_legacy, parity_err => parity_err_xhdl1, clear_parity_en => clear_parity_en, receive_full => receive_full, rx_byte => rx_byte, fifo_write => fifo_write, clear_framing_error => clear_framing_error, clear_framing_error_en => clear_framing_error_en, framing_error => framing_err_i, rx_idle_out => rx_idle, stop_strobe => stop_strobe); UG06a:IF (TX_FIFO = 2#1#) GENERATE tx_fifo_xhdl79 : CU_TOP_FPGA_UART_fifo_256x8 GENERIC MAP ( SYNC_RESET => SYNC_RESET) PORT MAP ( DO => tx_dout_reg, RCLOCK => clk, WCLOCK => clk, -- AS: FIXED SARno 12821 -- DI => data_in, DI => tx_hold_reg, WRB => fifo_write_tx, RDB => fifo_read_tx, RESET => reset_n, FULL => fifo_full_tx, EMPTY => fifo_empty_tx); END GENERATE; UG06b:IF (TX_FIFO = 2#0#) GENERATE tx_dout_reg <= "00000000"; fifo_full_tx <='0'; fifo_empty_tx <='0'; END GENERATE; UG07:IF (RX_FIFO = 2#1#) GENERATE rx_fifo_xhdl80 : CU_TOP_FPGA_UART_fifo_256x8 GENERIC MAP ( SYNC_RESET => SYNC_RESET) PORT MAP ( DO => rx_dout, RCLOCK => clk, WCLOCK => clk, DI => rx_byte_in, WRB => fifo_write_rx, RDB => fifo_read_rx, RESET => reset_n, FULL => fifo_full_rx, EMPTY => fifo_empty_rx); END GENERATE; UG07b:IF (RX_FIFO = 2#0#) GENERATE rx_dout <= "00000000"; fifo_full_rx <='0'; fifo_empty_rx <='0'; END GENERATE; END ARCHITECTURE translated;
-- (c) Copyright 1995-2017 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- -- DO NOT MODIFY THIS FILE. -- IP VLNV: xilinx.com:ip:mutex:2.1 -- IP Revision: 8 LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; LIBRARY mutex_v2_1_8; USE mutex_v2_1_8.mutex; ENTITY DemoInterconnect_mutex_0_0 IS PORT ( S0_AXI_ACLK : IN STD_LOGIC; S0_AXI_ARESETN : IN STD_LOGIC; S0_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_AWVALID : IN STD_LOGIC; S0_AXI_AWREADY : OUT STD_LOGIC; S0_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S0_AXI_WVALID : IN STD_LOGIC; S0_AXI_WREADY : OUT STD_LOGIC; S0_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_BVALID : OUT STD_LOGIC; S0_AXI_BREADY : IN STD_LOGIC; S0_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_ARVALID : IN STD_LOGIC; S0_AXI_ARREADY : OUT STD_LOGIC; S0_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_RVALID : OUT STD_LOGIC; S0_AXI_RREADY : IN STD_LOGIC; S1_AXI_ACLK : IN STD_LOGIC; S1_AXI_ARESETN : IN STD_LOGIC; S1_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_AWVALID : IN STD_LOGIC; S1_AXI_AWREADY : OUT STD_LOGIC; S1_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S1_AXI_WVALID : IN STD_LOGIC; S1_AXI_WREADY : OUT STD_LOGIC; S1_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_BVALID : OUT STD_LOGIC; S1_AXI_BREADY : IN STD_LOGIC; S1_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_ARVALID : IN STD_LOGIC; S1_AXI_ARREADY : OUT STD_LOGIC; S1_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_RVALID : OUT STD_LOGIC; S1_AXI_RREADY : IN STD_LOGIC; S2_AXI_ACLK : IN STD_LOGIC; S2_AXI_ARESETN : IN STD_LOGIC; S2_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_AWVALID : IN STD_LOGIC; S2_AXI_AWREADY : OUT STD_LOGIC; S2_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S2_AXI_WVALID : IN STD_LOGIC; S2_AXI_WREADY : OUT STD_LOGIC; S2_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_BVALID : OUT STD_LOGIC; S2_AXI_BREADY : IN STD_LOGIC; S2_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_ARVALID : IN STD_LOGIC; S2_AXI_ARREADY : OUT STD_LOGIC; S2_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_RVALID : OUT STD_LOGIC; S2_AXI_RREADY : IN STD_LOGIC ); END DemoInterconnect_mutex_0_0; ARCHITECTURE DemoInterconnect_mutex_0_0_arch OF DemoInterconnect_mutex_0_0 IS ATTRIBUTE DowngradeIPIdentifiedWarnings : STRING; ATTRIBUTE DowngradeIPIdentifiedWarnings OF DemoInterconnect_mutex_0_0_arch: ARCHITECTURE IS "yes"; COMPONENT mutex IS GENERIC ( C_FAMILY : STRING; C_NUM_AXI : INTEGER; C_S0_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S0_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S0_AXI_ADDR_WIDTH : INTEGER; C_S0_AXI_DATA_WIDTH : INTEGER; C_S1_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S1_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S1_AXI_ADDR_WIDTH : INTEGER; C_S1_AXI_DATA_WIDTH : INTEGER; C_S2_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S2_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S2_AXI_ADDR_WIDTH : INTEGER; C_S2_AXI_DATA_WIDTH : INTEGER; C_S3_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S3_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S3_AXI_ADDR_WIDTH : INTEGER; C_S3_AXI_DATA_WIDTH : INTEGER; C_S4_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S4_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S4_AXI_ADDR_WIDTH : INTEGER; C_S4_AXI_DATA_WIDTH : INTEGER; C_S5_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S5_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S5_AXI_ADDR_WIDTH : INTEGER; C_S5_AXI_DATA_WIDTH : INTEGER; C_S6_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S6_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S6_AXI_ADDR_WIDTH : INTEGER; C_S6_AXI_DATA_WIDTH : INTEGER; C_S7_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S7_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S7_AXI_ADDR_WIDTH : INTEGER; C_S7_AXI_DATA_WIDTH : INTEGER; C_ASYNC_CLKS : INTEGER; C_NUM_SYNC_FF : INTEGER; C_ENABLE_USER : INTEGER; C_OWNER_ID_WIDTH : INTEGER; C_ENABLE_HW_PROT : INTEGER; C_NUM_MUTEX : INTEGER ); PORT ( S0_AXI_ACLK : IN STD_LOGIC; S0_AXI_ARESETN : IN STD_LOGIC; S0_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_AWVALID : IN STD_LOGIC; S0_AXI_AWREADY : OUT STD_LOGIC; S0_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S0_AXI_WVALID : IN STD_LOGIC; S0_AXI_WREADY : OUT STD_LOGIC; S0_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_BVALID : OUT STD_LOGIC; S0_AXI_BREADY : IN STD_LOGIC; S0_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_ARVALID : IN STD_LOGIC; S0_AXI_ARREADY : OUT STD_LOGIC; S0_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_RVALID : OUT STD_LOGIC; S0_AXI_RREADY : IN STD_LOGIC; S1_AXI_ACLK : IN STD_LOGIC; S1_AXI_ARESETN : IN STD_LOGIC; S1_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_AWVALID : IN STD_LOGIC; S1_AXI_AWREADY : OUT STD_LOGIC; S1_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S1_AXI_WVALID : IN STD_LOGIC; S1_AXI_WREADY : OUT STD_LOGIC; S1_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_BVALID : OUT STD_LOGIC; S1_AXI_BREADY : IN STD_LOGIC; S1_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_ARVALID : IN STD_LOGIC; S1_AXI_ARREADY : OUT STD_LOGIC; S1_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_RVALID : OUT STD_LOGIC; S1_AXI_RREADY : IN STD_LOGIC; S2_AXI_ACLK : IN STD_LOGIC; S2_AXI_ARESETN : IN STD_LOGIC; S2_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_AWVALID : IN STD_LOGIC; S2_AXI_AWREADY : OUT STD_LOGIC; S2_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S2_AXI_WVALID : IN STD_LOGIC; S2_AXI_WREADY : OUT STD_LOGIC; S2_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_BVALID : OUT STD_LOGIC; S2_AXI_BREADY : IN STD_LOGIC; S2_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_ARVALID : IN STD_LOGIC; S2_AXI_ARREADY : OUT STD_LOGIC; S2_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_RVALID : OUT STD_LOGIC; S2_AXI_RREADY : IN STD_LOGIC; S3_AXI_ACLK : IN STD_LOGIC; S3_AXI_ARESETN : IN STD_LOGIC; S3_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_AWVALID : IN STD_LOGIC; S3_AXI_AWREADY : OUT STD_LOGIC; S3_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S3_AXI_WVALID : IN STD_LOGIC; S3_AXI_WREADY : OUT STD_LOGIC; S3_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S3_AXI_BVALID : OUT STD_LOGIC; S3_AXI_BREADY : IN STD_LOGIC; S3_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_ARVALID : IN STD_LOGIC; S3_AXI_ARREADY : OUT STD_LOGIC; S3_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S3_AXI_RVALID : OUT STD_LOGIC; S3_AXI_RREADY : IN STD_LOGIC; S4_AXI_ACLK : IN STD_LOGIC; S4_AXI_ARESETN : IN STD_LOGIC; S4_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_AWVALID : IN STD_LOGIC; S4_AXI_AWREADY : OUT STD_LOGIC; S4_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S4_AXI_WVALID : IN STD_LOGIC; S4_AXI_WREADY : OUT STD_LOGIC; S4_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S4_AXI_BVALID : OUT STD_LOGIC; S4_AXI_BREADY : IN STD_LOGIC; S4_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_ARVALID : IN STD_LOGIC; S4_AXI_ARREADY : OUT STD_LOGIC; S4_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S4_AXI_RVALID : OUT STD_LOGIC; S4_AXI_RREADY : IN STD_LOGIC; S5_AXI_ACLK : IN STD_LOGIC; S5_AXI_ARESETN : IN STD_LOGIC; S5_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_AWVALID : IN STD_LOGIC; S5_AXI_AWREADY : OUT STD_LOGIC; S5_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S5_AXI_WVALID : IN STD_LOGIC; S5_AXI_WREADY : OUT STD_LOGIC; S5_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S5_AXI_BVALID : OUT STD_LOGIC; S5_AXI_BREADY : IN STD_LOGIC; S5_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_ARVALID : IN STD_LOGIC; S5_AXI_ARREADY : OUT STD_LOGIC; S5_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S5_AXI_RVALID : OUT STD_LOGIC; S5_AXI_RREADY : IN STD_LOGIC; S6_AXI_ACLK : IN STD_LOGIC; S6_AXI_ARESETN : IN STD_LOGIC; S6_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_AWVALID : IN STD_LOGIC; S6_AXI_AWREADY : OUT STD_LOGIC; S6_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S6_AXI_WVALID : IN STD_LOGIC; S6_AXI_WREADY : OUT STD_LOGIC; S6_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S6_AXI_BVALID : OUT STD_LOGIC; S6_AXI_BREADY : IN STD_LOGIC; S6_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_ARVALID : IN STD_LOGIC; S6_AXI_ARREADY : OUT STD_LOGIC; S6_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S6_AXI_RVALID : OUT STD_LOGIC; S6_AXI_RREADY : IN STD_LOGIC; S7_AXI_ACLK : IN STD_LOGIC; S7_AXI_ARESETN : IN STD_LOGIC; S7_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_AWVALID : IN STD_LOGIC; S7_AXI_AWREADY : OUT STD_LOGIC; S7_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S7_AXI_WVALID : IN STD_LOGIC; S7_AXI_WREADY : OUT STD_LOGIC; S7_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S7_AXI_BVALID : OUT STD_LOGIC; S7_AXI_BREADY : IN STD_LOGIC; S7_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_ARVALID : IN STD_LOGIC; S7_AXI_ARREADY : OUT STD_LOGIC; S7_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S7_AXI_RVALID : OUT STD_LOGIC; S7_AXI_RREADY : IN STD_LOGIC ); END COMPONENT mutex; ATTRIBUTE X_INTERFACE_INFO : STRING; ATTRIBUTE X_INTERFACE_PARAMETER : STRING; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RRESP"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RDATA"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI ARREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI ARVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI ARADDR"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_BREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI BREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_BVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI BVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_BRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI BRESP"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WSTRB: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WSTRB"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WDATA"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_AWREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI AWREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_AWVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI AWVALID"; ATTRIBUTE X_INTERFACE_PARAMETER OF S2_AXI_AWADDR: SIGNAL IS "XIL_INTERFACENAME S2_AXI, DATA_WIDTH 32, PROTOCOL AXI4LITE, FREQ_HZ 72000000, ID_WIDTH 0, ADDR_WIDTH 32, AWUSER_WIDTH 0, ARUSER_WIDTH 0, WUSER_WIDTH 0, RUSER_WIDTH 0, BUSER_WIDTH 0, READ_WRITE_MODE READ_WRITE, HAS_BURST 0, HAS_LOCK 0, HAS_PROT 0, HAS_CACHE 0, HAS_QOS 0, HAS_REGION 0, HAS_WSTRB 1, HAS_BRESP 1, HAS_RRESP 1, SUPPORTS_NARROW_BURST 0, NUM_READ_OUTSTANDING 2, NUM_WRITE_OUTSTANDING 2, MAX_BURST_LENGTH 1, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1, NUM_READ_THREADS 1, NUM_WRITE_THREADS 1, RUSER_BITS_PER_BYTE 0, WUSER_BITS_PER_BYTE 0"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_AWADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI AWADDR"; ATTRIBUTE X_INTERFACE_PARAMETER OF S2_AXI_ARESETN: SIGNAL IS "XIL_INTERFACENAME RST.S2_AXI_ARESETN, POLARITY ACTIVE_LOW"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARESETN: SIGNAL IS "xilinx.com:signal:reset:1.0 RST.S2_AXI_ARESETN RST"; ATTRIBUTE X_INTERFACE_PARAMETER OF S2_AXI_ACLK: SIGNAL IS "XIL_INTERFACENAME CLK.S2_AXI_ACLK, ASSOCIATED_BUSIF S2_AXI, ASSOCIATED_RESET S2_AXI_ARESETN, FREQ_HZ 72000000, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ACLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK.S2_AXI_ACLK CLK"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RRESP"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RDATA"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI ARREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI ARVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI ARADDR"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_BREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI BREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_BVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI BVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_BRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI BRESP"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WSTRB: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WSTRB"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WDATA"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_AWREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI AWREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_AWVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI AWVALID"; ATTRIBUTE X_INTERFACE_PARAMETER OF S1_AXI_AWADDR: SIGNAL IS "XIL_INTERFACENAME S1_AXI, DATA_WIDTH 32, PROTOCOL AXI4LITE, FREQ_HZ 72000000, ID_WIDTH 0, ADDR_WIDTH 32, AWUSER_WIDTH 0, ARUSER_WIDTH 0, WUSER_WIDTH 0, RUSER_WIDTH 0, BUSER_WIDTH 0, READ_WRITE_MODE READ_WRITE, HAS_BURST 0, HAS_LOCK 0, HAS_PROT 0, HAS_CACHE 0, HAS_QOS 0, HAS_REGION 0, HAS_WSTRB 1, HAS_BRESP 1, HAS_RRESP 1, SUPPORTS_NARROW_BURST 0, NUM_READ_OUTSTANDING 2, NUM_WRITE_OUTSTANDING 2, MAX_BURST_LENGTH 1, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1, NUM_READ_THREADS 1, NUM_WRITE_THREADS 1, RUSER_BITS_PER_BYTE 0, WUSER_BITS_PER_BYTE 0"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_AWADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI AWADDR"; ATTRIBUTE X_INTERFACE_PARAMETER OF S1_AXI_ARESETN: SIGNAL IS "XIL_INTERFACENAME RST.S1_AXI_ARESETN, POLARITY ACTIVE_LOW"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARESETN: SIGNAL IS "xilinx.com:signal:reset:1.0 RST.S1_AXI_ARESETN RST"; ATTRIBUTE X_INTERFACE_PARAMETER OF S1_AXI_ACLK: SIGNAL IS "XIL_INTERFACENAME CLK.S1_AXI_ACLK, ASSOCIATED_BUSIF S1_AXI, ASSOCIATED_RESET S1_AXI_ARESETN, FREQ_HZ 72000000, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ACLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK.S1_AXI_ACLK CLK"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RRESP"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RDATA"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI ARREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI ARVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI ARADDR"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_BREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI BREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_BVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI BVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_BRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI BRESP"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WSTRB: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WSTRB"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WDATA"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_AWREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI AWREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_AWVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI AWVALID"; ATTRIBUTE X_INTERFACE_PARAMETER OF S0_AXI_AWADDR: SIGNAL IS "XIL_INTERFACENAME S0_AXI, DATA_WIDTH 32, PROTOCOL AXI4LITE, FREQ_HZ 72000000, ID_WIDTH 0, ADDR_WIDTH 32, AWUSER_WIDTH 0, ARUSER_WIDTH 0, WUSER_WIDTH 0, RUSER_WIDTH 0, BUSER_WIDTH 0, READ_WRITE_MODE READ_WRITE, HAS_BURST 0, HAS_LOCK 0, HAS_PROT 0, HAS_CACHE 0, HAS_QOS 0, HAS_REGION 0, HAS_WSTRB 1, HAS_BRESP 1, HAS_RRESP 1, SUPPORTS_NARROW_BURST 0, NUM_READ_OUTSTANDING 2, NUM_WRITE_OUTSTANDING 2, MAX_BURST_LENGTH 1, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1, NUM_READ_THREADS 1, NUM_WRITE_THREADS 1, RUSER_BITS_PER_BYTE 0, WUSER_BITS_PER_BYTE 0"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_AWADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI AWADDR"; ATTRIBUTE X_INTERFACE_PARAMETER OF S0_AXI_ARESETN: SIGNAL IS "XIL_INTERFACENAME RST.S0_AXI_ARESETN, POLARITY ACTIVE_LOW"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARESETN: SIGNAL IS "xilinx.com:signal:reset:1.0 RST.S0_AXI_ARESETN RST"; ATTRIBUTE X_INTERFACE_PARAMETER OF S0_AXI_ACLK: SIGNAL IS "XIL_INTERFACENAME CLK.S0_AXI_ACLK, ASSOCIATED_BUSIF S0_AXI, ASSOCIATED_RESET S0_AXI_ARESETN, FREQ_HZ 72000000, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ACLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK.S0_AXI_ACLK CLK"; BEGIN U0 : mutex GENERIC MAP ( C_FAMILY => "artix7", C_NUM_AXI => 3, C_S0_AXI_BASEADDR => X"00100000", C_S0_AXI_HIGHADDR => X"0010FFFF", C_S0_AXI_ADDR_WIDTH => 32, C_S0_AXI_DATA_WIDTH => 32, C_S1_AXI_BASEADDR => X"00200000", C_S1_AXI_HIGHADDR => X"0020FFFF", C_S1_AXI_ADDR_WIDTH => 32, C_S1_AXI_DATA_WIDTH => 32, C_S2_AXI_BASEADDR => X"00300000", C_S2_AXI_HIGHADDR => X"0030FFFF", C_S2_AXI_ADDR_WIDTH => 32, C_S2_AXI_DATA_WIDTH => 32, C_S3_AXI_BASEADDR => X"FFFFFFFF", C_S3_AXI_HIGHADDR => X"00000000", C_S3_AXI_ADDR_WIDTH => 32, C_S3_AXI_DATA_WIDTH => 32, C_S4_AXI_BASEADDR => X"FFFFFFFF", C_S4_AXI_HIGHADDR => X"00000000", C_S4_AXI_ADDR_WIDTH => 32, C_S4_AXI_DATA_WIDTH => 32, C_S5_AXI_BASEADDR => X"FFFFFFFF", C_S5_AXI_HIGHADDR => X"00000000", C_S5_AXI_ADDR_WIDTH => 32, C_S5_AXI_DATA_WIDTH => 32, C_S6_AXI_BASEADDR => X"FFFFFFFF", C_S6_AXI_HIGHADDR => X"00000000", C_S6_AXI_ADDR_WIDTH => 32, C_S6_AXI_DATA_WIDTH => 32, C_S7_AXI_BASEADDR => X"FFFFFFFF", C_S7_AXI_HIGHADDR => X"00000000", C_S7_AXI_ADDR_WIDTH => 32, C_S7_AXI_DATA_WIDTH => 32, C_ASYNC_CLKS => 0, C_NUM_SYNC_FF => 2, C_ENABLE_USER => 1, C_OWNER_ID_WIDTH => 8, C_ENABLE_HW_PROT => 1, C_NUM_MUTEX => 16 ) PORT MAP ( S0_AXI_ACLK => S0_AXI_ACLK, S0_AXI_ARESETN => S0_AXI_ARESETN, S0_AXI_AWADDR => S0_AXI_AWADDR, S0_AXI_AWVALID => S0_AXI_AWVALID, S0_AXI_AWREADY => S0_AXI_AWREADY, S0_AXI_WDATA => S0_AXI_WDATA, S0_AXI_WSTRB => S0_AXI_WSTRB, S0_AXI_WVALID => S0_AXI_WVALID, S0_AXI_WREADY => S0_AXI_WREADY, S0_AXI_BRESP => S0_AXI_BRESP, S0_AXI_BVALID => S0_AXI_BVALID, S0_AXI_BREADY => S0_AXI_BREADY, S0_AXI_ARADDR => S0_AXI_ARADDR, S0_AXI_ARVALID => S0_AXI_ARVALID, S0_AXI_ARREADY => S0_AXI_ARREADY, S0_AXI_RDATA => S0_AXI_RDATA, S0_AXI_RRESP => S0_AXI_RRESP, S0_AXI_RVALID => S0_AXI_RVALID, S0_AXI_RREADY => S0_AXI_RREADY, S1_AXI_ACLK => S1_AXI_ACLK, S1_AXI_ARESETN => S1_AXI_ARESETN, S1_AXI_AWADDR => S1_AXI_AWADDR, S1_AXI_AWVALID => S1_AXI_AWVALID, S1_AXI_AWREADY => S1_AXI_AWREADY, S1_AXI_WDATA => S1_AXI_WDATA, S1_AXI_WSTRB => S1_AXI_WSTRB, S1_AXI_WVALID => S1_AXI_WVALID, S1_AXI_WREADY => S1_AXI_WREADY, S1_AXI_BRESP => S1_AXI_BRESP, S1_AXI_BVALID => S1_AXI_BVALID, S1_AXI_BREADY => S1_AXI_BREADY, S1_AXI_ARADDR => S1_AXI_ARADDR, S1_AXI_ARVALID => S1_AXI_ARVALID, S1_AXI_ARREADY => S1_AXI_ARREADY, S1_AXI_RDATA => S1_AXI_RDATA, S1_AXI_RRESP => S1_AXI_RRESP, S1_AXI_RVALID => S1_AXI_RVALID, S1_AXI_RREADY => S1_AXI_RREADY, S2_AXI_ACLK => S2_AXI_ACLK, S2_AXI_ARESETN => S2_AXI_ARESETN, S2_AXI_AWADDR => S2_AXI_AWADDR, S2_AXI_AWVALID => S2_AXI_AWVALID, S2_AXI_AWREADY => S2_AXI_AWREADY, S2_AXI_WDATA => S2_AXI_WDATA, S2_AXI_WSTRB => S2_AXI_WSTRB, S2_AXI_WVALID => S2_AXI_WVALID, S2_AXI_WREADY => S2_AXI_WREADY, S2_AXI_BRESP => S2_AXI_BRESP, S2_AXI_BVALID => S2_AXI_BVALID, S2_AXI_BREADY => S2_AXI_BREADY, S2_AXI_ARADDR => S2_AXI_ARADDR, S2_AXI_ARVALID => S2_AXI_ARVALID, S2_AXI_ARREADY => S2_AXI_ARREADY, S2_AXI_RDATA => S2_AXI_RDATA, S2_AXI_RRESP => S2_AXI_RRESP, S2_AXI_RVALID => S2_AXI_RVALID, S2_AXI_RREADY => S2_AXI_RREADY, S3_AXI_ACLK => '0', S3_AXI_ARESETN => '0', S3_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S3_AXI_AWVALID => '0', S3_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S3_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S3_AXI_WVALID => '0', S3_AXI_BREADY => '0', S3_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S3_AXI_ARVALID => '0', S3_AXI_RREADY => '0', S4_AXI_ACLK => '0', S4_AXI_ARESETN => '0', S4_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S4_AXI_AWVALID => '0', S4_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S4_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S4_AXI_WVALID => '0', S4_AXI_BREADY => '0', S4_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S4_AXI_ARVALID => '0', S4_AXI_RREADY => '0', S5_AXI_ACLK => '0', S5_AXI_ARESETN => '0', S5_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S5_AXI_AWVALID => '0', S5_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S5_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S5_AXI_WVALID => '0', S5_AXI_BREADY => '0', S5_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S5_AXI_ARVALID => '0', S5_AXI_RREADY => '0', S6_AXI_ACLK => '0', S6_AXI_ARESETN => '0', S6_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S6_AXI_AWVALID => '0', S6_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S6_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S6_AXI_WVALID => '0', S6_AXI_BREADY => '0', S6_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S6_AXI_ARVALID => '0', S6_AXI_RREADY => '0', S7_AXI_ACLK => '0', S7_AXI_ARESETN => '0', S7_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S7_AXI_AWVALID => '0', S7_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S7_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S7_AXI_WVALID => '0', S7_AXI_BREADY => '0', S7_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S7_AXI_ARVALID => '0', S7_AXI_RREADY => '0' ); END DemoInterconnect_mutex_0_0_arch;
-- (c) Copyright 1995-2017 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- -- DO NOT MODIFY THIS FILE. -- IP VLNV: xilinx.com:ip:mutex:2.1 -- IP Revision: 8 LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; LIBRARY mutex_v2_1_8; USE mutex_v2_1_8.mutex; ENTITY DemoInterconnect_mutex_0_0 IS PORT ( S0_AXI_ACLK : IN STD_LOGIC; S0_AXI_ARESETN : IN STD_LOGIC; S0_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_AWVALID : IN STD_LOGIC; S0_AXI_AWREADY : OUT STD_LOGIC; S0_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S0_AXI_WVALID : IN STD_LOGIC; S0_AXI_WREADY : OUT STD_LOGIC; S0_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_BVALID : OUT STD_LOGIC; S0_AXI_BREADY : IN STD_LOGIC; S0_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_ARVALID : IN STD_LOGIC; S0_AXI_ARREADY : OUT STD_LOGIC; S0_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_RVALID : OUT STD_LOGIC; S0_AXI_RREADY : IN STD_LOGIC; S1_AXI_ACLK : IN STD_LOGIC; S1_AXI_ARESETN : IN STD_LOGIC; S1_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_AWVALID : IN STD_LOGIC; S1_AXI_AWREADY : OUT STD_LOGIC; S1_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S1_AXI_WVALID : IN STD_LOGIC; S1_AXI_WREADY : OUT STD_LOGIC; S1_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_BVALID : OUT STD_LOGIC; S1_AXI_BREADY : IN STD_LOGIC; S1_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_ARVALID : IN STD_LOGIC; S1_AXI_ARREADY : OUT STD_LOGIC; S1_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_RVALID : OUT STD_LOGIC; S1_AXI_RREADY : IN STD_LOGIC; S2_AXI_ACLK : IN STD_LOGIC; S2_AXI_ARESETN : IN STD_LOGIC; S2_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_AWVALID : IN STD_LOGIC; S2_AXI_AWREADY : OUT STD_LOGIC; S2_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S2_AXI_WVALID : IN STD_LOGIC; S2_AXI_WREADY : OUT STD_LOGIC; S2_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_BVALID : OUT STD_LOGIC; S2_AXI_BREADY : IN STD_LOGIC; S2_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_ARVALID : IN STD_LOGIC; S2_AXI_ARREADY : OUT STD_LOGIC; S2_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_RVALID : OUT STD_LOGIC; S2_AXI_RREADY : IN STD_LOGIC ); END DemoInterconnect_mutex_0_0; ARCHITECTURE DemoInterconnect_mutex_0_0_arch OF DemoInterconnect_mutex_0_0 IS ATTRIBUTE DowngradeIPIdentifiedWarnings : STRING; ATTRIBUTE DowngradeIPIdentifiedWarnings OF DemoInterconnect_mutex_0_0_arch: ARCHITECTURE IS "yes"; COMPONENT mutex IS GENERIC ( C_FAMILY : STRING; C_NUM_AXI : INTEGER; C_S0_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S0_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S0_AXI_ADDR_WIDTH : INTEGER; C_S0_AXI_DATA_WIDTH : INTEGER; C_S1_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S1_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S1_AXI_ADDR_WIDTH : INTEGER; C_S1_AXI_DATA_WIDTH : INTEGER; C_S2_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S2_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S2_AXI_ADDR_WIDTH : INTEGER; C_S2_AXI_DATA_WIDTH : INTEGER; C_S3_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S3_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S3_AXI_ADDR_WIDTH : INTEGER; C_S3_AXI_DATA_WIDTH : INTEGER; C_S4_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S4_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S4_AXI_ADDR_WIDTH : INTEGER; C_S4_AXI_DATA_WIDTH : INTEGER; C_S5_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S5_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S5_AXI_ADDR_WIDTH : INTEGER; C_S5_AXI_DATA_WIDTH : INTEGER; C_S6_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S6_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S6_AXI_ADDR_WIDTH : INTEGER; C_S6_AXI_DATA_WIDTH : INTEGER; C_S7_AXI_BASEADDR : STD_LOGIC_VECTOR; C_S7_AXI_HIGHADDR : STD_LOGIC_VECTOR; C_S7_AXI_ADDR_WIDTH : INTEGER; C_S7_AXI_DATA_WIDTH : INTEGER; C_ASYNC_CLKS : INTEGER; C_NUM_SYNC_FF : INTEGER; C_ENABLE_USER : INTEGER; C_OWNER_ID_WIDTH : INTEGER; C_ENABLE_HW_PROT : INTEGER; C_NUM_MUTEX : INTEGER ); PORT ( S0_AXI_ACLK : IN STD_LOGIC; S0_AXI_ARESETN : IN STD_LOGIC; S0_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_AWVALID : IN STD_LOGIC; S0_AXI_AWREADY : OUT STD_LOGIC; S0_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S0_AXI_WVALID : IN STD_LOGIC; S0_AXI_WREADY : OUT STD_LOGIC; S0_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_BVALID : OUT STD_LOGIC; S0_AXI_BREADY : IN STD_LOGIC; S0_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_ARVALID : IN STD_LOGIC; S0_AXI_ARREADY : OUT STD_LOGIC; S0_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S0_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S0_AXI_RVALID : OUT STD_LOGIC; S0_AXI_RREADY : IN STD_LOGIC; S1_AXI_ACLK : IN STD_LOGIC; S1_AXI_ARESETN : IN STD_LOGIC; S1_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_AWVALID : IN STD_LOGIC; S1_AXI_AWREADY : OUT STD_LOGIC; S1_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S1_AXI_WVALID : IN STD_LOGIC; S1_AXI_WREADY : OUT STD_LOGIC; S1_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_BVALID : OUT STD_LOGIC; S1_AXI_BREADY : IN STD_LOGIC; S1_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_ARVALID : IN STD_LOGIC; S1_AXI_ARREADY : OUT STD_LOGIC; S1_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S1_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S1_AXI_RVALID : OUT STD_LOGIC; S1_AXI_RREADY : IN STD_LOGIC; S2_AXI_ACLK : IN STD_LOGIC; S2_AXI_ARESETN : IN STD_LOGIC; S2_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_AWVALID : IN STD_LOGIC; S2_AXI_AWREADY : OUT STD_LOGIC; S2_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S2_AXI_WVALID : IN STD_LOGIC; S2_AXI_WREADY : OUT STD_LOGIC; S2_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_BVALID : OUT STD_LOGIC; S2_AXI_BREADY : IN STD_LOGIC; S2_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_ARVALID : IN STD_LOGIC; S2_AXI_ARREADY : OUT STD_LOGIC; S2_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S2_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S2_AXI_RVALID : OUT STD_LOGIC; S2_AXI_RREADY : IN STD_LOGIC; S3_AXI_ACLK : IN STD_LOGIC; S3_AXI_ARESETN : IN STD_LOGIC; S3_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_AWVALID : IN STD_LOGIC; S3_AXI_AWREADY : OUT STD_LOGIC; S3_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S3_AXI_WVALID : IN STD_LOGIC; S3_AXI_WREADY : OUT STD_LOGIC; S3_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S3_AXI_BVALID : OUT STD_LOGIC; S3_AXI_BREADY : IN STD_LOGIC; S3_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_ARVALID : IN STD_LOGIC; S3_AXI_ARREADY : OUT STD_LOGIC; S3_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S3_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S3_AXI_RVALID : OUT STD_LOGIC; S3_AXI_RREADY : IN STD_LOGIC; S4_AXI_ACLK : IN STD_LOGIC; S4_AXI_ARESETN : IN STD_LOGIC; S4_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_AWVALID : IN STD_LOGIC; S4_AXI_AWREADY : OUT STD_LOGIC; S4_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S4_AXI_WVALID : IN STD_LOGIC; S4_AXI_WREADY : OUT STD_LOGIC; S4_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S4_AXI_BVALID : OUT STD_LOGIC; S4_AXI_BREADY : IN STD_LOGIC; S4_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_ARVALID : IN STD_LOGIC; S4_AXI_ARREADY : OUT STD_LOGIC; S4_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S4_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S4_AXI_RVALID : OUT STD_LOGIC; S4_AXI_RREADY : IN STD_LOGIC; S5_AXI_ACLK : IN STD_LOGIC; S5_AXI_ARESETN : IN STD_LOGIC; S5_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_AWVALID : IN STD_LOGIC; S5_AXI_AWREADY : OUT STD_LOGIC; S5_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S5_AXI_WVALID : IN STD_LOGIC; S5_AXI_WREADY : OUT STD_LOGIC; S5_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S5_AXI_BVALID : OUT STD_LOGIC; S5_AXI_BREADY : IN STD_LOGIC; S5_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_ARVALID : IN STD_LOGIC; S5_AXI_ARREADY : OUT STD_LOGIC; S5_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S5_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S5_AXI_RVALID : OUT STD_LOGIC; S5_AXI_RREADY : IN STD_LOGIC; S6_AXI_ACLK : IN STD_LOGIC; S6_AXI_ARESETN : IN STD_LOGIC; S6_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_AWVALID : IN STD_LOGIC; S6_AXI_AWREADY : OUT STD_LOGIC; S6_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S6_AXI_WVALID : IN STD_LOGIC; S6_AXI_WREADY : OUT STD_LOGIC; S6_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S6_AXI_BVALID : OUT STD_LOGIC; S6_AXI_BREADY : IN STD_LOGIC; S6_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_ARVALID : IN STD_LOGIC; S6_AXI_ARREADY : OUT STD_LOGIC; S6_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S6_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S6_AXI_RVALID : OUT STD_LOGIC; S6_AXI_RREADY : IN STD_LOGIC; S7_AXI_ACLK : IN STD_LOGIC; S7_AXI_ARESETN : IN STD_LOGIC; S7_AXI_AWADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_AWVALID : IN STD_LOGIC; S7_AXI_AWREADY : OUT STD_LOGIC; S7_AXI_WDATA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_WSTRB : IN STD_LOGIC_VECTOR(3 DOWNTO 0); S7_AXI_WVALID : IN STD_LOGIC; S7_AXI_WREADY : OUT STD_LOGIC; S7_AXI_BRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S7_AXI_BVALID : OUT STD_LOGIC; S7_AXI_BREADY : IN STD_LOGIC; S7_AXI_ARADDR : IN STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_ARVALID : IN STD_LOGIC; S7_AXI_ARREADY : OUT STD_LOGIC; S7_AXI_RDATA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); S7_AXI_RRESP : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); S7_AXI_RVALID : OUT STD_LOGIC; S7_AXI_RREADY : IN STD_LOGIC ); END COMPONENT mutex; ATTRIBUTE X_INTERFACE_INFO : STRING; ATTRIBUTE X_INTERFACE_PARAMETER : STRING; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RRESP"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_RDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI RDATA"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI ARREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI ARVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI ARADDR"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_BREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI BREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_BVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI BVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_BRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI BRESP"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WVALID"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WSTRB: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WSTRB"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_WDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI WDATA"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_AWREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI AWREADY"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_AWVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI AWVALID"; ATTRIBUTE X_INTERFACE_PARAMETER OF S2_AXI_AWADDR: SIGNAL IS "XIL_INTERFACENAME S2_AXI, DATA_WIDTH 32, PROTOCOL AXI4LITE, FREQ_HZ 72000000, ID_WIDTH 0, ADDR_WIDTH 32, AWUSER_WIDTH 0, ARUSER_WIDTH 0, WUSER_WIDTH 0, RUSER_WIDTH 0, BUSER_WIDTH 0, READ_WRITE_MODE READ_WRITE, HAS_BURST 0, HAS_LOCK 0, HAS_PROT 0, HAS_CACHE 0, HAS_QOS 0, HAS_REGION 0, HAS_WSTRB 1, HAS_BRESP 1, HAS_RRESP 1, SUPPORTS_NARROW_BURST 0, NUM_READ_OUTSTANDING 2, NUM_WRITE_OUTSTANDING 2, MAX_BURST_LENGTH 1, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1, NUM_READ_THREADS 1, NUM_WRITE_THREADS 1, RUSER_BITS_PER_BYTE 0, WUSER_BITS_PER_BYTE 0"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_AWADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S2_AXI AWADDR"; ATTRIBUTE X_INTERFACE_PARAMETER OF S2_AXI_ARESETN: SIGNAL IS "XIL_INTERFACENAME RST.S2_AXI_ARESETN, POLARITY ACTIVE_LOW"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ARESETN: SIGNAL IS "xilinx.com:signal:reset:1.0 RST.S2_AXI_ARESETN RST"; ATTRIBUTE X_INTERFACE_PARAMETER OF S2_AXI_ACLK: SIGNAL IS "XIL_INTERFACENAME CLK.S2_AXI_ACLK, ASSOCIATED_BUSIF S2_AXI, ASSOCIATED_RESET S2_AXI_ARESETN, FREQ_HZ 72000000, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1"; ATTRIBUTE X_INTERFACE_INFO OF S2_AXI_ACLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK.S2_AXI_ACLK CLK"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RRESP"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_RDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI RDATA"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI ARREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI ARVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI ARADDR"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_BREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI BREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_BVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI BVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_BRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI BRESP"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WVALID"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WSTRB: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WSTRB"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_WDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI WDATA"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_AWREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI AWREADY"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_AWVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI AWVALID"; ATTRIBUTE X_INTERFACE_PARAMETER OF S1_AXI_AWADDR: SIGNAL IS "XIL_INTERFACENAME S1_AXI, DATA_WIDTH 32, PROTOCOL AXI4LITE, FREQ_HZ 72000000, ID_WIDTH 0, ADDR_WIDTH 32, AWUSER_WIDTH 0, ARUSER_WIDTH 0, WUSER_WIDTH 0, RUSER_WIDTH 0, BUSER_WIDTH 0, READ_WRITE_MODE READ_WRITE, HAS_BURST 0, HAS_LOCK 0, HAS_PROT 0, HAS_CACHE 0, HAS_QOS 0, HAS_REGION 0, HAS_WSTRB 1, HAS_BRESP 1, HAS_RRESP 1, SUPPORTS_NARROW_BURST 0, NUM_READ_OUTSTANDING 2, NUM_WRITE_OUTSTANDING 2, MAX_BURST_LENGTH 1, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1, NUM_READ_THREADS 1, NUM_WRITE_THREADS 1, RUSER_BITS_PER_BYTE 0, WUSER_BITS_PER_BYTE 0"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_AWADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S1_AXI AWADDR"; ATTRIBUTE X_INTERFACE_PARAMETER OF S1_AXI_ARESETN: SIGNAL IS "XIL_INTERFACENAME RST.S1_AXI_ARESETN, POLARITY ACTIVE_LOW"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ARESETN: SIGNAL IS "xilinx.com:signal:reset:1.0 RST.S1_AXI_ARESETN RST"; ATTRIBUTE X_INTERFACE_PARAMETER OF S1_AXI_ACLK: SIGNAL IS "XIL_INTERFACENAME CLK.S1_AXI_ACLK, ASSOCIATED_BUSIF S1_AXI, ASSOCIATED_RESET S1_AXI_ARESETN, FREQ_HZ 72000000, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1"; ATTRIBUTE X_INTERFACE_INFO OF S1_AXI_ACLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK.S1_AXI_ACLK CLK"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RRESP"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_RDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI RDATA"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI ARREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI ARVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI ARADDR"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_BREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI BREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_BVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI BVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_BRESP: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI BRESP"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WVALID"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WSTRB: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WSTRB"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_WDATA: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI WDATA"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_AWREADY: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI AWREADY"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_AWVALID: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI AWVALID"; ATTRIBUTE X_INTERFACE_PARAMETER OF S0_AXI_AWADDR: SIGNAL IS "XIL_INTERFACENAME S0_AXI, DATA_WIDTH 32, PROTOCOL AXI4LITE, FREQ_HZ 72000000, ID_WIDTH 0, ADDR_WIDTH 32, AWUSER_WIDTH 0, ARUSER_WIDTH 0, WUSER_WIDTH 0, RUSER_WIDTH 0, BUSER_WIDTH 0, READ_WRITE_MODE READ_WRITE, HAS_BURST 0, HAS_LOCK 0, HAS_PROT 0, HAS_CACHE 0, HAS_QOS 0, HAS_REGION 0, HAS_WSTRB 1, HAS_BRESP 1, HAS_RRESP 1, SUPPORTS_NARROW_BURST 0, NUM_READ_OUTSTANDING 2, NUM_WRITE_OUTSTANDING 2, MAX_BURST_LENGTH 1, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1, NUM_READ_THREADS 1, NUM_WRITE_THREADS 1, RUSER_BITS_PER_BYTE 0, WUSER_BITS_PER_BYTE 0"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_AWADDR: SIGNAL IS "xilinx.com:interface:aximm:1.0 S0_AXI AWADDR"; ATTRIBUTE X_INTERFACE_PARAMETER OF S0_AXI_ARESETN: SIGNAL IS "XIL_INTERFACENAME RST.S0_AXI_ARESETN, POLARITY ACTIVE_LOW"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ARESETN: SIGNAL IS "xilinx.com:signal:reset:1.0 RST.S0_AXI_ARESETN RST"; ATTRIBUTE X_INTERFACE_PARAMETER OF S0_AXI_ACLK: SIGNAL IS "XIL_INTERFACENAME CLK.S0_AXI_ACLK, ASSOCIATED_BUSIF S0_AXI, ASSOCIATED_RESET S0_AXI_ARESETN, FREQ_HZ 72000000, PHASE 0.0, CLK_DOMAIN /clk_wiz_0_clk_out1"; ATTRIBUTE X_INTERFACE_INFO OF S0_AXI_ACLK: SIGNAL IS "xilinx.com:signal:clock:1.0 CLK.S0_AXI_ACLK CLK"; BEGIN U0 : mutex GENERIC MAP ( C_FAMILY => "artix7", C_NUM_AXI => 3, C_S0_AXI_BASEADDR => X"00100000", C_S0_AXI_HIGHADDR => X"0010FFFF", C_S0_AXI_ADDR_WIDTH => 32, C_S0_AXI_DATA_WIDTH => 32, C_S1_AXI_BASEADDR => X"00200000", C_S1_AXI_HIGHADDR => X"0020FFFF", C_S1_AXI_ADDR_WIDTH => 32, C_S1_AXI_DATA_WIDTH => 32, C_S2_AXI_BASEADDR => X"00300000", C_S2_AXI_HIGHADDR => X"0030FFFF", C_S2_AXI_ADDR_WIDTH => 32, C_S2_AXI_DATA_WIDTH => 32, C_S3_AXI_BASEADDR => X"FFFFFFFF", C_S3_AXI_HIGHADDR => X"00000000", C_S3_AXI_ADDR_WIDTH => 32, C_S3_AXI_DATA_WIDTH => 32, C_S4_AXI_BASEADDR => X"FFFFFFFF", C_S4_AXI_HIGHADDR => X"00000000", C_S4_AXI_ADDR_WIDTH => 32, C_S4_AXI_DATA_WIDTH => 32, C_S5_AXI_BASEADDR => X"FFFFFFFF", C_S5_AXI_HIGHADDR => X"00000000", C_S5_AXI_ADDR_WIDTH => 32, C_S5_AXI_DATA_WIDTH => 32, C_S6_AXI_BASEADDR => X"FFFFFFFF", C_S6_AXI_HIGHADDR => X"00000000", C_S6_AXI_ADDR_WIDTH => 32, C_S6_AXI_DATA_WIDTH => 32, C_S7_AXI_BASEADDR => X"FFFFFFFF", C_S7_AXI_HIGHADDR => X"00000000", C_S7_AXI_ADDR_WIDTH => 32, C_S7_AXI_DATA_WIDTH => 32, C_ASYNC_CLKS => 0, C_NUM_SYNC_FF => 2, C_ENABLE_USER => 1, C_OWNER_ID_WIDTH => 8, C_ENABLE_HW_PROT => 1, C_NUM_MUTEX => 16 ) PORT MAP ( S0_AXI_ACLK => S0_AXI_ACLK, S0_AXI_ARESETN => S0_AXI_ARESETN, S0_AXI_AWADDR => S0_AXI_AWADDR, S0_AXI_AWVALID => S0_AXI_AWVALID, S0_AXI_AWREADY => S0_AXI_AWREADY, S0_AXI_WDATA => S0_AXI_WDATA, S0_AXI_WSTRB => S0_AXI_WSTRB, S0_AXI_WVALID => S0_AXI_WVALID, S0_AXI_WREADY => S0_AXI_WREADY, S0_AXI_BRESP => S0_AXI_BRESP, S0_AXI_BVALID => S0_AXI_BVALID, S0_AXI_BREADY => S0_AXI_BREADY, S0_AXI_ARADDR => S0_AXI_ARADDR, S0_AXI_ARVALID => S0_AXI_ARVALID, S0_AXI_ARREADY => S0_AXI_ARREADY, S0_AXI_RDATA => S0_AXI_RDATA, S0_AXI_RRESP => S0_AXI_RRESP, S0_AXI_RVALID => S0_AXI_RVALID, S0_AXI_RREADY => S0_AXI_RREADY, S1_AXI_ACLK => S1_AXI_ACLK, S1_AXI_ARESETN => S1_AXI_ARESETN, S1_AXI_AWADDR => S1_AXI_AWADDR, S1_AXI_AWVALID => S1_AXI_AWVALID, S1_AXI_AWREADY => S1_AXI_AWREADY, S1_AXI_WDATA => S1_AXI_WDATA, S1_AXI_WSTRB => S1_AXI_WSTRB, S1_AXI_WVALID => S1_AXI_WVALID, S1_AXI_WREADY => S1_AXI_WREADY, S1_AXI_BRESP => S1_AXI_BRESP, S1_AXI_BVALID => S1_AXI_BVALID, S1_AXI_BREADY => S1_AXI_BREADY, S1_AXI_ARADDR => S1_AXI_ARADDR, S1_AXI_ARVALID => S1_AXI_ARVALID, S1_AXI_ARREADY => S1_AXI_ARREADY, S1_AXI_RDATA => S1_AXI_RDATA, S1_AXI_RRESP => S1_AXI_RRESP, S1_AXI_RVALID => S1_AXI_RVALID, S1_AXI_RREADY => S1_AXI_RREADY, S2_AXI_ACLK => S2_AXI_ACLK, S2_AXI_ARESETN => S2_AXI_ARESETN, S2_AXI_AWADDR => S2_AXI_AWADDR, S2_AXI_AWVALID => S2_AXI_AWVALID, S2_AXI_AWREADY => S2_AXI_AWREADY, S2_AXI_WDATA => S2_AXI_WDATA, S2_AXI_WSTRB => S2_AXI_WSTRB, S2_AXI_WVALID => S2_AXI_WVALID, S2_AXI_WREADY => S2_AXI_WREADY, S2_AXI_BRESP => S2_AXI_BRESP, S2_AXI_BVALID => S2_AXI_BVALID, S2_AXI_BREADY => S2_AXI_BREADY, S2_AXI_ARADDR => S2_AXI_ARADDR, S2_AXI_ARVALID => S2_AXI_ARVALID, S2_AXI_ARREADY => S2_AXI_ARREADY, S2_AXI_RDATA => S2_AXI_RDATA, S2_AXI_RRESP => S2_AXI_RRESP, S2_AXI_RVALID => S2_AXI_RVALID, S2_AXI_RREADY => S2_AXI_RREADY, S3_AXI_ACLK => '0', S3_AXI_ARESETN => '0', S3_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S3_AXI_AWVALID => '0', S3_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S3_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S3_AXI_WVALID => '0', S3_AXI_BREADY => '0', S3_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S3_AXI_ARVALID => '0', S3_AXI_RREADY => '0', S4_AXI_ACLK => '0', S4_AXI_ARESETN => '0', S4_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S4_AXI_AWVALID => '0', S4_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S4_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S4_AXI_WVALID => '0', S4_AXI_BREADY => '0', S4_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S4_AXI_ARVALID => '0', S4_AXI_RREADY => '0', S5_AXI_ACLK => '0', S5_AXI_ARESETN => '0', S5_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S5_AXI_AWVALID => '0', S5_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S5_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S5_AXI_WVALID => '0', S5_AXI_BREADY => '0', S5_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S5_AXI_ARVALID => '0', S5_AXI_RREADY => '0', S6_AXI_ACLK => '0', S6_AXI_ARESETN => '0', S6_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S6_AXI_AWVALID => '0', S6_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S6_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S6_AXI_WVALID => '0', S6_AXI_BREADY => '0', S6_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S6_AXI_ARVALID => '0', S6_AXI_RREADY => '0', S7_AXI_ACLK => '0', S7_AXI_ARESETN => '0', S7_AXI_AWADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S7_AXI_AWVALID => '0', S7_AXI_WDATA => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S7_AXI_WSTRB => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), S7_AXI_WVALID => '0', S7_AXI_BREADY => '0', S7_AXI_ARADDR => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), S7_AXI_ARVALID => '0', S7_AXI_RREADY => '0' ); END DemoInterconnect_mutex_0_0_arch;
-- -- File Name: Demo_Rand.vhd -- Design Unit Name: Demo_Rand -- Revision: STANDARD VERSION, revision 2015.03 -- -- Maintainer: Jim Lewis email: jim@synthworks.com -- Contributor(s): -- Jim Lewis email: jim@synthworks.com -- -- Description: -- Demonstration program for RandomPkg.vhd -- -- Developed for: -- SynthWorks Design Inc. -- VHDL Training Classes -- 11898 SW 128th Ave. Tigard, Or 97223 -- http://www.SynthWorks.com -- -- Revision History: -- Date Version Description -- 02/2009: 1.0 Initial revision and First Public Released Version -- 03/2009 1.1 Minor tweek to printing -- 03/2015 2015.03 Updated FAVOR_BIG to FavorBig and FAVOR_SMALL to FavorSmall -- 11/2016 2016.11 Updated library to OSVVM -- 01/2020 2020.01 Updated Licenses to Apache -- -- -- This file is part of OSVVM. -- -- Copyright (c) 2009 - 2020 by SynthWorks Design Inc. -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- https://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- library IEEE ; use ieee.std_logic_1164.all ; use std.textio.all ; use ieee.std_logic_textio.all ; Package TestSupportPkg is type integer_array is array (integer range <>) of integer ; procedure TestInit (TestName : string ; variable Results : inout integer_array ) ; procedure TestInit (TestName : string ; variable Results : inout integer_array ; variable Count : inout natural ) ; procedure AccumulateResults (IntVal : integer ; Num : integer ; variable Results : inout integer_array) ; procedure PrintResults (Results : integer_array) ; end TestSupportPkg ; Package body TestSupportPkg is procedure TestInit (TestName : string ; variable Results : inout integer_array ) is begin write(OUTPUT, LF&LF & TestName & LF ) ; Results := (Results'range => 0) ; write(OUTPUT, "1st 20 values = ") ; end ; procedure TestInit (TestName : string ; variable Results : inout integer_array ; variable Count : inout natural ) is begin Count := Count + 1 ; write(OUTPUT, LF&LF & "Test " & integer'image(Count) & ": " & TestName & LF ) ; Results := (Results'range => 0) ; write(OUTPUT, "1st 20 values = ") ; end ; procedure AccumulateResults (IntVal : integer ; Num : integer ; variable Results : inout integer_array) is begin Results(IntVal) :=Results(IntVal) + 1 ; if Num < 20 then write(OUTPUT, integer'image(IntVal) & " ") ; end if ; end ; procedure PrintResults (Results : integer_array) is begin write(OUTPUT, LF & "Accumulated Results. Expecting approximately 1000 of each per weight." & LF) ; for i in Results'range loop if Results(i) > 0 then write(OUTPUT, "** ") ; write(OUTPUT, integer'image(i) & " : " & integer'image(Results(i)) & LF) ; end if ; end loop ; end ; end TestSupportPkg ; library IEEE ; use ieee.std_logic_1164.all ; use ieee.numeric_std.all ; use std.textio.all ; use ieee.std_logic_textio.all ; library OSVVM ; use OSVVM.RandomBasePkg.all ; use OSVVM.RandomPkg.all ; use work.TestSupportPkg.all ; entity Demo_Rand is end Demo_Rand ; architecture test of Demo_Rand is begin RandomGenProc : process variable RV : RandomPType ; variable DataInt : integer ; variable DataSlv : std_logic_vector(3 downto 0) ; variable DataUnsigned : unsigned(3 downto 0) ; variable DataSigned : signed(4 downto 0) ; -- Statistics variable TestNum : integer := 0 ; variable Results : integer_array (-100 to 100) := (others => 0) ; variable writebuf : line ; begin RV.InitSeed(RV'instance_name) ; -- Initialize Seed. Typically done one time write(OUTPUT, LF&LF& "Random Range Tests") ; TestInit("RandInt(0, 7) Range 0-7", Results, TestNum) ; -- 1 for i in 1 to 8000 loop -- Loop 1000x per value DataInt := RV.RandInt(0, 7); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandInt(1, 13, (3, 7, 11) Range 1-13, Exclude 3,7,11", Results, TestNum) ; -- 2 for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.RandInt(1, 13, (3, 7, 11)); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSlv(0, 4, 4) Range 0-4", Results, TestNum) ; -- 3 for i in 1 to 5000 loop -- Loop 1000x per value DataSlv := RV.RandSlv(0, 4, 4); AccumulateResults(to_integer(unsigned(DataSlv)), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandUnsigned(4, 9, (0 => 7), 4) Range 4-9, Exclude 7", Results, TestNum) ; -- 4 for i in 1 to 5000 loop -- Loop 1000x per value DataUnsigned := RV.RandUnsigned(4, 9, (0 => 7), 4); -- only 1 exclude element AccumulateResults(to_integer(DataUnsigned), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSigned(-4, 3, 5)", Results, TestNum) ; -- 5 for i in 1 to 8000 loop -- Loop 1000x per value DataSigned := RV.RandSigned(-4, 3, 5); AccumulateResults(to_integer(DataSigned), i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Random Set Tests") ; TestNum := 0 ; TestInit("RandInt( (-50, -22, -14, -7, -2, 0, 3, 7, 9, 27, 49, 89, 99)). Set: (-50, -22, -14, -7, -2, 0, 3, 7, 9, 27, 49, 89, 99)", Results, TestNum) ; -- 1 for i in 1 to 13000 loop -- Loop 1000x per value DataInt := RV.RandInt( (-50, -22, -14, -7, -2, 0, 3, 7, 9, 27, 49, 89, 99)); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandInt( (-5, -1, 3, 7, 11), (-1, 7) ) Set (-5, -1, 3, 7, 11), Exclude (-1, 7)", Results, TestNum) ; -- 2 for i in 1 to 3000 loop -- Loop 1000x per value DataInt := RV.RandInt( (-5, -1, 3, 7, 11), (-1, 7) ); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSlv( (1, 2, 3, 7, 11), 4)", Results, TestNum) ; -- 3 for i in 1 to 5000 loop -- Loop 1000x per value DataSlv := RV.RandSlv( (1, 2, 3, 7, 11), 4); AccumulateResults(to_integer(unsigned(DataSlv)), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandUnsigned( (1, 2, 3, 11), (1 => 3), 4)", Results, TestNum) ; -- 4 for i in 1 to 3000 loop -- Loop 1000x per value DataUnsigned := RV.RandUnsigned( (1, 2, 3, 11), (1 => 3), 4); -- 1 element middle AccumulateResults(to_integer(DataUnsigned), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSigned( (-5, -1, 3, 7, 11), 5)", Results, TestNum) ; -- 5 for i in 1 to 5000 loop -- Loop 1000x per value DataSigned := RV.RandSigned( (-5, -1, 3, 7, 11), 5); AccumulateResults(to_integer(DataSigned), i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Weighted Distribution Tests") ; TestNum := 0 ; -- There is also DistSlv, DistUnsigned, DistSigned TestInit("RV.DistInt( (7, 2, 1) ) ", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per distribute weight DataInt := RV.DistInt( (7, 2, 1) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RV.DistInt( (0, 2, 0, 4, 0, 6, 0, 8, 0, 10), (3,9) );", Results, TestNum) ; for i in 1 to 16000 loop -- Loop 1000x per distribute weight DataInt := RV.DistInt( (0, 2, 0, 4, 0, 6, 0, 8, 0, 10), (3,9) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Weighted Distribution with Value") ; TestNum := 0 ; -- There is also DistValSlv, DistValUnsigned, DistValSigned TestInit("RV.DistValInt( ((1, 7), (3, 2), (5, 1)) ) ", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per distribute weight DataInt := RV.DistValInt( ((1, 7), (3, 2), (5, 1)) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RV.DistValInt( ((1, 7), (3, 2), (5, 1)), (1=>3) ) Exclude 3", Results, TestNum) ; for i in 1 to 8000 loop -- Loop 1000x per distribute weight DataInt := RV.DistValInt( ((1, 7), (3, 2), (5, 1)), (1=>3) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Mode Direct Tests") ; -- There are also real return values TestNum := 0 ; TestInit("Integer Uniform: Integer Range (0 to 9)", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.uniform(0,9); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer FavorSmall: Integer Range (0 to 9)", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.FavorSmall(0,9); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer FavorBig: Integer Range (0 to 9)", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.FavorBig(0,9); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer NORMAL, 50.0, 5.0 range -100 to 100", Results, TestNum) ; for i in 1 to 100000 loop -- Loop 1000x per value DataInt := RV.Normal(50.0, 5.0, -100, 100); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer Poisson, 10.0, -100, 100", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.Poisson(10.0, -100, 100) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; wait ; end process RandomGenProc ; end test ;
-- -- File Name: Demo_Rand.vhd -- Design Unit Name: Demo_Rand -- Revision: STANDARD VERSION, revision 2015.03 -- -- Maintainer: Jim Lewis email: jim@synthworks.com -- Contributor(s): -- Jim Lewis email: jim@synthworks.com -- -- Description: -- Demonstration program for RandomPkg.vhd -- -- Developed for: -- SynthWorks Design Inc. -- VHDL Training Classes -- 11898 SW 128th Ave. Tigard, Or 97223 -- http://www.SynthWorks.com -- -- Revision History: -- Date Version Description -- 02/2009: 1.0 Initial revision and First Public Released Version -- 03/2009 1.1 Minor tweek to printing -- 03/2015 2015.03 Updated FAVOR_BIG to FavorBig and FAVOR_SMALL to FavorSmall -- 11/2016 2016.11 Updated library to OSVVM -- 01/2020 2020.01 Updated Licenses to Apache -- -- -- This file is part of OSVVM. -- -- Copyright (c) 2009 - 2020 by SynthWorks Design Inc. -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- https://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- library IEEE ; use ieee.std_logic_1164.all ; use std.textio.all ; use ieee.std_logic_textio.all ; Package TestSupportPkg is type integer_array is array (integer range <>) of integer ; procedure TestInit (TestName : string ; variable Results : inout integer_array ) ; procedure TestInit (TestName : string ; variable Results : inout integer_array ; variable Count : inout natural ) ; procedure AccumulateResults (IntVal : integer ; Num : integer ; variable Results : inout integer_array) ; procedure PrintResults (Results : integer_array) ; end TestSupportPkg ; Package body TestSupportPkg is procedure TestInit (TestName : string ; variable Results : inout integer_array ) is begin write(OUTPUT, LF&LF & TestName & LF ) ; Results := (Results'range => 0) ; write(OUTPUT, "1st 20 values = ") ; end ; procedure TestInit (TestName : string ; variable Results : inout integer_array ; variable Count : inout natural ) is begin Count := Count + 1 ; write(OUTPUT, LF&LF & "Test " & integer'image(Count) & ": " & TestName & LF ) ; Results := (Results'range => 0) ; write(OUTPUT, "1st 20 values = ") ; end ; procedure AccumulateResults (IntVal : integer ; Num : integer ; variable Results : inout integer_array) is begin Results(IntVal) :=Results(IntVal) + 1 ; if Num < 20 then write(OUTPUT, integer'image(IntVal) & " ") ; end if ; end ; procedure PrintResults (Results : integer_array) is begin write(OUTPUT, LF & "Accumulated Results. Expecting approximately 1000 of each per weight." & LF) ; for i in Results'range loop if Results(i) > 0 then write(OUTPUT, "** ") ; write(OUTPUT, integer'image(i) & " : " & integer'image(Results(i)) & LF) ; end if ; end loop ; end ; end TestSupportPkg ; library IEEE ; use ieee.std_logic_1164.all ; use ieee.numeric_std.all ; use std.textio.all ; use ieee.std_logic_textio.all ; library OSVVM ; use OSVVM.RandomBasePkg.all ; use OSVVM.RandomPkg.all ; use work.TestSupportPkg.all ; entity Demo_Rand is end Demo_Rand ; architecture test of Demo_Rand is begin RandomGenProc : process variable RV : RandomPType ; variable DataInt : integer ; variable DataSlv : std_logic_vector(3 downto 0) ; variable DataUnsigned : unsigned(3 downto 0) ; variable DataSigned : signed(4 downto 0) ; -- Statistics variable TestNum : integer := 0 ; variable Results : integer_array (-100 to 100) := (others => 0) ; variable writebuf : line ; begin RV.InitSeed(RV'instance_name) ; -- Initialize Seed. Typically done one time write(OUTPUT, LF&LF& "Random Range Tests") ; TestInit("RandInt(0, 7) Range 0-7", Results, TestNum) ; -- 1 for i in 1 to 8000 loop -- Loop 1000x per value DataInt := RV.RandInt(0, 7); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandInt(1, 13, (3, 7, 11) Range 1-13, Exclude 3,7,11", Results, TestNum) ; -- 2 for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.RandInt(1, 13, (3, 7, 11)); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSlv(0, 4, 4) Range 0-4", Results, TestNum) ; -- 3 for i in 1 to 5000 loop -- Loop 1000x per value DataSlv := RV.RandSlv(0, 4, 4); AccumulateResults(to_integer(unsigned(DataSlv)), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandUnsigned(4, 9, (0 => 7), 4) Range 4-9, Exclude 7", Results, TestNum) ; -- 4 for i in 1 to 5000 loop -- Loop 1000x per value DataUnsigned := RV.RandUnsigned(4, 9, (0 => 7), 4); -- only 1 exclude element AccumulateResults(to_integer(DataUnsigned), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSigned(-4, 3, 5)", Results, TestNum) ; -- 5 for i in 1 to 8000 loop -- Loop 1000x per value DataSigned := RV.RandSigned(-4, 3, 5); AccumulateResults(to_integer(DataSigned), i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Random Set Tests") ; TestNum := 0 ; TestInit("RandInt( (-50, -22, -14, -7, -2, 0, 3, 7, 9, 27, 49, 89, 99)). Set: (-50, -22, -14, -7, -2, 0, 3, 7, 9, 27, 49, 89, 99)", Results, TestNum) ; -- 1 for i in 1 to 13000 loop -- Loop 1000x per value DataInt := RV.RandInt( (-50, -22, -14, -7, -2, 0, 3, 7, 9, 27, 49, 89, 99)); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandInt( (-5, -1, 3, 7, 11), (-1, 7) ) Set (-5, -1, 3, 7, 11), Exclude (-1, 7)", Results, TestNum) ; -- 2 for i in 1 to 3000 loop -- Loop 1000x per value DataInt := RV.RandInt( (-5, -1, 3, 7, 11), (-1, 7) ); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSlv( (1, 2, 3, 7, 11), 4)", Results, TestNum) ; -- 3 for i in 1 to 5000 loop -- Loop 1000x per value DataSlv := RV.RandSlv( (1, 2, 3, 7, 11), 4); AccumulateResults(to_integer(unsigned(DataSlv)), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandUnsigned( (1, 2, 3, 11), (1 => 3), 4)", Results, TestNum) ; -- 4 for i in 1 to 3000 loop -- Loop 1000x per value DataUnsigned := RV.RandUnsigned( (1, 2, 3, 11), (1 => 3), 4); -- 1 element middle AccumulateResults(to_integer(DataUnsigned), i, Results) ; end loop ; PrintResults (Results) ; TestInit("RandSigned( (-5, -1, 3, 7, 11), 5)", Results, TestNum) ; -- 5 for i in 1 to 5000 loop -- Loop 1000x per value DataSigned := RV.RandSigned( (-5, -1, 3, 7, 11), 5); AccumulateResults(to_integer(DataSigned), i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Weighted Distribution Tests") ; TestNum := 0 ; -- There is also DistSlv, DistUnsigned, DistSigned TestInit("RV.DistInt( (7, 2, 1) ) ", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per distribute weight DataInt := RV.DistInt( (7, 2, 1) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RV.DistInt( (0, 2, 0, 4, 0, 6, 0, 8, 0, 10), (3,9) );", Results, TestNum) ; for i in 1 to 16000 loop -- Loop 1000x per distribute weight DataInt := RV.DistInt( (0, 2, 0, 4, 0, 6, 0, 8, 0, 10), (3,9) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Weighted Distribution with Value") ; TestNum := 0 ; -- There is also DistValSlv, DistValUnsigned, DistValSigned TestInit("RV.DistValInt( ((1, 7), (3, 2), (5, 1)) ) ", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per distribute weight DataInt := RV.DistValInt( ((1, 7), (3, 2), (5, 1)) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("RV.DistValInt( ((1, 7), (3, 2), (5, 1)), (1=>3) ) Exclude 3", Results, TestNum) ; for i in 1 to 8000 loop -- Loop 1000x per distribute weight DataInt := RV.DistValInt( ((1, 7), (3, 2), (5, 1)), (1=>3) ) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; write(OUTPUT, LF&LF& "Mode Direct Tests") ; -- There are also real return values TestNum := 0 ; TestInit("Integer Uniform: Integer Range (0 to 9)", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.uniform(0,9); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer FavorSmall: Integer Range (0 to 9)", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.FavorSmall(0,9); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer FavorBig: Integer Range (0 to 9)", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.FavorBig(0,9); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer NORMAL, 50.0, 5.0 range -100 to 100", Results, TestNum) ; for i in 1 to 100000 loop -- Loop 1000x per value DataInt := RV.Normal(50.0, 5.0, -100, 100); AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; TestInit("Integer Poisson, 10.0, -100, 100", Results, TestNum) ; for i in 1 to 10000 loop -- Loop 1000x per value DataInt := RV.Poisson(10.0, -100, 100) ; AccumulateResults(DataInt, i, Results) ; end loop ; PrintResults (Results) ; wait ; end process RandomGenProc ; end test ;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2014, Aeroflex Gaisler -- -- This program is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation; either version 2 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program; if not, write to the Free Software -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; library techmap; use techmap.gencomp.all; -- pragma translate_off library altera_mf; use altera_mf.altpll; -- pragma translate_on entity altera_pll is generic ( clk_mul : integer := 1; clk_div : integer := 1; clk_freq : integer := 25000; clk2xen : integer := 0; sdramen : integer := 0 ); port ( inclk0 : in std_ulogic; c0 : out std_ulogic; c0_2x : out std_ulogic; e0 : out std_ulogic; locked : out std_ulogic ); end; architecture rtl of altera_pll is component altpll generic ( operation_mode : string := "NORMAL" ; inclk0_input_frequency : positive; width_clock : positive := 6; clk0_multiply_by : positive := 1; clk0_divide_by : positive := 1; clk1_multiply_by : positive := 1; clk1_divide_by : positive := 1; extclk0_multiply_by : positive := 1; extclk0_divide_by : positive := 1 ); port ( inclk : in std_logic_vector(1 downto 0); clkena : in std_logic_vector(5 downto 0); extclkena : in std_logic_vector(3 downto 0); clk : out std_logic_vector(width_clock-1 downto 0); extclk : out std_logic_vector(3 downto 0); locked : out std_logic ); end component; signal clkena : std_logic_vector (5 downto 0); signal clkout : std_logic_vector (5 downto 0); signal inclk : std_logic_vector (1 downto 0); signal extclk : std_logic_vector (3 downto 0); constant clk_period : integer := 1000000000/clk_freq; constant CLK_MUL2X : integer := clk_mul * 2; begin clkena(5 downto 2) <= (others => '0'); noclk2xgen: if (clk2xen = 0) generate clkena(1 downto 0) <= "01"; end generate; clk2xgen: if (clk2xen /= 0) generate clkena(1 downto 0) <= "11"; end generate; inclk <= '0' & inclk0; c0 <= clkout(0); c0_2x <= clkout(1); e0 <= extclk(0); sden : if sdramen = 1 generate altpll0 : altpll generic map ( operation_mode => "ZERO_DELAY_BUFFER", inclk0_input_frequency => clk_period, extclk0_multiply_by => clk_mul, extclk0_divide_by => clk_div, clk0_multiply_by => clk_mul, clk0_divide_by => clk_div, clk1_multiply_by => CLK_MUL2X, clk1_divide_by => clk_div) port map ( clkena => clkena, inclk => inclk, extclkena => clkena(3 downto 0), clk => clkout, locked => locked, extclk => extclk); end generate; nosd : if sdramen = 0 generate altpll0 : altpll generic map ( operation_mode => "NORMAL", inclk0_input_frequency => clk_period, extclk0_multiply_by => clk_mul, extclk0_divide_by => clk_div, clk0_multiply_by => clk_mul, clk0_divide_by => clk_div, clk1_multiply_by => CLK_MUL2X, clk1_divide_by => clk_div) port map ( clkena => clkena, inclk => inclk, extclkena => clkena(3 downto 0), clk => clkout, locked => locked, extclk => extclk); end generate; end; library ieee; use ieee.std_logic_1164.all; -- pragma translate_off library altera_mf; library grlib; use grlib.stdlib.all; -- pragma translate_on library techmap; use techmap.gencomp.all; entity clkgen_altera_mf is generic ( clk_mul : integer := 1; clk_div : integer := 1; sdramen : integer := 0; sdinvclk : integer := 0; pcien : integer := 0; pcidll : integer := 0; pcisysclk: integer := 0; freq : integer := 25000; clk2xen : integer := 0); port ( clkin : in std_logic; pciclkin: in std_logic; clk : out std_logic; -- main clock clkn : out std_logic; -- inverted main clock clk2x : out std_logic; -- double clock sdclk : out std_logic; -- SDRAM clock pciclk : out std_logic; -- PCI clock cgi : in clkgen_in_type; cgo : out clkgen_out_type); end; architecture rtl of clkgen_altera_mf is constant VERSION : integer := 1; constant CLKIN_PERIOD : integer := 20; signal clk_i : std_logic; signal clkint, pciclkint : std_logic; signal pllclk, pllclkn : std_logic; -- generated clocks signal s_clk : std_logic; -- altera pll component altera_pll generic ( clk_mul : integer := 1; clk_div : integer := 1; clk_freq : integer := 25000; clk2xen : integer := 0; sdramen : integer := 0 ); port ( inclk0 : in std_ulogic; e0 : out std_ulogic; c0 : out std_ulogic; c0_2x : out std_ulogic; locked : out std_ulogic); end component; begin cgo.pcilock <= '1'; -- c0 : if (PCISYSCLK = 0) generate -- Clkint <= Clkin; -- end generate; -- c1 : if (PCISYSCLK = 1) generate -- Clkint <= pciclkin; -- end generate; -- c2 : if (PCIEN = 1) generate -- p0 : if (PCIDLL = 1) generate -- pciclkint <= pciclkin; -- pciclk <= pciclkint; -- end generate; -- p1 : if (PCIDLL = 0) generate -- u0 : if (PCISYSCLK = 0) generate -- pciclkint <= pciclkin; -- end generate; -- pciclk <= clk_i when (PCISYSCLK = 1) else pciclkint; -- end generate; -- end generate; -- c3 : if (PCIEN = 0) generate -- pciclk <= Clkint; -- end generate; c0: if (PCISYSCLK = 0) or (PCIEN = 0) generate clkint <= clkin; end generate c0; c1: if PCIEN /= 0 generate d0: if PCISYSCLK = 1 generate clkint <= pciclkin; end generate d0; pciclk <= pciclkin; end generate c1; c2: if PCIEN = 0 generate pciclk <= '0'; end generate c2; sdclk_pll : altera_pll generic map (clk_mul, clk_div, freq, clk2xen, sdramen) port map ( inclk0 => clkint, e0 => sdclk, c0 => s_clk, c0_2x => clk2x, locked => cgo.clklock); clk <= s_clk; clkn <= not s_clk; -- pragma translate_off bootmsg : report_version generic map ( "clkgen_altera" & ": altpll sdram/pci clock generator, version " & tost(VERSION), "clkgen_altera" & ": Frequency " & tost(freq) & " KHz, PLL scaler " & tost(clk_mul) & "/" & tost(clk_div)); -- pragma translate_on end;
-------------------------------------------------------------------- -- _ __ __ __ ____ __ = -- -- | | / // / / // __ \ / / = -- -- | | / // /_/ // / / // / = .__ |/ _/_ .__ .__ __ -- -- | |/ // __ // /_/ // /___ = /___) | / / ) / ) (_ ` -- -- |___//_/ /_//_____//_____/ = (___ /| (_ / (___(_ (__) -- -- ===== / -- -- === -- ----------------------------- = ---------------------------------- --# sizing.vhdl - Functions to compute array sizes --# $Id$ --# Freely available from VHDL-extras (http://code.google.com/p/vhdl-extras) --# --# Copyright © 2010 Kevin Thibedeau --# (kevin 'period' thibedeau 'at' gmail 'punto' com) --# --# Permission is hereby granted, free of charge, to any person obtaining a --# copy of this software and associated documentation files (the "Software"), --# to deal in the Software without restriction, including without limitation --# the rights to use, copy, modify, merge, publish, distribute, sublicense, --# and/or sell copies of the Software, and to permit persons to whom the --# Software is furnished to do so, subject to the following conditions: --# --# The above copyright notice and this permission notice shall be included in --# all copies or substantial portions of the Software. --# --# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR --# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, --# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE --# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER --# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING --# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER --# DEALINGS IN THE SOFTWARE. --# --# DEPENDENCIES: none --# --# DESCRIPTION: --# This package provides functions used to compute integer approximations --# of logarithms. The primary use of these functions is to determine the --# size of arrays using the bit_size and encoding_size functions. When put to --# maximal use it is possible to create designs that eliminate hardcoded --# ranges and automatically resize their signals and variables by changing a --# few key constants or generics. --# --# These functions can be used in most synthesizers to compute ranges for --# arrays. The core functionality is provided in the ceil_log and --# floor_log subprograms. These compute the logarithm in any integer base. --# For convenenience, base-2 functions are also provided along with the array --# sizing functions. --# --# EXAMPLE USAGE: --# constant MAX_COUNT : natural := 1000; --# constant COUNT_SIZE : natural := bit_size(MAX_COUNT); --# signal counter : unsigned(COUNT_SIZE-1 downto 0); --# ... --# counter <= to_unsigned(MAX_COUNT, COUNT_SIZE); --# -- counter will resize itself as MAX_COUNT is changed -------------------------------------------------------------------- package sizing is --## Compute the integer result of the function floor(log(n)) where b is the base function floor_log(n, b : positive) return natural; --## Compute the integer result of the function ceil(log(n)) where b is the base function ceil_log(n, b : positive) return natural; --## Compute the integer result of the function floor(log2(n)) function floor_log2(n : positive) return natural; --## Compute the integer result of the function ceil(log2(n)) function ceil_log2(n : positive) return natural; --## Compute the total number of bits needed to represent a number in binary function bit_size(n : natural) return natural; --## Compute the number of bits needed to encode n items function encoding_size(n : positive) return natural; -- synthesis translate_off -- Needed to keep Xilinx ISE 12.1 happy alias unsigned_size is bit_size[natural return natural]; -- synthesis translate_on --## Compute the total number of bits to represent a 2's complement signed --# integer in binary function signed_size(n : integer) return natural; end package; package body sizing is --## Compute the integer result of the function floor(log(n)) where b is the base function floor_log(n, b : positive) return natural is variable log, residual : natural; begin residual := n; log := 0; while residual > (b - 1) loop residual := residual / b; log := log + 1; end loop; return log; end function; --## Compute the integer result of the function ceil(log(n)) where b is the base function ceil_log(n, b : positive) return natural is variable log, residual : natural; begin residual := n - 1; log := 0; while residual > 0 loop residual := residual / b; log := log + 1; end loop; return log; end function; --## Compute the integer result of the function floor(log2(n)) function floor_log2(n : positive) return natural is begin return floor_log(n, 2); end function; --## Compute the integer result of the function ceil(log2(n)) function ceil_log2(n : positive) return natural is begin return ceil_log(n, 2); end function; --## Compute the total number of bits needed to represent a number in binary function bit_size(n : natural) return natural is begin if n = 0 then return 1; else return floor_log2(n) + 1; end if; end function; --## Compute the number of bits needed to encode n items function encoding_size(n : positive) return natural is begin if n = 1 then return 1; else return ceil_log2(n); end if; end function; --## Compute the total number of bits to represent a 2's complement signed --# integer in binary function signed_size(n : integer) return natural is begin if n = 0 then return 2; -- sign bit plus single numeric bit elsif n > 0 then return bit_size(n) + 1; else -- n < 0 return bit_size(-1 - n) + 1; end if; end function; end package body;
-- Company: Fachhochschule Dortmund -- Engineer: Javier Reyes -- -- Create Date: 26/06/2017 23:46:52 PM -- Design Name: Polynomial Adder for Convolutional Codes example project -- Module Name: polyadder - Behavioral -- Project Name: Convolutional Codes example project library IEEE; use IEEE.STD_LOGIC_1164.ALL; --use IEEE.NUMERIC_STD.ALL; use work.conf_pkg.all; entity polyadder is port (add_in : in std_logic_vector(m-1 downto 0); add_out : out std_logic_vector(n-1 downto 0)); end polyadder; architecture Behavioral of polyadder is begin process (add_in) -- Temporal variables variable temp : std_logic_vector(m-1 downto 0); variable aux : std_logic; begin out_counter : for i in 0 to n-1 loop -- Masks the bits (Polynomial) temp := add_in and pol(i); -- Copies the LSB bit of the vector aux := temp(0); bit_counter : for j in 1 to m-1 loop -- Sequencially adds the bits inside temp aux := temp(j) xor aux; end loop; -- Copies the result to output add_out(i) <= aux; end loop; end process; end Behavioral;
--! --! Copyright 2019 Sergey Khabarov, sergeykhbr@gmail.com --! --! Licensed under the Apache License, Version 2.0 (the "License"); --! you may not use this file except in compliance with the License. --! You may obtain a copy of the License at --! --! http://www.apache.org/licenses/LICENSE-2.0 --! --! Unless required by applicable law or agreed to in writing, software --! distributed under the License is distributed on an "AS IS" BASIS, --! WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. --! See the License for the specific language governing permissions and --! limitations under the License. --! library IEEE; use IEEE.STD_LOGIC_1164.ALL; library techmap; use techmap.gencomp.all; package config_target is -- Technology and synthesis options constant CFG_FABTECH : integer := virtex6; constant CFG_MEMTECH : integer := virtex6; constant CFG_PADTECH : integer := virtex6; constant CFG_JTAGTECH : integer := virtex6; constant CFG_ASYNC_RESET : boolean := false; constant CFG_TOPDIR : string := "../../../"; --! @brief Number of processors in a system --! @details This value may be in a range 1 to CFG_TOTAL_CPU_MAX-1 constant CFG_CPU_NUM : integer := 1; --! @brief HEX-image for the initialization of the Boot ROM. --! @details This file is used by \e inferred ROM implementation. constant CFG_SIM_BOOTROM_HEX : string := CFG_TOPDIR & "examples/boot/linuxbuild/bin/bootimage.hex"; -- CFG_TOPDIR & "examples/bootrom_tests/linuxbuild/bin/bootrom_tests.hex"; --! @brief HEX-image for the initialization of the FwImage ROM. --! @details This file is used by \e inferred ROM implementation. constant CFG_SIM_FWIMAGE_HEX : string := CFG_TOPDIR & "examples/zephyr/gcc711/zephyr.hex"; -- CFG_TOPDIR & "examples/dhrystone21/makefiles/bin/dhrystone21.hex"; --! @brief Hardware SoC Identificator. --! --! @details Read Only unique platform identificator that could be --! read by firmware from the Plug'n'Play support module. constant CFG_HW_ID : std_logic_vector(31 downto 0) := X"20191206"; --! @brief Enabling Ethernet MAC interface. --! @details By default MAC module enables support of the debug feature EDCL. constant CFG_ETHERNET_ENABLE : boolean := true; --! @brief Enable/Disable Debug Unit constant CFG_DSU_ENABLE : boolean := true; --! External Flash IC connected via SPI constant CFG_EXT_FLASH_ENA : boolean := false; --! GNSS sub-system constant CFG_GNSS_SS_ENA : boolean := false; --! OTP 8 KB memory bank constant CFG_OTP8KB_ENA : boolean := false; --! Coherent bridge with L2-cache constant CFG_L2CACHE_ENA : boolean := false; end;
component nios_tester is port ( audio_in_data : in std_logic_vector(31 downto 0) := (others => 'X'); -- data audio_in_valid : in std_logic := 'X'; -- valid audio_in_ready : out std_logic; -- ready audio_out_data : out std_logic_vector(31 downto 0); -- data audio_out_valid : out std_logic; -- valid audio_out_ready : in std_logic := 'X'; -- ready dummy_export : in std_logic := 'X'; -- export io_ack : in std_logic := 'X'; -- ack io_rdata : in std_logic_vector(7 downto 0) := (others => 'X'); -- rdata io_read : out std_logic; -- read io_wdata : out std_logic_vector(7 downto 0); -- wdata io_write : out std_logic; -- write io_address : out std_logic_vector(19 downto 0); -- address io_irq : in std_logic := 'X'; -- irq io_u2p_ack : in std_logic := 'X'; -- ack io_u2p_rdata : in std_logic_vector(7 downto 0) := (others => 'X'); -- rdata io_u2p_read : out std_logic; -- read io_u2p_wdata : out std_logic_vector(7 downto 0); -- wdata io_u2p_write : out std_logic; -- write io_u2p_address : out std_logic_vector(19 downto 0); -- address io_u2p_irq : in std_logic := 'X'; -- irq jtag0_jtag_tck : out std_logic; -- jtag_tck jtag0_jtag_tms : out std_logic; -- jtag_tms jtag0_jtag_tdi : out std_logic; -- jtag_tdi jtag0_jtag_tdo : in std_logic := 'X'; -- jtag_tdo jtag1_jtag_tck : out std_logic; -- jtag_tck jtag1_jtag_tms : out std_logic; -- jtag_tms jtag1_jtag_tdi : out std_logic; -- jtag_tdi jtag1_jtag_tdo : in std_logic := 'X'; -- jtag_tdo jtag_in_data : in std_logic_vector(7 downto 0) := (others => 'X'); -- data jtag_in_valid : in std_logic := 'X'; -- valid jtag_in_ready : out std_logic; -- ready mem_mem_req_address : out std_logic_vector(25 downto 0); -- mem_req_address mem_mem_req_byte_en : out std_logic_vector(3 downto 0); -- mem_req_byte_en mem_mem_req_read_writen : out std_logic; -- mem_req_read_writen mem_mem_req_request : out std_logic; -- mem_req_request mem_mem_req_tag : out std_logic_vector(7 downto 0); -- mem_req_tag mem_mem_req_wdata : out std_logic_vector(31 downto 0); -- mem_req_wdata mem_mem_resp_dack_tag : in std_logic_vector(7 downto 0) := (others => 'X'); -- mem_resp_dack_tag mem_mem_resp_data : in std_logic_vector(31 downto 0) := (others => 'X'); -- mem_resp_data mem_mem_resp_rack_tag : in std_logic_vector(7 downto 0) := (others => 'X'); -- mem_resp_rack_tag pio_in_port : in std_logic_vector(31 downto 0) := (others => 'X'); -- in_port pio_out_port : out std_logic_vector(31 downto 0); -- out_port spi_MISO : in std_logic := 'X'; -- MISO spi_MOSI : out std_logic; -- MOSI spi_SCLK : out std_logic; -- SCLK spi_SS_n : out std_logic; -- SS_n sys_clock_clk : in std_logic := 'X'; -- clk sys_reset_reset_n : in std_logic := 'X' -- reset_n ); end component nios_tester; u0 : component nios_tester port map ( audio_in_data => CONNECTED_TO_audio_in_data, -- audio_in.data audio_in_valid => CONNECTED_TO_audio_in_valid, -- .valid audio_in_ready => CONNECTED_TO_audio_in_ready, -- .ready audio_out_data => CONNECTED_TO_audio_out_data, -- audio_out.data audio_out_valid => CONNECTED_TO_audio_out_valid, -- .valid audio_out_ready => CONNECTED_TO_audio_out_ready, -- .ready dummy_export => CONNECTED_TO_dummy_export, -- dummy.export io_ack => CONNECTED_TO_io_ack, -- io.ack io_rdata => CONNECTED_TO_io_rdata, -- .rdata io_read => CONNECTED_TO_io_read, -- .read io_wdata => CONNECTED_TO_io_wdata, -- .wdata io_write => CONNECTED_TO_io_write, -- .write io_address => CONNECTED_TO_io_address, -- .address io_irq => CONNECTED_TO_io_irq, -- .irq io_u2p_ack => CONNECTED_TO_io_u2p_ack, -- io_u2p.ack io_u2p_rdata => CONNECTED_TO_io_u2p_rdata, -- .rdata io_u2p_read => CONNECTED_TO_io_u2p_read, -- .read io_u2p_wdata => CONNECTED_TO_io_u2p_wdata, -- .wdata io_u2p_write => CONNECTED_TO_io_u2p_write, -- .write io_u2p_address => CONNECTED_TO_io_u2p_address, -- .address io_u2p_irq => CONNECTED_TO_io_u2p_irq, -- .irq jtag0_jtag_tck => CONNECTED_TO_jtag0_jtag_tck, -- jtag0.jtag_tck jtag0_jtag_tms => CONNECTED_TO_jtag0_jtag_tms, -- .jtag_tms jtag0_jtag_tdi => CONNECTED_TO_jtag0_jtag_tdi, -- .jtag_tdi jtag0_jtag_tdo => CONNECTED_TO_jtag0_jtag_tdo, -- .jtag_tdo jtag1_jtag_tck => CONNECTED_TO_jtag1_jtag_tck, -- jtag1.jtag_tck jtag1_jtag_tms => CONNECTED_TO_jtag1_jtag_tms, -- .jtag_tms jtag1_jtag_tdi => CONNECTED_TO_jtag1_jtag_tdi, -- .jtag_tdi jtag1_jtag_tdo => CONNECTED_TO_jtag1_jtag_tdo, -- .jtag_tdo jtag_in_data => CONNECTED_TO_jtag_in_data, -- jtag_in.data jtag_in_valid => CONNECTED_TO_jtag_in_valid, -- .valid jtag_in_ready => CONNECTED_TO_jtag_in_ready, -- .ready mem_mem_req_address => CONNECTED_TO_mem_mem_req_address, -- mem.mem_req_address mem_mem_req_byte_en => CONNECTED_TO_mem_mem_req_byte_en, -- .mem_req_byte_en mem_mem_req_read_writen => CONNECTED_TO_mem_mem_req_read_writen, -- .mem_req_read_writen mem_mem_req_request => CONNECTED_TO_mem_mem_req_request, -- .mem_req_request mem_mem_req_tag => CONNECTED_TO_mem_mem_req_tag, -- .mem_req_tag mem_mem_req_wdata => CONNECTED_TO_mem_mem_req_wdata, -- .mem_req_wdata mem_mem_resp_dack_tag => CONNECTED_TO_mem_mem_resp_dack_tag, -- .mem_resp_dack_tag mem_mem_resp_data => CONNECTED_TO_mem_mem_resp_data, -- .mem_resp_data mem_mem_resp_rack_tag => CONNECTED_TO_mem_mem_resp_rack_tag, -- .mem_resp_rack_tag pio_in_port => CONNECTED_TO_pio_in_port, -- pio.in_port pio_out_port => CONNECTED_TO_pio_out_port, -- .out_port spi_MISO => CONNECTED_TO_spi_MISO, -- spi.MISO spi_MOSI => CONNECTED_TO_spi_MOSI, -- .MOSI spi_SCLK => CONNECTED_TO_spi_SCLK, -- .SCLK spi_SS_n => CONNECTED_TO_spi_SS_n, -- .SS_n sys_clock_clk => CONNECTED_TO_sys_clock_clk, -- sys_clock.clk sys_reset_reset_n => CONNECTED_TO_sys_reset_reset_n -- sys_reset.reset_n );
-- ---------------------------------------------------------------------- --LOGI-hard --Copyright (c) 2013, Jonathan Piat, Michael Jones, All rights reserved. -- --This library is free software; you can redistribute it and/or --modify it under the terms of the GNU Lesser General Public --License as published by the Free Software Foundation; either --version 3.0 of the License, or (at your option) any later version. -- --This library is distributed in the hope that it will be useful, --but WITHOUT ANY WARRANTY; without even the implied warranty of --MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU --Lesser General Public License for more details. -- --You should have received a copy of the GNU Lesser General Public --License along with this library. -- ---------------------------------------------------------------------- -------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 17:36:20 05/12/2013 -- Design Name: -- Module Name: /home/jpiat/development/FPGA/logi-family/logi-projects/AVC2013/avc_platform/pid_controller_tb.vhd -- Project Name: avc_platform -- Target Device: -- Tool versions: ISE 14.1 -- Description: -- -- VHDL Test Bench Created by ISE for module: pid_controller -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- -- Notes: -- This testbench has been automatically generated using types std_logic and -- std_logic_vector for the ports of the unit under test. Xilinx recommends -- that these types always be used for the top-level I/O of a design in order -- to guarantee that the testbench will bind correctly to the post-implementation -- simulation model. -------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.std_logic_signed.ALL; USE ieee.numeric_std.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values --USE ieee.numeric_std.ALL; ENTITY pid_controller_tb IS END pid_controller_tb; ARCHITECTURE behavior OF pid_controller_tb IS -- Component Declaration for the Unit Under Test (UUT) component pid_filter is generic(clk_period_ns : integer := 8; pid_period_ns : integer := 20000000); -- 50Hz PID for RC based ESC port( clk, resetn : in std_logic ; en : in std_logic ; K, AK : in std_logic_vector(15 downto 0); B : in std_logic_vector(15 downto 0); setpoint : in signed(15 downto 0); measure : in signed(15 downto 0); cmd : out std_logic_vector(15 downto 0); dir : out std_logic ); end component; COMPONENT encoder_interface PORT( clk : IN std_logic; reset : IN std_logic; channel_a : IN std_logic; channel_b : IN std_logic; period : OUT std_logic_vector(15 downto 0); reset_count : IN std_logic; count : OUT std_logic_vector(15 downto 0); pv : OUT std_logic ); END COMPONENT; --Inputs signal clk : std_logic := '0'; signal resetn : std_logic := '0'; signal en : std_logic := '0'; signal reset : std_logic := '0'; signal P : signed(15 downto 0) := (others => '0'); signal I : signed(15 downto 0) := (others => '0'); signal D : signed(15 downto 0) := (others => '0'); signal speed_input : signed(15 downto 0); signal channel_a : std_logic := '0'; signal channel_b : std_logic := '0'; signal reset_count : std_logic := '0'; --Outputs signal command : std_logic_vector(15 downto 0); signal period : std_logic_vector(15 downto 0); signal count : std_logic_vector(15 downto 0); signal pv : std_logic; signal dir : std_logic; -- Clock period definitions constant clk_period : time := 10 ns; constant enc_period_max : time := 32000 us ; constant enc_period_min : time := 1 us ; BEGIN pif_filter0 : pid_filter generic map(clk_period_ns => 10, pid_period_ns => 1000000) port map( clk => clk, resetn => (not reset), en => en, K => X"0400", AK => X"0000", --B => X"0200", --AK => X"0000", B => X"0000", setpoint => speed_input, measure => signed(period), cmd => command , dir => dir ); en <= '1' ; P <= SHIFT_LEFT (to_signed(10, 16), 8); I <= SHIFT_LEFT (to_signed(5, 16), 8); speed_input <= to_signed(800, 16) ; -- Clock process definitions uut: encoder_interface PORT MAP ( clk => clk, reset => reset, channel_a => channel_a, channel_b => channel_b, period => period, reset_count => '0', count => count, pv => pv ); -- Clock process definitions clk_process :process begin clk <= '0'; wait for clk_period/2; clk <= '1'; wait for clk_period/2; end process; -- Stimulus process stim_proc: process variable enc_period : time := 100 us ; begin -- hold reset state for 100 ns. reset <= '1' ; channel_a <= '0' ; channel_b <= '0' ; reset_count <= '0' ; wait for 100 ns; reset <= '0' ; wait for clk_period*10; for i in 0 to 10_000_000 loop channel_a <= '1' ; channel_b <= '0' ; wait for enc_period/4; channel_b <= '1' ; wait for enc_period/4; channel_a <= '0' ; wait for enc_period/4; channel_b <= '0' ; wait for enc_period/4; if conv_integer(command) > 0 then enc_period := enc_period_min*(conv_integer(command)); end if ; end loop ; for i in 0 to 10 loop channel_a <= '0' ; channel_b <= '1' ; wait for enc_period/4; channel_a <= '1' ; wait for enc_period/4; channel_b <= '0' ; wait for enc_period/4; channel_a <= '0' ; wait for enc_period/4; end loop ; -- insert stimulus here wait; end process; END;
-- ---------------------------------------------------------------------- --LOGI-hard --Copyright (c) 2013, Jonathan Piat, Michael Jones, All rights reserved. -- --This library is free software; you can redistribute it and/or --modify it under the terms of the GNU Lesser General Public --License as published by the Free Software Foundation; either --version 3.0 of the License, or (at your option) any later version. -- --This library is distributed in the hope that it will be useful, --but WITHOUT ANY WARRANTY; without even the implied warranty of --MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU --Lesser General Public License for more details. -- --You should have received a copy of the GNU Lesser General Public --License along with this library. -- ---------------------------------------------------------------------- -------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 17:36:20 05/12/2013 -- Design Name: -- Module Name: /home/jpiat/development/FPGA/logi-family/logi-projects/AVC2013/avc_platform/pid_controller_tb.vhd -- Project Name: avc_platform -- Target Device: -- Tool versions: ISE 14.1 -- Description: -- -- VHDL Test Bench Created by ISE for module: pid_controller -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- -- Notes: -- This testbench has been automatically generated using types std_logic and -- std_logic_vector for the ports of the unit under test. Xilinx recommends -- that these types always be used for the top-level I/O of a design in order -- to guarantee that the testbench will bind correctly to the post-implementation -- simulation model. -------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.std_logic_signed.ALL; USE ieee.numeric_std.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values --USE ieee.numeric_std.ALL; ENTITY pid_controller_tb IS END pid_controller_tb; ARCHITECTURE behavior OF pid_controller_tb IS -- Component Declaration for the Unit Under Test (UUT) component pid_filter is generic(clk_period_ns : integer := 8; pid_period_ns : integer := 20000000); -- 50Hz PID for RC based ESC port( clk, resetn : in std_logic ; en : in std_logic ; K, AK : in std_logic_vector(15 downto 0); B : in std_logic_vector(15 downto 0); setpoint : in signed(15 downto 0); measure : in signed(15 downto 0); cmd : out std_logic_vector(15 downto 0); dir : out std_logic ); end component; COMPONENT encoder_interface PORT( clk : IN std_logic; reset : IN std_logic; channel_a : IN std_logic; channel_b : IN std_logic; period : OUT std_logic_vector(15 downto 0); reset_count : IN std_logic; count : OUT std_logic_vector(15 downto 0); pv : OUT std_logic ); END COMPONENT; --Inputs signal clk : std_logic := '0'; signal resetn : std_logic := '0'; signal en : std_logic := '0'; signal reset : std_logic := '0'; signal P : signed(15 downto 0) := (others => '0'); signal I : signed(15 downto 0) := (others => '0'); signal D : signed(15 downto 0) := (others => '0'); signal speed_input : signed(15 downto 0); signal channel_a : std_logic := '0'; signal channel_b : std_logic := '0'; signal reset_count : std_logic := '0'; --Outputs signal command : std_logic_vector(15 downto 0); signal period : std_logic_vector(15 downto 0); signal count : std_logic_vector(15 downto 0); signal pv : std_logic; signal dir : std_logic; -- Clock period definitions constant clk_period : time := 10 ns; constant enc_period_max : time := 32000 us ; constant enc_period_min : time := 1 us ; BEGIN pif_filter0 : pid_filter generic map(clk_period_ns => 10, pid_period_ns => 1000000) port map( clk => clk, resetn => (not reset), en => en, K => X"0400", AK => X"0000", --B => X"0200", --AK => X"0000", B => X"0000", setpoint => speed_input, measure => signed(period), cmd => command , dir => dir ); en <= '1' ; P <= SHIFT_LEFT (to_signed(10, 16), 8); I <= SHIFT_LEFT (to_signed(5, 16), 8); speed_input <= to_signed(800, 16) ; -- Clock process definitions uut: encoder_interface PORT MAP ( clk => clk, reset => reset, channel_a => channel_a, channel_b => channel_b, period => period, reset_count => '0', count => count, pv => pv ); -- Clock process definitions clk_process :process begin clk <= '0'; wait for clk_period/2; clk <= '1'; wait for clk_period/2; end process; -- Stimulus process stim_proc: process variable enc_period : time := 100 us ; begin -- hold reset state for 100 ns. reset <= '1' ; channel_a <= '0' ; channel_b <= '0' ; reset_count <= '0' ; wait for 100 ns; reset <= '0' ; wait for clk_period*10; for i in 0 to 10_000_000 loop channel_a <= '1' ; channel_b <= '0' ; wait for enc_period/4; channel_b <= '1' ; wait for enc_period/4; channel_a <= '0' ; wait for enc_period/4; channel_b <= '0' ; wait for enc_period/4; if conv_integer(command) > 0 then enc_period := enc_period_min*(conv_integer(command)); end if ; end loop ; for i in 0 to 10 loop channel_a <= '0' ; channel_b <= '1' ; wait for enc_period/4; channel_a <= '1' ; wait for enc_period/4; channel_b <= '0' ; wait for enc_period/4; channel_a <= '0' ; wait for enc_period/4; end loop ; -- insert stimulus here wait; end process; END;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block dtAEWEOKqOqrpAmeS24y1S1B2YfdSni9G3dTaJcUjsm5nuVfmZ80PljPbQotMCqF4yghJAktRIQd EF4jlm4dnQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BQche4agJK9R09JlnuMDIbXNwyi7gnTJ18kW+stpCO16U7NpqStyJ7Yuo4pmvi94XbJdGn+5D/ap 7uwGZo3EzzbHbD50glbbuq/2LeGyhzVQEWnBgYVQz8CEttH5yNQdhDPX4XhElfzJDfTstdXo4bw1 JJNooIzDnP/YpRNBT0g= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block fi+h7WrrLuJ2Owx1GTJdrlFwCAzu5v+tCXktXeXNprdb42v5GM+yH8wJMt7YklJJ4MUUV9yYNLal nFLDMW12ifGNSPv2UY62thapm8+Pjgix1kTO1nzX2+UEB4/Yu9DohtPAyHx6Iw9wNfmU3OB6C9t4 00JDeR8aCs5yfPCt+XKC8ue3j9fu8o0a5wAdG7UPh+1+EOGWjO4ufEAaVGG+KINWzTO46pWaduz/ a+wM2MAQkiylIFfsUMpRS6/IVXQpWFFp4XQq8OHH5vO9IQ/T5J8mrT/WP6bbudnYeNuDYySP42GU TtkN7fZIp3/Jsm14CwBUZn6o6uLIMmLGN4Ks4Q== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block JdLKV8tnJsIVln6D/7B/uFXLQXj5gZfJ0aKTpyyvV8rEdJBDtZQNx4M1BAw91lkFkgIxSh3SZzVk z0BmlCySvT3gSVrkE9oQWU0I8OdXBUgpIRHiHFcS994W4ZlM8XUi9cLLrU++O7omHPDeX+b3ebgv dZA2WDIjHz3u2q85TDE= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block JmEV7vD7VtVBckrH/uYo7jX4KLyHkf8CAQr5SHyak8vd9QL7Pccpl0qwD8HUbLuDDhNAtZvH+n3e 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block dtAEWEOKqOqrpAmeS24y1S1B2YfdSni9G3dTaJcUjsm5nuVfmZ80PljPbQotMCqF4yghJAktRIQd EF4jlm4dnQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BQche4agJK9R09JlnuMDIbXNwyi7gnTJ18kW+stpCO16U7NpqStyJ7Yuo4pmvi94XbJdGn+5D/ap 7uwGZo3EzzbHbD50glbbuq/2LeGyhzVQEWnBgYVQz8CEttH5yNQdhDPX4XhElfzJDfTstdXo4bw1 JJNooIzDnP/YpRNBT0g= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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-- This file is modified from lab1 top level vhdl file provided in eclass -- A library clause declares a name as a library. It -- does not create the library; it simply forward declares -- it. library ieee; -- Commonly imported packages: -- STD_LOGIC and STD_LOGIC_VECTOR types, and relevant functions use ieee.std_logic_1164.all; -- SIGNED and UNSIGNED types, and relevant functions use ieee.numeric_std.all; -- Basic sequential functions and concurrent procedures use ieee.VITAL_Primitives.all; use work.DE0_CONSTANTS.all; entity electronic_engine_control is port ( -- Input ports and 50 MHz Clock KEY : in std_logic_vector (0 downto 0); SW : in std_logic_vector (3 downto 0); CLOCK_50 : in std_logic; -- Green leds on board LED : out DE0_LED_GREEN; -- SDRAM on board DRAM_ADDR : out DE0_SDRAM_ADDR_BUS; DRAM_BA : out DE0_DRAM_BA; DRAM_CAS_N : out std_logic; DRAM_CKE : out std_logic; DRAM_CLK : out std_logic; DRAM_CS_N : out std_logic; DRAM_DQ : inout DE0_SDRAM_DATA_BUS; DRAM_DQM : out DE0_SDRAM_DQM; DRAM_RAS_N : out std_logic; DRAM_WE_N : out std_logic; GPIO_0 : out std_logic_vector (35 downto 0); GPIO_2 : in std_logic_vector (7 downto 0); -- ADC ADC_CS_N : out std_logic; ADC_SADDR : out std_logic; ADC_SCLK : out std_logic; ADC_SDAT : in std_logic ); end electronic_engine_control; architecture structure of electronic_engine_control is -- Declarations (optional) component niosII_system is port ( clk_0 : in std_logic := 'X'; -- clk reset_n : in std_logic := 'X'; -- reset_n sdram_0_wire_addr : out DE0_SDRAM_ADDR_BUS; -- addr sdram_0_wire_ba : out std_logic_vector(1 downto 0); -- ba sdram_0_wire_cas_n : out std_logic; -- cas_n sdram_0_wire_cke : out std_logic; -- cke sdram_0_wire_cs_n : out std_logic; -- cs_n sdram_0_wire_dq : inout DE0_SDRAM_DATA_BUS := (others => 'X'); -- dq sdram_0_wire_dqm : out std_logic_vector(1 downto 0); -- dqm sdram_0_wire_ras_n : out std_logic; -- ras_n sdram_0_wire_we_n : out std_logic; -- we_n altpll_0_c0_out : out std_logic; -- clk out_port_from_the_green_leds : out DE0_LED_GREEN; -- led out in_port_to_the_switch : in std_logic_vector(3 downto 0) := (others => 'X'); -- export switch adc_sclk_from_the_de0_nano_adc_0 : out std_logic; -- adc_sclk adc_cs_n_from_the_de0_nano_adc_0 : out std_logic; -- adc_cs_n adc_dout_to_the_de0_nano_adc_0 : in std_logic := 'X'; -- adc_dout adc_din_from_the_de0_nano_adc_0 : out std_logic; -- adc_din pwm_generator_tps_out_pwm_out_export : out std_logic := '0'; -- pwm_out_tps_val rs232_0_external_interface_RXD : in std_logic := 'X'; -- RXD rs232_0_external_interface_TXD : out std_logic; -- TXD solenoid_out_external_connection_export : out std_logic_vector(7 downto 0) := "00000000"; -- export solenid drivin pins pwm_generator_throttle_close_pwm_out_export : out std_logic; -- export pwm throttle close pwm_generator_throttle_open_pwm_out_export : out std_logic; -- export pwm throttle open buttons_external_connection_export : in std_logic_vector(7 downto 0) := "00000000"; -- export buttons pwm_generator_test_pwm_out_export : out std_logic; -- export pwm test curr_gear_out_external_connection_export : out std_logic_vector(1 downto 0); -- export current gear info pwm_generator_engine_sound_out_pwm_out_export : out std_logic := '0'; -- export pwm engine sound rpm_pwm_decoder_conduit_end_export : in std_logic := '0' -- export rpm pwm in ); end component niosII_system; -- These signals are for matching the provided IP core to -- The specific SDRAM chip in our system signal BA : std_logic_vector (1 downto 0); signal DQM : std_logic_vector (1 downto 0); begin DRAM_BA(1) <= BA(1); DRAM_BA(0) <= BA(0); DRAM_DQM(1) <= DQM(1); DRAM_DQM(0) <= DQM(0); -- Component Instantiation Statement (optional) u0 : component niosII_system port map ( clk_0 => CLOCK_50, reset_n => KEY(0), sdram_0_wire_addr => DRAM_ADDR, sdram_0_wire_ba => BA, sdram_0_wire_cas_n => DRAM_CAS_N, sdram_0_wire_cke => DRAM_CKE, sdram_0_wire_cs_n => DRAM_CS_N, sdram_0_wire_dq => DRAM_DQ, sdram_0_wire_dqm => DQM, sdram_0_wire_ras_n => DRAM_RAS_N, sdram_0_wire_we_n => DRAM_WE_N, altpll_0_c0_out => DRAM_CLK, out_port_from_the_green_leds => LED, in_port_to_the_switch => SW, adc_sclk_from_the_de0_nano_adc_0 => ADC_SCLK, adc_cs_n_from_the_de0_nano_adc_0 => ADC_CS_N, adc_dout_to_the_de0_nano_adc_0 => ADC_SDAT, adc_din_from_the_de0_nano_adc_0 => ADC_SADDR, pwm_generator_test_pwm_out_export => GPIO_0(0), pwm_generator_throttle_open_pwm_out_export => GPIO_0(8), pwm_generator_throttle_close_pwm_out_export => GPIO_0(9), pwm_generator_tps_out_pwm_out_export => GPIO_0(1), solenoid_out_external_connection_export(2) => GPIO_0(2), solenoid_out_external_connection_export(3) => GPIO_0(3), buttons_external_connection_export(2) => GPIO_2(2), buttons_external_connection_export(3) => GPIO_2(3), rs232_0_external_interface_TXD => GPIO_0(7), curr_gear_out_external_connection_export(0) => GPIO_0(10), curr_gear_out_external_connection_export(1) => GPIO_0(11), rs232_0_external_interface_RXD => GPIO_2(4), pwm_generator_engine_sound_out_pwm_out_export => GPIO_0(12), rpm_pwm_decoder_conduit_end_export => GPIO_2(7) ); end structure; library ieee; -- Commonly imported packages: -- STD_LOGIC and STD_LOGIC_VECTOR types, and relevant functions use ieee.std_logic_1164.all; package DE0_CONSTANTS is type DE0_SDRAM_ADDR_BUS is array(11 downto 0) of std_logic; type DE0_SDRAM_DATA_BUS is array(15 downto 0) of std_logic; type DE0_SDRAM_DQM is array(1 downto 0) of std_logic; type DE0_LED_GREEN is array(7 downto 0) of std_logic; type DE0_DRAM_BA is array(1 downto 0) of std_logic; end DE0_CONSTANTS;
--Copyright (C) 2016 Siavoosh Payandeh Azad library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use IEEE.NUMERIC_STD.all; use ieee.math_real.all; use std.textio.all; use ieee.std_logic_misc.all; package TB_Package is function Header_gen(network_size_x, source, destination: integer ) return std_logic_vector ; function Body_1_gen(Packet_length, packet_id: integer ) return std_logic_vector ; function Body_gen(Data: integer ) return std_logic_vector ; function Tail_gen(Packet_length, Data: integer ) return std_logic_vector ; procedure credit_counter_control(signal clk: in std_logic; signal credit_in: in std_logic; signal valid_out: in std_logic; signal credit_counter_out: out std_logic_vector(1 downto 0)); procedure gen_random_packet(network_size_x, network_size_y, frame_length, source, initial_delay, min_packet_size, max_packet_size: in integer; finish_time: in time; signal clk: in std_logic; signal credit_counter_in: in std_logic_vector(1 downto 0); signal valid_out: out std_logic; signal credit_counter_in_vc: in std_logic_vector(1 downto 0); signal valid_out_vc: out std_logic; signal port_in: out std_logic_vector); procedure get_packet(network_size_x, DATA_WIDTH, initial_delay, Node_ID: in integer; signal clk: in std_logic; signal credit_out: out std_logic; signal valid_in: in std_logic; signal credit_out_vc: out std_logic; signal valid_in_vc: in std_logic; signal port_in: in std_logic_vector); end TB_Package; package body TB_Package is constant Header_type : std_logic_vector := "001"; constant Body_type : std_logic_vector := "010"; constant Tail_type : std_logic_vector := "100"; function Header_gen(network_size_x, source, destination: integer) return std_logic_vector is variable Header_flit: std_logic_vector (31 downto 0); variable source_x, source_y, destination_x, destination_y: integer; begin -- We only need network_size_x for calculation of X and Y coordinates of a node! source_x := source mod network_size_x; source_y := source / network_size_x; destination_x := destination mod network_size_x; destination_y := destination / network_size_x; Header_flit := Header_type & std_logic_vector(to_unsigned(source_y,7)) & std_logic_vector(to_unsigned(source_x,7)) & std_logic_vector(to_unsigned(destination_y,7)) & std_logic_vector(to_unsigned(destination_x,7)) & XOR_REDUCE(Header_type & std_logic_vector(to_unsigned(source_y,7)) & std_logic_vector(to_unsigned(source_x,7)) & std_logic_vector(to_unsigned(destination_y,7)) & std_logic_vector(to_unsigned(destination_x,7))); return Header_flit; end Header_gen; function Body_1_gen(Packet_length, packet_id: integer) return std_logic_vector is variable Body_flit: std_logic_vector (31 downto 0); begin Body_flit := Body_type & std_logic_vector(to_unsigned(Packet_length, 14))& std_logic_vector(to_unsigned(packet_id, 14)) & XOR_REDUCE(Body_type & std_logic_vector(to_unsigned(Packet_length, 14))& std_logic_vector(to_unsigned(packet_id, 14))); return Body_flit; end Body_1_gen; function Body_gen(Data: integer) return std_logic_vector is variable Body_flit: std_logic_vector (31 downto 0); begin Body_flit := Body_type & std_logic_vector(to_unsigned(Data, 28)) & XOR_REDUCE(Body_type & std_logic_vector(to_unsigned(Data, 28))); return Body_flit; end Body_gen; function Tail_gen(Packet_length, Data: integer) return std_logic_vector is variable Tail_flit: std_logic_vector (31 downto 0); begin Tail_flit := Tail_type & std_logic_vector(to_unsigned(Data, 28)) & XOR_REDUCE(Tail_type & std_logic_vector(to_unsigned(Data, 28))); return Tail_flit; end Tail_gen; procedure credit_counter_control(signal clk: in std_logic; signal credit_in: in std_logic; signal valid_out: in std_logic; signal credit_counter_out: out std_logic_vector(1 downto 0)) is variable credit_counter: std_logic_vector (1 downto 0); begin credit_counter := "11"; while true loop credit_counter_out<= credit_counter; wait until clk'event and clk ='1'; if valid_out = '1' and credit_in ='1' then credit_counter := credit_counter; elsif credit_in = '1' then credit_counter := credit_counter + 1; elsif valid_out = '1' and credit_counter > 0 then credit_counter := credit_counter - 1; else credit_counter := credit_counter; end if; end loop; end credit_counter_control; procedure gen_random_packet(network_size_x, network_size_y, frame_length, source, initial_delay, min_packet_size, max_packet_size: in integer; finish_time: in time; signal clk: in std_logic; signal credit_counter_in: in std_logic_vector(1 downto 0); signal valid_out: out std_logic; signal credit_counter_in_vc: in std_logic_vector(1 downto 0); signal valid_out_vc: out std_logic; signal port_in: out std_logic_vector) is variable seed1 :positive := source+1; variable seed2 :positive := source+1; variable LINEVARIABLE : line; file VEC_FILE : text is out "sent.txt"; variable rand : real ; variable destination_id: integer; variable id_counter, frame_starting_delay, Packet_length, frame_ending_delay : integer:= 0; variable credit_counter: std_logic_vector (1 downto 0); variable vc: integer:= 0; begin Packet_length := integer((integer(rand*100.0)*frame_length)/100); valid_out <= '0'; valid_out_vc <= '0'; port_in <= "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX" ; wait until clk'event and clk ='1'; for i in 0 to initial_delay loop wait until clk'event and clk ='1'; end loop; port_in <= "UUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUU" ; while true loop -- choose vc uniform(seed1, seed2, rand); if (integer(rand*2.0) > 1) then vc := 1; else vc := 0; end if; --generating the frame initial delay uniform(seed1, seed2, rand); frame_starting_delay := integer(((integer(rand*100.0)*(frame_length - Packet_length-1)))/100); --generating the frame ending delay frame_ending_delay := frame_length - (Packet_length+frame_starting_delay); for k in 0 to frame_starting_delay-1 loop wait until clk'event and clk ='0'; end loop; valid_out <= '0'; valid_out_vc <= '0'; if vc = 0 then while credit_counter_in = 0 loop wait until clk'event and clk ='0'; end loop; else while credit_counter_in_vc = 0 loop wait until clk'event and clk ='0'; end loop; end if; -- generating the packet id_counter := id_counter + 1; if id_counter = 16384 then id_counter := 0; end if; -------------------------------------- uniform(seed1, seed2, rand); Packet_length := integer((integer(rand*100.0)*frame_length)/100); if (Packet_length < min_packet_size) then Packet_length:=min_packet_size; end if; if (Packet_length > max_packet_size) then Packet_length:=max_packet_size; end if; -------------------------------------- uniform(seed1, seed2, rand); destination_id := integer(rand*real((network_size_x*network_size_y)-1)); while (destination_id = source) loop uniform(seed1, seed2, rand); destination_id := integer(rand*real((network_size_x*network_size_y)-1)); end loop; -------------------------------------- if vc = 0 then write(LINEVARIABLE, "Packet generated at " & time'image(now) & " From " & integer'image(source) & " to " & integer'image(destination_id) & " with length: " & integer'image(Packet_length) & " id: " & integer'image(id_counter) & " vc: 0"); else write(LINEVARIABLE, "Packet generated at " & time'image(now) & " From " & integer'image(source) & " to " & integer'image(destination_id) & " with length: " & integer'image(Packet_length) & " id: " & integer'image(id_counter)& " vc: 1"); end if; writeline(VEC_FILE, LINEVARIABLE); wait until clk'event and clk ='0'; -- On negative edge of clk (for syncing purposes) port_in <= Header_gen(network_size_x, source, destination_id); -- Generating the header flit of the packet (All packets have a header flit)! if vc = 0 then valid_out <= '1'; else valid_out_vc <= '1'; end if; wait until clk'event and clk ='0'; for I in 0 to Packet_length-3 loop -- The reason for -3 is that we have packet length of Packet_length, now if you exclude header and tail -- it would be Packet_length-2 to enumerate them, you can count from 0 to Packet_length-3. if vc = 0 then if credit_counter_in = "00" then valid_out <= '0'; -- Wait until next router/NI has at least enough space for one flit in its input FIFO wait until credit_counter_in'event and credit_counter_in > 0; wait until clk'event and clk ='0'; end if; else if credit_counter_in_vc = "00" then valid_out_vc <= '0'; -- Wait until next router/NI has at least enough space for one flit in its input FIFO wait until credit_counter_in_vc'event and credit_counter_in_vc > 0; wait until clk'event and clk ='0'; end if; end if; uniform(seed1, seed2, rand); -- Each packet can have no body flits or one or more than body flits. if I = 0 then port_in <= Body_1_gen(Packet_length, id_counter); else port_in <= Body_gen(integer(rand*1000.0)); end if; if vc = 0 then valid_out <= '1'; else valid_out_vc <= '1'; end if; wait until clk'event and clk ='0'; end loop; if vc = 0 then if credit_counter_in = "00" then valid_out <= '0'; -- Wait until next router/NI has at least enough space for one flit in its input FIFO wait until credit_counter_in'event and credit_counter_in > 0; wait until clk'event and clk ='0'; end if; else if credit_counter_in_vc = "00" then valid_out_vc <= '0'; -- Wait until next router/NI has at least enough space for one flit in its input FIFO wait until credit_counter_in_vc'event and credit_counter_in_vc > 0; wait until clk'event and clk ='0'; end if; end if; uniform(seed1, seed2, rand); -- Close the packet with a tail flit (All packets have one tail flit)! port_in <= Tail_gen(Packet_length, integer(rand*1000.0)); if vc = 0 then valid_out <= '1'; else valid_out_vc <= '1'; end if; wait until clk'event and clk ='0'; if vc = 0 then valid_out <= '0'; else valid_out_vc <= '0'; end if; port_in <= "ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ" ; for l in 0 to frame_ending_delay-1 loop wait until clk'event and clk ='0'; end loop; port_in <= "UUUUUUUUUUUUUUUUUUUUUUUUUUUUUUUU" ; if now > finish_time then wait; end if; end loop; end gen_random_packet; procedure get_packet(network_size_x, DATA_WIDTH, initial_delay, Node_ID: in integer; signal clk: in std_logic; signal credit_out: out std_logic; signal valid_in: in std_logic; signal credit_out_vc: out std_logic; signal valid_in_vc: in std_logic; signal port_in: in std_logic_vector) is -- initial_delay: waits for this number of clock cycles before sending the packet! variable source_node_x_vc, source_node_y_vc, destination_node_x_vc, destination_node_y_vc: integer; variable source_node_x, source_node_y, destination_node_x, destination_node_y, source_node, destination_node, P_length, packet_id, counter: integer; variable source_node_vc, destination_node_vc, P_length_vc, packet_id_vc, counter_vc: integer; variable LINEVARIABLE : line; file VEC_FILE : text is out "received.txt"; variable VC : integer; variable DIAGNOSIS_vector: std_logic_vector(12 downto 0); begin credit_out <= '1'; credit_out_vc <= '1'; counter := 0; counter_vc := 0; while true loop wait until clk'event and clk ='1'; if valid_in = '1' then if (port_in(DATA_WIDTH-1 downto DATA_WIDTH-3) = "001") then counter := 1; source_node_y := to_integer(unsigned(port_in(28 downto 22))); source_node_x := to_integer(unsigned(port_in(21 downto 15))); destination_node_y := to_integer(unsigned(port_in(14 downto 8))); destination_node_x := to_integer(unsigned(port_in(7 downto 1))); -- We only needs network_size_x for computing the node ID (convert from (X,Y) coordinate to Node ID)! source_node := (source_node_y * network_size_x) + source_node_x; destination_node := (destination_node_y * network_size_x) + destination_node_x; end if; if (port_in(DATA_WIDTH-1 downto DATA_WIDTH-3) = "010") then if counter = 1 then P_length := to_integer(unsigned(port_in(28 downto 15))); packet_id := to_integer(unsigned(port_in(15 downto 1))); end if; counter := counter+1; end if; if (port_in(DATA_WIDTH-1 downto DATA_WIDTH-3) = "100") then counter := counter+1; report "Node: " & integer'image(Node_ID) & " Packet received at " & time'image(now) & " From " & integer'image(source_node) & " to " & integer'image(destination_node) & " with length: "& integer'image(P_length) & " counter: "& integer'image(counter) & " vc: 0"; write(LINEVARIABLE, "Packet received at " & time'image(now) & " From: " & integer'image(source_node) & " to: " & integer'image(destination_node) & " length: "& integer'image(P_length) & " actual length: "& integer'image(counter) & " id: "& integer'image(packet_id)& " vc: 0"); writeline(VEC_FILE, LINEVARIABLE); assert (P_length=counter) report "wrong packet size" severity warning; assert (Node_ID=destination_node) report "wrong packet destination " severity failure; counter := 0; end if; elsif valid_in_vc = '1' then if (port_in(DATA_WIDTH-1 downto DATA_WIDTH-3) = "001") then counter_vc := 1; source_node_y_vc := to_integer(unsigned(port_in(28 downto 22))); source_node_x_vc := to_integer(unsigned(port_in(21 downto 15))); destination_node_y_vc := to_integer(unsigned(port_in(14 downto 8))); destination_node_x_vc := to_integer(unsigned(port_in(7 downto 1))); -- We only needs network_size_x for computing the node ID (convert from (X,Y) coordinate to Node ID)! source_node_vc := (source_node_y_vc * network_size_x) + source_node_x_vc; destination_node_vc := (destination_node_y_vc * network_size_x) + destination_node_x_vc; end if; if (port_in(DATA_WIDTH-1 downto DATA_WIDTH-3) = "010") then if counter_vc = 1 then P_length_vc := to_integer(unsigned(port_in(28 downto 15))); packet_id_vc := to_integer(unsigned(port_in(15 downto 1))); end if; counter_vc := counter_vc+1; end if; if (port_in(DATA_WIDTH-1 downto DATA_WIDTH-3) = "100") then counter_vc := counter_vc+1; report "Node: " & integer'image(Node_ID) & " Packet received at " & time'image(now) & " From " & integer'image(source_node_vc) & " to " & integer'image(destination_node_vc) & " with length: "& integer'image(P_length_vc) & " counter: "& integer'image(counter_vc) & " vc: 1"; write(LINEVARIABLE, "Packet received at " & time'image(now) & " From: " & integer'image(source_node_vc) & " to: " & integer'image(destination_node_vc) & " length: "& integer'image(P_length_vc) & " actual length: "& integer'image(counter_vc) & " id: "& integer'image(packet_id_vc)& " vc: 1"); writeline(VEC_FILE, LINEVARIABLE); assert (P_length=counter_vc) report "wrong packet size" severity warning; assert (Node_ID=destination_node_vc) report "wrong packet destination " severity failure; counter_vc := 0; end if; end if; end loop; end get_packet; end TB_Package;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2794.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity ELSIF is end ELSIF; ENTITY c13s09b00x00p99n01i02794ent IS END c13s09b00x00p99n01i02794ent; ARCHITECTURE c13s09b00x00p99n01i02794arch OF c13s09b00x00p99n01i02794ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02794 - Reserved word ELSIF can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02794arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2794.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity ELSIF is end ELSIF; ENTITY c13s09b00x00p99n01i02794ent IS END c13s09b00x00p99n01i02794ent; ARCHITECTURE c13s09b00x00p99n01i02794arch OF c13s09b00x00p99n01i02794ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02794 - Reserved word ELSIF can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02794arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2794.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity ELSIF is end ELSIF; ENTITY c13s09b00x00p99n01i02794ent IS END c13s09b00x00p99n01i02794ent; ARCHITECTURE c13s09b00x00p99n01i02794arch OF c13s09b00x00p99n01i02794ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02794 - Reserved word ELSIF can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02794arch;
--======================================================================================================================== -- Copyright (c) 2017 by Bitvis AS. All rights reserved. -- You should have received a copy of the license file containing the MIT License (see LICENSE.TXT), if not, -- contact Bitvis AS <support@bitvis.no>. -- -- UVVM AND ANY PART THEREOF ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE -- WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS -- OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR -- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH UVVM OR THE USE OR OTHER DEALINGS IN UVVM. --======================================================================================================================== ------------------------------------------------------------------------------------------ -- Description : See library quick reference (under 'doc') and README-file(s) ------------------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library uvvm_util; context uvvm_util.uvvm_util_context; library uvvm_vvc_framework; use uvvm_vvc_framework.ti_vvc_framework_support_pkg.all; entity ti_uvvm_engine is end entity; architecture func of ti_uvvm_engine is begin -------------------------------------------------------- -- Initializes the UVVM VVC Framework -------------------------------------------------------- p_initialize_uvvm : process begin -- shared_uvvm_state is initialized to IDLE. Hence it will stay in IDLE if this procedure is not included in the TB shared_uvvm_state := PHASE_A; wait for 0 ns; -- A single delta cycle wait for 0 ns; -- A single delta cycle if (shared_uvvm_state = PHASE_B) then tb_failure("ti_uvvm_engine seems to have been instantiated more than once in this testbench system", C_SCOPE); end if; shared_uvvm_state := PHASE_B; wait for 0 ns; -- A single delta cycle wait for 0 ns; -- A single delta cycle shared_uvvm_state := INIT_COMPLETED; wait; end process p_initialize_uvvm; end func;
--======================================================================================================================== -- Copyright (c) 2017 by Bitvis AS. All rights reserved. -- You should have received a copy of the license file containing the MIT License (see LICENSE.TXT), if not, -- contact Bitvis AS <support@bitvis.no>. -- -- UVVM AND ANY PART THEREOF ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE -- WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS -- OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR -- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH UVVM OR THE USE OR OTHER DEALINGS IN UVVM. --======================================================================================================================== ------------------------------------------------------------------------------------------ -- Description : See library quick reference (under 'doc') and README-file(s) ------------------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library uvvm_util; context uvvm_util.uvvm_util_context; library uvvm_vvc_framework; use uvvm_vvc_framework.ti_vvc_framework_support_pkg.all; entity ti_uvvm_engine is end entity; architecture func of ti_uvvm_engine is begin -------------------------------------------------------- -- Initializes the UVVM VVC Framework -------------------------------------------------------- p_initialize_uvvm : process begin -- shared_uvvm_state is initialized to IDLE. Hence it will stay in IDLE if this procedure is not included in the TB shared_uvvm_state := PHASE_A; wait for 0 ns; -- A single delta cycle wait for 0 ns; -- A single delta cycle if (shared_uvvm_state = PHASE_B) then tb_failure("ti_uvvm_engine seems to have been instantiated more than once in this testbench system", C_SCOPE); end if; shared_uvvm_state := PHASE_B; wait for 0 ns; -- A single delta cycle wait for 0 ns; -- A single delta cycle shared_uvvm_state := INIT_COMPLETED; wait; end process p_initialize_uvvm; end func;
`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block lz3B4KHX5z7HJK6kHiZGMmcEnUqLtTRT/n7HdY7szClNEEBtVq2UQW/wdwwMN27AnOLZPVfuS67c Y2O4fk1xOw== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block OUoXLY9rVEqAKiJgtR19Q8FIQUm9wPmLFXF2sem6w9gJVRflCYIHWjOAqv6eppRvqeqcjaja3KKN iRxsDXzkmdVb18CNyYXYPgZU4MySqAPoAE8BZ3alC446EKqG5bo3Faah4iFiaQ2fsSYQDhznQFWV FIedseAJGSJjdgeT43M= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block lz3B4KHX5z7HJK6kHiZGMmcEnUqLtTRT/n7HdY7szClNEEBtVq2UQW/wdwwMN27AnOLZPVfuS67c Y2O4fk1xOw== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block OUoXLY9rVEqAKiJgtR19Q8FIQUm9wPmLFXF2sem6w9gJVRflCYIHWjOAqv6eppRvqeqcjaja3KKN iRxsDXzkmdVb18CNyYXYPgZU4MySqAPoAE8BZ3alC446EKqG5bo3Faah4iFiaQ2fsSYQDhznQFWV FIedseAJGSJjdgeT43M= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block lz3B4KHX5z7HJK6kHiZGMmcEnUqLtTRT/n7HdY7szClNEEBtVq2UQW/wdwwMN27AnOLZPVfuS67c Y2O4fk1xOw== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block OUoXLY9rVEqAKiJgtR19Q8FIQUm9wPmLFXF2sem6w9gJVRflCYIHWjOAqv6eppRvqeqcjaja3KKN iRxsDXzkmdVb18CNyYXYPgZU4MySqAPoAE8BZ3alC446EKqG5bo3Faah4iFiaQ2fsSYQDhznQFWV FIedseAJGSJjdgeT43M= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block lz3B4KHX5z7HJK6kHiZGMmcEnUqLtTRT/n7HdY7szClNEEBtVq2UQW/wdwwMN27AnOLZPVfuS67c Y2O4fk1xOw== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block OUoXLY9rVEqAKiJgtR19Q8FIQUm9wPmLFXF2sem6w9gJVRflCYIHWjOAqv6eppRvqeqcjaja3KKN iRxsDXzkmdVb18CNyYXYPgZU4MySqAPoAE8BZ3alC446EKqG5bo3Faah4iFiaQ2fsSYQDhznQFWV FIedseAJGSJjdgeT43M= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block lz3B4KHX5z7HJK6kHiZGMmcEnUqLtTRT/n7HdY7szClNEEBtVq2UQW/wdwwMN27AnOLZPVfuS67c Y2O4fk1xOw== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block OUoXLY9rVEqAKiJgtR19Q8FIQUm9wPmLFXF2sem6w9gJVRflCYIHWjOAqv6eppRvqeqcjaja3KKN iRxsDXzkmdVb18CNyYXYPgZU4MySqAPoAE8BZ3alC446EKqG5bo3Faah4iFiaQ2fsSYQDhznQFWV FIedseAJGSJjdgeT43M= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block lz3B4KHX5z7HJK6kHiZGMmcEnUqLtTRT/n7HdY7szClNEEBtVq2UQW/wdwwMN27AnOLZPVfuS67c Y2O4fk1xOw== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block OUoXLY9rVEqAKiJgtR19Q8FIQUm9wPmLFXF2sem6w9gJVRflCYIHWjOAqv6eppRvqeqcjaja3KKN iRxsDXzkmdVb18CNyYXYPgZU4MySqAPoAE8BZ3alC446EKqG5bo3Faah4iFiaQ2fsSYQDhznQFWV FIedseAJGSJjdgeT43M= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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--************************************************************************************************ -- Internal I/O registers (implemented inside the core) decoder/multiplexer -- for AVR core -- Version 1.3 (Special version for the JTAG OCD) -- Designed by Ruslan Lepetenok -- Modified 22.04.2004 --************************************************************************************************ library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use WORK.AVRuCPackage.all; entity io_reg_file is port ( --Clock and reset cp2 : in std_logic; cp2en : in std_logic; ireset : in std_logic; adr : in std_logic_vector(15 downto 0); iowe : in std_logic; dbusout : in std_logic_vector(7 downto 0); sreg_fl_in : in std_logic_vector(7 downto 0); sreg_out : out std_logic_vector(7 downto 0); sreg_fl_wr_en : in std_logic_vector (7 downto 0); --FLAGS WRITE ENABLE SIGNALS spl_out : out std_logic_vector(7 downto 0); sph_out : out std_logic_vector(7 downto 0); sp_ndown_up : in std_logic; -- DIRECTION OF CHANGING OF STACK POINTER SPH:SPL 0->UP(+) 1->DOWN(-) sp_en : in std_logic; -- WRITE ENABLE(COUNT ENABLE) FOR SPH AND SPL REGISTERS rampz_out : out std_logic_vector(7 downto 0)); end io_reg_file; architecture rtl of io_reg_file is signal sreg : std_logic_vector(7 downto 0); signal sph : std_logic_vector(7 downto 0); signal spl : std_logic_vector(7 downto 0); signal rampz : std_logic_vector(7 downto 0); signal sp_int : std_logic_vector(15 downto 0); signal sp_intp : std_logic_vector(15 downto 0); signal sp_intm : std_logic_vector(15 downto 0); signal sp_res : std_logic_vector(15 downto 0); begin sreg_write:process(cp2,ireset) begin if ireset='0' then sreg <= (others => '0'); elsif (cp2='1' and cp2'event) then if (cp2en='1') then -- Clock enable for i in sreg'range loop if (sreg_fl_wr_en(i)='1' or (adr=SREG_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sreg(i) <= dbusout(i); -- FROM THE INTERNAL DATA BUS else sreg(i) <= sreg_fl_in(i); -- FROM ALU FLAGS end if; end if; end loop; end if; end if; end process; sreg_out <= sreg; sp_intp<=(sph&spl)+1; sp_intm<=(sph&spl)-1; sp_res<= sp_intm when sp_ndown_up='0' else sp_intp; spl_write:process(cp2,ireset) begin if ireset='0' then spl <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPL_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then spl <= dbusout; -- FROM THE INTERNAL DATA BUS else spl <= sp_res(7 downto 0); -- FROM SPL BUS end if; end if; end if; end process; spl_out <= spl; sph_write:process(cp2,ireset) begin if ireset='0' then sph <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPH_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sph <= dbusout; -- FROM THE INTERNAL DATA BUS else sph <= sp_res(15 downto 8); -- FROM SPH BUS end if; end if; end if; end process; sph_out <= sph; rampz_write:process(cp2,ireset) begin if ireset='0' then rampz <= (others => '0'); elsif (cp2='1' and cp2'event) then if (adr=RAMPZ_Address and iowe='1') then -- CLOCK ENABLE rampz <= dbusout; -- FROM THE INTERNAL DATA BUS end if; end if; end process; rampz_out <= rampz; end rtl;
--************************************************************************************************ -- Internal I/O registers (implemented inside the core) decoder/multiplexer -- for AVR core -- Version 1.3 (Special version for the JTAG OCD) -- Designed by Ruslan Lepetenok -- Modified 22.04.2004 --************************************************************************************************ library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use WORK.AVRuCPackage.all; entity io_reg_file is port ( --Clock and reset cp2 : in std_logic; cp2en : in std_logic; ireset : in std_logic; adr : in std_logic_vector(15 downto 0); iowe : in std_logic; dbusout : in std_logic_vector(7 downto 0); sreg_fl_in : in std_logic_vector(7 downto 0); sreg_out : out std_logic_vector(7 downto 0); sreg_fl_wr_en : in std_logic_vector (7 downto 0); --FLAGS WRITE ENABLE SIGNALS spl_out : out std_logic_vector(7 downto 0); sph_out : out std_logic_vector(7 downto 0); sp_ndown_up : in std_logic; -- DIRECTION OF CHANGING OF STACK POINTER SPH:SPL 0->UP(+) 1->DOWN(-) sp_en : in std_logic; -- WRITE ENABLE(COUNT ENABLE) FOR SPH AND SPL REGISTERS rampz_out : out std_logic_vector(7 downto 0)); end io_reg_file; architecture rtl of io_reg_file is signal sreg : std_logic_vector(7 downto 0); signal sph : std_logic_vector(7 downto 0); signal spl : std_logic_vector(7 downto 0); signal rampz : std_logic_vector(7 downto 0); signal sp_int : std_logic_vector(15 downto 0); signal sp_intp : std_logic_vector(15 downto 0); signal sp_intm : std_logic_vector(15 downto 0); signal sp_res : std_logic_vector(15 downto 0); begin sreg_write:process(cp2,ireset) begin if ireset='0' then sreg <= (others => '0'); elsif (cp2='1' and cp2'event) then if (cp2en='1') then -- Clock enable for i in sreg'range loop if (sreg_fl_wr_en(i)='1' or (adr=SREG_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sreg(i) <= dbusout(i); -- FROM THE INTERNAL DATA BUS else sreg(i) <= sreg_fl_in(i); -- FROM ALU FLAGS end if; end if; end loop; end if; end if; end process; sreg_out <= sreg; sp_intp<=(sph&spl)+1; sp_intm<=(sph&spl)-1; sp_res<= sp_intm when sp_ndown_up='0' else sp_intp; spl_write:process(cp2,ireset) begin if ireset='0' then spl <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPL_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then spl <= dbusout; -- FROM THE INTERNAL DATA BUS else spl <= sp_res(7 downto 0); -- FROM SPL BUS end if; end if; end if; end process; spl_out <= spl; sph_write:process(cp2,ireset) begin if ireset='0' then sph <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPH_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sph <= dbusout; -- FROM THE INTERNAL DATA BUS else sph <= sp_res(15 downto 8); -- FROM SPH BUS end if; end if; end if; end process; sph_out <= sph; rampz_write:process(cp2,ireset) begin if ireset='0' then rampz <= (others => '0'); elsif (cp2='1' and cp2'event) then if (adr=RAMPZ_Address and iowe='1') then -- CLOCK ENABLE rampz <= dbusout; -- FROM THE INTERNAL DATA BUS end if; end if; end process; rampz_out <= rampz; end rtl;
--************************************************************************************************ -- Internal I/O registers (implemented inside the core) decoder/multiplexer -- for AVR core -- Version 1.3 (Special version for the JTAG OCD) -- Designed by Ruslan Lepetenok -- Modified 22.04.2004 --************************************************************************************************ library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use WORK.AVRuCPackage.all; entity io_reg_file is port ( --Clock and reset cp2 : in std_logic; cp2en : in std_logic; ireset : in std_logic; adr : in std_logic_vector(15 downto 0); iowe : in std_logic; dbusout : in std_logic_vector(7 downto 0); sreg_fl_in : in std_logic_vector(7 downto 0); sreg_out : out std_logic_vector(7 downto 0); sreg_fl_wr_en : in std_logic_vector (7 downto 0); --FLAGS WRITE ENABLE SIGNALS spl_out : out std_logic_vector(7 downto 0); sph_out : out std_logic_vector(7 downto 0); sp_ndown_up : in std_logic; -- DIRECTION OF CHANGING OF STACK POINTER SPH:SPL 0->UP(+) 1->DOWN(-) sp_en : in std_logic; -- WRITE ENABLE(COUNT ENABLE) FOR SPH AND SPL REGISTERS rampz_out : out std_logic_vector(7 downto 0)); end io_reg_file; architecture rtl of io_reg_file is signal sreg : std_logic_vector(7 downto 0); signal sph : std_logic_vector(7 downto 0); signal spl : std_logic_vector(7 downto 0); signal rampz : std_logic_vector(7 downto 0); signal sp_int : std_logic_vector(15 downto 0); signal sp_intp : std_logic_vector(15 downto 0); signal sp_intm : std_logic_vector(15 downto 0); signal sp_res : std_logic_vector(15 downto 0); begin sreg_write:process(cp2,ireset) begin if ireset='0' then sreg <= (others => '0'); elsif (cp2='1' and cp2'event) then if (cp2en='1') then -- Clock enable for i in sreg'range loop if (sreg_fl_wr_en(i)='1' or (adr=SREG_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sreg(i) <= dbusout(i); -- FROM THE INTERNAL DATA BUS else sreg(i) <= sreg_fl_in(i); -- FROM ALU FLAGS end if; end if; end loop; end if; end if; end process; sreg_out <= sreg; sp_intp<=(sph&spl)+1; sp_intm<=(sph&spl)-1; sp_res<= sp_intm when sp_ndown_up='0' else sp_intp; spl_write:process(cp2,ireset) begin if ireset='0' then spl <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPL_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then spl <= dbusout; -- FROM THE INTERNAL DATA BUS else spl <= sp_res(7 downto 0); -- FROM SPL BUS end if; end if; end if; end process; spl_out <= spl; sph_write:process(cp2,ireset) begin if ireset='0' then sph <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPH_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sph <= dbusout; -- FROM THE INTERNAL DATA BUS else sph <= sp_res(15 downto 8); -- FROM SPH BUS end if; end if; end if; end process; sph_out <= sph; rampz_write:process(cp2,ireset) begin if ireset='0' then rampz <= (others => '0'); elsif (cp2='1' and cp2'event) then if (adr=RAMPZ_Address and iowe='1') then -- CLOCK ENABLE rampz <= dbusout; -- FROM THE INTERNAL DATA BUS end if; end if; end process; rampz_out <= rampz; end rtl;
--************************************************************************************************ -- Internal I/O registers (implemented inside the core) decoder/multiplexer -- for AVR core -- Version 1.3 (Special version for the JTAG OCD) -- Designed by Ruslan Lepetenok -- Modified 22.04.2004 --************************************************************************************************ library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_unsigned.all; use WORK.AVRuCPackage.all; entity io_reg_file is port ( --Clock and reset cp2 : in std_logic; cp2en : in std_logic; ireset : in std_logic; adr : in std_logic_vector(15 downto 0); iowe : in std_logic; dbusout : in std_logic_vector(7 downto 0); sreg_fl_in : in std_logic_vector(7 downto 0); sreg_out : out std_logic_vector(7 downto 0); sreg_fl_wr_en : in std_logic_vector (7 downto 0); --FLAGS WRITE ENABLE SIGNALS spl_out : out std_logic_vector(7 downto 0); sph_out : out std_logic_vector(7 downto 0); sp_ndown_up : in std_logic; -- DIRECTION OF CHANGING OF STACK POINTER SPH:SPL 0->UP(+) 1->DOWN(-) sp_en : in std_logic; -- WRITE ENABLE(COUNT ENABLE) FOR SPH AND SPL REGISTERS rampz_out : out std_logic_vector(7 downto 0)); end io_reg_file; architecture rtl of io_reg_file is signal sreg : std_logic_vector(7 downto 0); signal sph : std_logic_vector(7 downto 0); signal spl : std_logic_vector(7 downto 0); signal rampz : std_logic_vector(7 downto 0); signal sp_int : std_logic_vector(15 downto 0); signal sp_intp : std_logic_vector(15 downto 0); signal sp_intm : std_logic_vector(15 downto 0); signal sp_res : std_logic_vector(15 downto 0); begin sreg_write:process(cp2,ireset) begin if ireset='0' then sreg <= (others => '0'); elsif (cp2='1' and cp2'event) then if (cp2en='1') then -- Clock enable for i in sreg'range loop if (sreg_fl_wr_en(i)='1' or (adr=SREG_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sreg(i) <= dbusout(i); -- FROM THE INTERNAL DATA BUS else sreg(i) <= sreg_fl_in(i); -- FROM ALU FLAGS end if; end if; end loop; end if; end if; end process; sreg_out <= sreg; sp_intp<=(sph&spl)+1; sp_intm<=(sph&spl)-1; sp_res<= sp_intm when sp_ndown_up='0' else sp_intp; spl_write:process(cp2,ireset) begin if ireset='0' then spl <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPL_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then spl <= dbusout; -- FROM THE INTERNAL DATA BUS else spl <= sp_res(7 downto 0); -- FROM SPL BUS end if; end if; end if; end process; spl_out <= spl; sph_write:process(cp2,ireset) begin if ireset='0' then sph <= (others => '0'); elsif (cp2='1' and cp2'event) then if (sp_en='1' or (adr=SPH_Address and iowe='1')) then -- CLOCK ENABLE if iowe='1' then sph <= dbusout; -- FROM THE INTERNAL DATA BUS else sph <= sp_res(15 downto 8); -- FROM SPH BUS end if; end if; end if; end process; sph_out <= sph; rampz_write:process(cp2,ireset) begin if ireset='0' then rampz <= (others => '0'); elsif (cp2='1' and cp2'event) then if (adr=RAMPZ_Address and iowe='1') then -- CLOCK ENABLE rampz <= dbusout; -- FROM THE INTERNAL DATA BUS end if; end if; end process; rampz_out <= rampz; end rtl;
-- VHDL module instantiation generated by SCUBA Diamond (64-bit) 3.10.0.111.2 -- Module Version: 5.8 -- Tue May 7 19:11:06 2019 -- parameterized module component declaration component fmexg_fifo_4 port (Data: in std_logic_vector(11 downto 0); WrClock: in std_logic; RdClock: in std_logic; WrEn: in std_logic; RdEn: in std_logic; Reset: in std_logic; RPReset: in std_logic; Q: out std_logic_vector(11 downto 0); Empty: out std_logic; Full: out std_logic; AlmostEmpty: out std_logic; AlmostFull: out std_logic); end component; -- parameterized module component instance __ : fmexg_fifo_4 port map (Data(11 downto 0)=>__, WrClock=>__, RdClock=>__, WrEn=>__, RdEn=>__, Reset=>__, RPReset=>__, Q(11 downto 0)=>__, Empty=>__, Full=>__, AlmostEmpty=>__, AlmostFull=>__);
library ieee; use ieee.std_logic_1164.all; entity SREGn is generic (n : integer := 4); port( Sin : in std_logic; SE : in std_logic; CLK : in std_logic; RST : in std_logic; Pout : inout std_logic_vector(n-1 downto 0) ); end SREGn; architecture behavior of SREGn is signal reg : std_logic_vector(n-1 downto 0); signal si : std_logic; begin main : process(Sin, SE , CLK, RST) begin if rising_edge(CLK) then if SE='1' then reg(n-1 downto 1) <= reg(n-2 downto 0); reg(0) <= Sin; end if; end if; end process; Pout <= reg; end behavior; architecture structual of SREGn is component DETAR port(D, E, C, CLR : in std_logic; Q: out std_logic); end component DETAR; begin FST: DETAR port map (Sin, SE, CLK, RST, Pout(0)); G_1 : for I in 1 to N-1 generate DETAR_I : DETAR port map (Pout(I-1), SE, CLK, RST, Pout(I)); end generate; end architecture structual;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
-- -------------------------------------------------------------------- -- -- Copyright 1995 by IEEE. All rights reserved. -- -- This source file is considered by the IEEE to be an essential part of the use -- of the standard 1076.3 and as such may be distributed without change, except -- as permitted by the standard. This source file may not be sold or distributed -- for profit. This package may be modified to include additional data required -- by tools, but must in no way change the external interfaces or simulation -- behaviour of the description. It is permissible to add comments and/or -- attributes to the package declarations, but not to change or delete any -- original lines of the approved package declaration. The package body may be -- changed only in accordance with the terms of clauses 7.1 and 7.2 of the -- standard. -- -- Title : Standard VHDL Synthesis Package (1076.3, NUMERIC_STD) -- -- Library : This package shall be compiled into a library symbolically -- : named IEEE. -- -- Developers : IEEE DASC Synthesis Working Group, PAR 1076.3 -- -- Purpose : This package defines numeric types and arithmetic functions -- : for use with synthesis tools. Two numeric types are defined: -- : -- > UNSIGNED: represents UNSIGNED number in vector form -- : -- > SIGNED: represents a SIGNED number in vector form -- : The base element type is type STD_LOGIC. -- : The leftmost bit is treated as the most significant bit. -- : Signed vectors are represented in two's complement form. -- : This package contains overloaded arithmetic operators on -- : the SIGNED and UNSIGNED types. The package also contains -- : useful type conversions functions. -- : -- : If any argument to a function is a null array, a null array is -- : returned (exceptions, if any, are noted individually). -- -- Limitation : -- -- Note : No declarations or definitions shall be included in, -- : or excluded from this package. The "package declaration" -- : defines the types, subtypes and declarations of -- : NUMERIC_STD. The NUMERIC_STD package body shall be -- : considered the formal definition of the semantics of -- : this package. Tool developers may choose to implement -- : the package body in the most efficient manner available -- : to them. -- -- -------------------------------------------------------------------- -- modification history : -- -------------------------------------------------------------------- -- Version: 2.4 -- Date : 12 April 1995 -- ----------------------------------------------------------------------------- --============================================================================== --============================= Package Body =================================== --============================================================================== package body NUMERIC_STD is -- null range array constants constant NAU: UNSIGNED(0 downto 1) := (others => '0'); constant NAS: SIGNED(0 downto 1) := (others => '0'); -- implementation controls constant NO_WARNING: BOOLEAN := FALSE; -- default to emit warnings --=========================Local Subprograms ================================= function MAX (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT > RIGHT then return LEFT; else return RIGHT; end if; end MAX; function MIN (LEFT, RIGHT: INTEGER) return INTEGER is begin if LEFT < RIGHT then return LEFT; else return RIGHT; end if; end MIN; function SIGNED_NUM_BITS (ARG: INTEGER) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin if ARG >= 0 then N := ARG; else N := -(ARG+1); end if; NBITS := 1; while N > 0 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end SIGNED_NUM_BITS; function UNSIGNED_NUM_BITS (ARG: NATURAL) return NATURAL is variable NBITS: NATURAL; variable N: NATURAL; begin N := ARG; NBITS := 1; while N > 1 loop NBITS := NBITS+1; N := N / 2; end loop; return NBITS; end UNSIGNED_NUM_BITS; ------------------------------------------------------------------------ -- this internal function computes the addition of two UNSIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_UNSIGNED (L, R: UNSIGNED; C: STD_LOGIC) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(L_LEFT downto 0) is R; variable RESULT: UNSIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_UNSIGNED; -- this internal function computes the addition of two SIGNED -- with input CARRY -- * the two arguments are of the same length function ADD_SIGNED (L, R: SIGNED; C: STD_LOGIC) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(L_LEFT downto 0) is R; variable RESULT: SIGNED(L_LEFT downto 0); variable CBIT: STD_LOGIC := C; begin for I in 0 to L_LEFT loop RESULT(I) := CBIT xor XL(I) xor XR(I); CBIT := (CBIT and XL(I)) or (CBIT and XR(I)) or (XL(I) and XR(I)); end loop; return RESULT; end ADD_SIGNED; ----------------------------------------------------------------------------- -- this internal procedure computes UNSIGNED division -- giving the quotient and remainder. procedure DIVMOD (NUM, XDENOM: UNSIGNED; XQUOT, XREMAIN: out UNSIGNED) is variable TEMP: UNSIGNED(NUM'LENGTH downto 0); variable QUOT: UNSIGNED(MAX(NUM'LENGTH, XDENOM'LENGTH)-1 downto 0); alias DENOM: UNSIGNED(XDENOM'LENGTH-1 downto 0) is XDENOM; variable TOPBIT: INTEGER; begin TEMP := "0"&NUM; QUOT := (others => '0'); TOPBIT := -1; for J in DENOM'RANGE loop if DENOM(J)='1' then TOPBIT := J; exit; end if; end loop; assert TOPBIT >= 0 report "DIV, MOD, or REM by zero" severity ERROR; for J in NUM'LENGTH-(TOPBIT+1) downto 0 loop if TEMP(TOPBIT+J+1 downto J) >= "0"&DENOM(TOPBIT downto 0) then TEMP(TOPBIT+J+1 downto J) := (TEMP(TOPBIT+J+1 downto J)) -("0"&DENOM(TOPBIT downto 0)); QUOT(J) := '1'; end if; assert TEMP(TOPBIT+J+1)='0' report "internal error in the division algorithm" severity ERROR; end loop; XQUOT := RESIZE(QUOT, XQUOT'LENGTH); XREMAIN := RESIZE(TEMP, XREMAIN'LENGTH); end DIVMOD; -----------------Local Subprograms - shift/rotate ops------------------------- function XSLL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L downto COUNT) := XARG(ARG_L-COUNT downto 0); end if; return RESULT; end XSLL; function XSRL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := (others => '0'); begin if COUNT <= ARG_L then RESULT(ARG_L-COUNT downto 0) := XARG(ARG_L downto COUNT); end if; return RESULT; end XSRL; function XSRA (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0); variable XCOUNT: NATURAL := COUNT; begin if ((ARG'LENGTH <= 1) or (XCOUNT = 0)) then return ARG; else if (XCOUNT > ARG_L) then XCOUNT := ARG_L; end if; RESULT(ARG_L-XCOUNT downto 0) := XARG(ARG_L downto XCOUNT); RESULT(ARG_L downto (ARG_L - XCOUNT + 1)) := (others => XARG(ARG_L)); end if; return RESULT; end XSRA; function XROL (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L downto COUNTM) := XARG(ARG_L-COUNTM downto 0); RESULT(COUNTM-1 downto 0) := XARG(ARG_L downto ARG_L-COUNTM+1); end if; return RESULT; end XROL; function XROR (ARG: STD_LOGIC_VECTOR; COUNT: NATURAL) return STD_LOGIC_VECTOR is constant ARG_L: INTEGER := ARG'LENGTH-1; alias XARG: STD_LOGIC_VECTOR(ARG_L downto 0) is ARG; variable RESULT: STD_LOGIC_VECTOR(ARG_L downto 0) := XARG; variable COUNTM: INTEGER; begin COUNTM := COUNT mod (ARG_L + 1); if COUNTM /= 0 then RESULT(ARG_L-COUNTM downto 0) := XARG(ARG_L downto COUNTM); RESULT(ARG_L downto ARG_L-COUNTM+1) := XARG(COUNTM-1 downto 0); end if; return RESULT; end XROR; -----------------Local Subprograms - Relational ops--------------------------- -- -- General "=" for UNSIGNED vectors, same length -- function UNSIGNED_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end UNSIGNED_EQUAL; -- -- General "=" for SIGNED vectors, same length -- function SIGNED_EQUAL (L, R: SIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) = STD_LOGIC_VECTOR(R); end SIGNED_EQUAL; -- -- General "<" for UNSIGNED vectors, same length -- function UNSIGNED_LESS (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) < STD_LOGIC_VECTOR(R); end UNSIGNED_LESS; -- -- General "<" function for SIGNED vectors, same length -- function SIGNED_LESS (L, R: SIGNED) return BOOLEAN is variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) < STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS; -- -- General "<=" function for UNSIGNED vectors, same length -- function UNSIGNED_LESS_OR_EQUAL (L, R: UNSIGNED) return BOOLEAN is begin return STD_LOGIC_VECTOR(L) <= STD_LOGIC_VECTOR(R); end UNSIGNED_LESS_OR_EQUAL; -- -- General "<=" function for SIGNED vectors, same length -- function SIGNED_LESS_OR_EQUAL (L, R: SIGNED) return BOOLEAN is -- Need aliases to assure index direction variable INTERN_L: SIGNED(0 to L'LENGTH-1); variable INTERN_R: SIGNED(0 to R'LENGTH-1); begin INTERN_L := L; INTERN_R := R; INTERN_L(0) := not INTERN_L(0); INTERN_R(0) := not INTERN_R(0); return STD_LOGIC_VECTOR(INTERN_L) <= STD_LOGIC_VECTOR(INTERN_R); end SIGNED_LESS_OR_EQUAL; --=========================Exported Functions ========================== -- Id: A.1 function "abs" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: SIGNED(ARG_LEFT downto 0); begin if ARG'LENGTH < 1 then return NAS; end if; RESULT := TO_01(XARG, 'X'); if (RESULT(RESULT'LEFT)='X') then return RESULT; end if; if RESULT(RESULT'LEFT) = '1' then RESULT := -RESULT; end if; return RESULT; end "abs"; -- Id: A.2 function "-" (ARG: SIGNED) return SIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: SIGNED(ARG_LEFT downto 0) is ARG; variable RESULT, XARG01 : SIGNED(ARG_LEFT downto 0); variable CBIT: STD_LOGIC := '1'; begin if ARG'LENGTH < 1 then return NAS; end if; XARG01 := TO_01(ARG, 'X'); if (XARG01(XARG01'LEFT)='X') then return XARG01; end if; for I in 0 to RESULT'LEFT loop RESULT(I) := not(XARG01(I)) xor CBIT; CBIT := CBIT and not(XARG01(I)); end loop; return RESULT; end "-"; --============================================================================ -- Id: A.3 function "+" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, R01, '0'); end "+"; -- Id: A.4 function "+" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, R01, '0'); end "+"; -- Id: A.5 function "+" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L + TO_UNSIGNED(R, L'LENGTH); end "+"; -- Id: A.6 function "+" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) + R; end "+"; -- Id: A.7 function "+" (L: SIGNED; R: INTEGER) return SIGNED is begin return L + TO_SIGNED(R, L'LENGTH); end "+"; -- Id: A.8 function "+" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) + R; end "+"; --============================================================================ -- Id: A.9 function "-" (L, R: UNSIGNED) return UNSIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(SIZE-1 downto 0); variable R01 : UNSIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_UNSIGNED(L01, not(R01), '1'); end "-"; -- Id: A.10 function "-" (L, R: SIGNED) return SIGNED is constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(SIZE-1 downto 0); variable R01 : SIGNED(SIZE-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; L01 := TO_01(RESIZE(L, SIZE), 'X'); if (L01(L01'LEFT)='X') then return L01; end if; R01 := TO_01(RESIZE(R, SIZE), 'X'); if (R01(R01'LEFT)='X') then return R01; end if; return ADD_SIGNED(L01, not(R01), '1'); end "-"; -- Id: A.11 function "-" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L - TO_UNSIGNED(R, L'LENGTH); end "-"; -- Id: A.12 function "-" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) - R; end "-"; -- Id: A.13 function "-" (L: SIGNED; R: INTEGER) return SIGNED is begin return L - TO_SIGNED(R, L'LENGTH); end "-"; -- Id: A.14 function "-" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) - R; end "-"; --============================================================================ -- Id: A.15 function "*" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable RESULT: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0) := (others => '0'); variable ADVAL: UNSIGNED((L'LENGTH+R'LENGTH-1) downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; return RESULT; end "*"; -- Id: A.16 function "*" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable RESULT: SIGNED((L_LEFT+R_LEFT+1) downto 0) := (others => '0'); variable ADVAL: SIGNED((L_LEFT+R_LEFT+1) downto 0); begin if ((L_LEFT < 0) or (R_LEFT < 0)) then return NAS; end if; XL := TO_01(L, 'X'); XR := TO_01(R, 'X'); if ((XL(L_LEFT)='X') or (XR(R_LEFT)='X')) then RESULT := (others => 'X'); return RESULT; end if; ADVAL := RESIZE(XR, RESULT'LENGTH); for I in 0 to L_LEFT-1 loop if XL(I)='1' then RESULT := RESULT + ADVAL; end if; ADVAL := SHIFT_LEFT(ADVAL, 1); end loop; if XL(L_LEFT)='1' then RESULT := RESULT - ADVAL; end if; return RESULT; end "*"; -- Id: A.17 function "*" (L: UNSIGNED; R: NATURAL) return UNSIGNED is begin return L * TO_UNSIGNED(R, L'LENGTH); end "*"; -- Id: A.18 function "*" (L: NATURAL; R: UNSIGNED) return UNSIGNED is begin return TO_UNSIGNED(L, R'LENGTH) * R; end "*"; -- Id: A.19 function "*" (L: SIGNED; R: INTEGER) return SIGNED is begin return L * TO_SIGNED(R, L'LENGTH); end "*"; -- Id: A.20 function "*" (L: INTEGER; R: SIGNED) return SIGNED is begin return TO_SIGNED(L, R'LENGTH) * R; end "*"; --============================================================================ -- Id: A.21 function "/" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return FQUOT; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FQUOT; end "/"; -- Id: A.22 function "/" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable QNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FQUOT := (others => 'X'); return SIGNED(FQUOT); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); QNEG := TRUE; else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); QNEG := not QNEG; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if QNEG then FQUOT := "0"-FQUOT; end if; return SIGNED(FQUOT); end "/"; -- Id: A.23 function "/" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, QUOT: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_UNSIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.24 function "/" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; -- Id: A.25 function "/" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, QUOT: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; if (R_LENGTH > L'LENGTH) then QUOT := (others => '0'); return RESIZE(QUOT, L'LENGTH); end if; XR := TO_SIGNED(R, R_LENGTH); QUOT := RESIZE((L / XR), QUOT'LENGTH); return RESIZE(QUOT, L'LENGTH); end "/"; -- Id: A.26 function "/" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, QUOT: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); QUOT := RESIZE((XL / R), QUOT'LENGTH); if L_LENGTH > R'LENGTH and QUOT(0)/='X' and QUOT(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => QUOT(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""/"": Quotient Truncated" severity WARNING; end if; return RESIZE(QUOT, R'LENGTH); end "/"; --============================================================================ -- Id: A.27 function "rem" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "rem"; -- Id: A.28 function "rem" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XNUM := UNSIGNED(TO_01(XXL, 'X')); XDENOM := UNSIGNED(TO_01(XXR, 'X')); if ((XNUM(XNUM'LEFT)='X') or (XDENOM(XDENOM'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XNUM(XNUM'LEFT)='1' then XNUM := UNSIGNED(-SIGNED(XNUM)); RNEG := TRUE; else XNUM := UNSIGNED(XNUM); end if; if XDENOM(XDENOM'LEFT)='1' then XDENOM := UNSIGNED(-SIGNED(XDENOM)); else XDENOM := UNSIGNED(XDENOM); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG then FREMAIN := "0"-FREMAIN; end if; return SIGNED(FREMAIN); end "rem"; -- Id: A.29 function "rem" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := L rem XR; if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.30 function "rem" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin XL := TO_UNSIGNED(L, L_LENGTH); XREM := XL rem R; if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; -- Id: A.31 function "rem" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L rem XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "rem"; -- Id: A.32 function "rem" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL rem R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""rem"": Remainder Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "rem"; --============================================================================ -- Id: A.33 function "mod" (L, R: UNSIGNED) return UNSIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: UNSIGNED(L_LEFT downto 0) is L; alias XXR: UNSIGNED(R_LEFT downto 0) is R; variable XL: UNSIGNED(L_LEFT downto 0); variable XR: UNSIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAU; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return FREMAIN; end if; DIVMOD(XL, XR, FQUOT, FREMAIN); return FREMAIN; end "mod"; -- Id: A.34 function "mod" (L, R: SIGNED) return SIGNED is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XXL: SIGNED(L_LEFT downto 0) is L; alias XXR: SIGNED(R_LEFT downto 0) is R; variable XL: SIGNED(L_LEFT downto 0); variable XR: SIGNED(R_LEFT downto 0); variable FQUOT: UNSIGNED(L'LENGTH-1 downto 0); variable FREMAIN: UNSIGNED(R'LENGTH-1 downto 0); variable XNUM: UNSIGNED(L'LENGTH-1 downto 0); variable XDENOM: UNSIGNED(R'LENGTH-1 downto 0); variable RNEG: BOOLEAN := FALSE; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then return NAS; end if; XL := TO_01(XXL, 'X'); XR := TO_01(XXR, 'X'); if ((XL(XL'LEFT)='X') or (XR(XR'LEFT)='X')) then FREMAIN := (others => 'X'); return SIGNED(FREMAIN); end if; if XL(XL'LEFT)='1' then XNUM := UNSIGNED(-XL); else XNUM := UNSIGNED(XL); end if; if XR(XR'LEFT)='1' then XDENOM := UNSIGNED(-XR); RNEG := TRUE; else XDENOM := UNSIGNED(XR); end if; DIVMOD(XNUM, XDENOM, FQUOT, FREMAIN); if RNEG and L(L'LEFT)='1' then FREMAIN := "0"-FREMAIN; elsif RNEG and FREMAIN/="0" then FREMAIN := FREMAIN-XDENOM; elsif L(L'LEFT)='1' and FREMAIN/="0" then FREMAIN := XDENOM-FREMAIN; end if; return SIGNED(FREMAIN); end "mod"; -- Id: A.35 function "mod" (L: UNSIGNED; R: NATURAL) return UNSIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, UNSIGNED_NUM_BITS(R)); variable XR, XREM: UNSIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAU; end if; XR := TO_UNSIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.36 function "mod" (L: NATURAL; R: UNSIGNED) return UNSIGNED is constant L_LENGTH: NATURAL := MAX(UNSIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: UNSIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAU; end if; XL := TO_UNSIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => '0') then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; -- Id: A.37 function "mod" (L: SIGNED; R: INTEGER) return SIGNED is constant R_LENGTH: NATURAL := MAX(L'LENGTH, SIGNED_NUM_BITS(R)); variable XR, XREM: SIGNED(R_LENGTH-1 downto 0); begin if (L'LENGTH < 1) then return NAS; end if; XR := TO_SIGNED(R, R_LENGTH); XREM := RESIZE((L mod XR), XREM'LENGTH); if R_LENGTH > L'LENGTH and XREM(0)/='X' and XREM(R_LENGTH-1 downto L'LENGTH) /= (R_LENGTH-1 downto L'LENGTH => XREM(L'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, L'LENGTH); end "mod"; -- Id: A.38 function "mod" (L: INTEGER; R: SIGNED) return SIGNED is constant L_LENGTH: NATURAL := MAX(SIGNED_NUM_BITS(L), R'LENGTH); variable XL, XREM: SIGNED(L_LENGTH-1 downto 0); begin if (R'LENGTH < 1) then return NAS; end if; XL := TO_SIGNED(L, L_LENGTH); XREM := RESIZE((XL mod R), XREM'LENGTH); if L_LENGTH > R'LENGTH and XREM(0)/='X' and XREM(L_LENGTH-1 downto R'LENGTH) /= (L_LENGTH-1 downto R'LENGTH => XREM(R'LENGTH-1)) then assert NO_WARNING report "NUMERIC_STD.""mod"": Modulus Truncated" severity WARNING; end if; return RESIZE(XREM, R'LENGTH); end "mod"; --============================================================================ -- Id: C.1 function ">" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.2 function ">" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">"; -- Id: C.3 function ">" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.4 function ">" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end ">"; -- Id: C.5 function ">" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return not UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">"; -- Id: C.6 function ">" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end ">"; --============================================================================ -- Id: C.7 function "<" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.8 function "<" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<"; -- Id: C.9 function "<" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.10 function "<" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end "<"; -- Id: C.11 function "<" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<"; -- Id: C.12 function "<" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<"": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<"": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end "<"; --============================================================================ -- Id: C.13 function "<=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.14 function "<=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_LESS_OR_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "<="; -- Id: C.15 function "<=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return UNSIGNED_LESS_OR_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.16 function "<=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L < 0; end if; return SIGNED_LESS_OR_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "<="; -- Id: C.17 function "<=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return UNSIGNED_LESS_OR_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "<="; -- Id: C.18 function "<=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L_LEFT < 0) then assert NO_WARNING report "NUMERIC_STD.""<="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""<="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 < R; end if; return SIGNED_LESS_OR_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "<="; --============================================================================ -- Id: C.19 function ">=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not UNSIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.20 function ">=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return not SIGNED_LESS(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end ">="; -- Id: C.21 function ">=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not UNSIGNED_LESS(TO_UNSIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.22 function ">=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return L > 0; end if; return not SIGNED_LESS(TO_SIGNED(L, R01'LENGTH), R01); end ">="; -- Id: C.23 function ">=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not UNSIGNED_LESS(L01, TO_UNSIGNED(R, L01'LENGTH)); end ">="; -- Id: C.24 function ">=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD."">="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD."">="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return 0 > R; end if; return not SIGNED_LESS(L01, TO_SIGNED(R, L01'LENGTH)); end ">="; --============================================================================ -- Id: C.25 function "=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.26 function "=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; return SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE)); end "="; -- Id: C.27 function "=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.28 function "=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return FALSE; end if; return SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01); end "="; -- Id: C.29 function "=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH)); end "="; -- Id: C.30 function "=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""="": null argument detected, returning FALSE" severity WARNING; return FALSE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""="": metavalue detected, returning FALSE" severity WARNING; return FALSE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return FALSE; end if; return SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH)); end "="; --============================================================================ -- Id: C.31 function "/=" (L, R: UNSIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; alias XR: UNSIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : UNSIGNED(L_LEFT downto 0); variable R01 : UNSIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(UNSIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.32 function "/=" (L, R: SIGNED) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; constant R_LEFT: INTEGER := R'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; alias XR: SIGNED(R_LEFT downto 0) is R; constant SIZE: NATURAL := MAX(L'LENGTH, R'LENGTH); variable L01 : SIGNED(L_LEFT downto 0); variable R01 : SIGNED(R_LEFT downto 0); begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); R01 := TO_01(XR, 'X'); if ((L01(L01'LEFT)='X') or (R01(R01'LEFT)='X')) then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; return not(SIGNED_EQUAL(RESIZE(L01, SIZE), RESIZE(R01, SIZE))); end "/="; -- Id: C.33 function "/=" (L: NATURAL; R: UNSIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: UNSIGNED(R_LEFT downto 0) is R; variable R01 : UNSIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(TO_UNSIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.34 function "/=" (L: INTEGER; R: SIGNED) return BOOLEAN is constant R_LEFT: INTEGER := R'LENGTH-1; alias XR: SIGNED(R_LEFT downto 0) is R; variable R01 : SIGNED(R_LEFT downto 0); begin if (R'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; R01 := TO_01(XR, 'X'); if (R01(R01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(L) > R'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(TO_SIGNED(L, R01'LENGTH), R01)); end "/="; -- Id: C.35 function "/=" (L: UNSIGNED; R: NATURAL) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: UNSIGNED(L_LEFT downto 0) is L; variable L01 : UNSIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if UNSIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(UNSIGNED_EQUAL(L01, TO_UNSIGNED(R, L01'LENGTH))); end "/="; -- Id: C.36 function "/=" (L: SIGNED; R: INTEGER) return BOOLEAN is constant L_LEFT: INTEGER := L'LENGTH-1; alias XL: SIGNED(L_LEFT downto 0) is L; variable L01 : SIGNED(L_LEFT downto 0); begin if (L'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.""/="": null argument detected, returning TRUE" severity WARNING; return TRUE; end if; L01 := TO_01(XL, 'X'); if (L01(L01'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.""/="": metavalue detected, returning TRUE" severity WARNING; return TRUE; end if; if SIGNED_NUM_BITS(R) > L'LENGTH then return TRUE; end if; return not(SIGNED_EQUAL(L01, TO_SIGNED(R, L01'LENGTH))); end "/="; --============================================================================ -- Id: S.1 function SHIFT_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.2 function SHIFT_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XSRL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; -- Id: S.3 function SHIFT_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSLL(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_LEFT; -- Id: S.4 function SHIFT_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XSRA(STD_LOGIC_VECTOR(ARG), COUNT)); end SHIFT_RIGHT; --============================================================================ -- Id: S.5 function ROTATE_LEFT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.6 function ROTATE_RIGHT (ARG: UNSIGNED; COUNT: NATURAL) return UNSIGNED is begin if (ARG'LENGTH < 1) then return NAU; end if; return UNSIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; -- Id: S.7 function ROTATE_LEFT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROL(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_LEFT; -- Id: S.8 function ROTATE_RIGHT (ARG: SIGNED; COUNT: NATURAL) return SIGNED is begin if (ARG'LENGTH < 1) then return NAS; end if; return SIGNED(XROR(STD_LOGIC_VECTOR(ARG), COUNT)); end ROTATE_RIGHT; --============================================================================ --START-V93 ------------------------------------------------------------------------------ -- Note : Function S.9 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.9 function "sll" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SHIFT_RIGHT(ARG, -COUNT); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.10 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.10 function "sll" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_LEFT(ARG, COUNT); else return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), -COUNT)); end if; end "sll"; ------------------------------------------------------------------------------ -- Note : Function S.11 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.11 function "srl" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(ARG, COUNT); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.12 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.12 function "srl" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return SIGNED(SHIFT_RIGHT(UNSIGNED(ARG), COUNT)); else return SHIFT_LEFT(ARG, -COUNT); end if; end "srl"; ------------------------------------------------------------------------------ -- Note : Function S.13 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.13 function "rol" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.14 function "rol" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_LEFT(ARG, COUNT); else return ROTATE_RIGHT(ARG, -COUNT); end if; end "rol"; ------------------------------------------------------------------------------ -- Note : Function S.15 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.15 function "ror" (ARG: UNSIGNED; COUNT: INTEGER) return UNSIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; ------------------------------------------------------------------------------ -- Note : Function S.16 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: S.16 function "ror" (ARG: SIGNED; COUNT: INTEGER) return SIGNED is begin if (COUNT >= 0) then return ROTATE_RIGHT(ARG, COUNT); else return ROTATE_LEFT(ARG, -COUNT); end if; end "ror"; --END-V93 --============================================================================ -- Id: D.1 function TO_INTEGER (ARG: UNSIGNED) return NATURAL is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XXARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable XARG: UNSIGNED(ARG_LEFT downto 0); variable RESULT: NATURAL := 0; begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(XXARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; for I in XARG'RANGE loop RESULT := RESULT+RESULT; if XARG(I) = '1' then RESULT := RESULT + 1; end if; end loop; return RESULT; end TO_INTEGER; -- Id: D.2 function TO_INTEGER (ARG: SIGNED) return INTEGER is variable XARG: SIGNED(ARG'LENGTH-1 downto 0); begin if (ARG'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: null detected, returning 0" severity WARNING; return 0; end if; XARG := TO_01(ARG, 'X'); if (XARG(XARG'LEFT)='X') then assert NO_WARNING report "NUMERIC_STD.TO_INTEGER: metavalue detected, returning 0" severity WARNING; return 0; end if; if XARG(XARG'LEFT) = '0' then return TO_INTEGER(UNSIGNED(XARG)); else return (- (TO_INTEGER(UNSIGNED(- (XARG + 1)))) -1); end if; end TO_INTEGER; -- Id: D.3 function TO_UNSIGNED (ARG, SIZE: NATURAL) return UNSIGNED is variable RESULT: UNSIGNED(SIZE-1 downto 0); variable I_VAL: NATURAL := ARG; begin if (SIZE < 1) then return NAU; end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := '0'; else RESULT(I) := '1'; end if; I_VAL := I_VAL/2; end loop; if not(I_VAL =0) then assert NO_WARNING report "NUMERIC_STD.TO_UNSIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_UNSIGNED; -- Id: D.4 function TO_SIGNED (ARG: INTEGER; SIZE: NATURAL) return SIGNED is variable RESULT: SIGNED(SIZE-1 downto 0); variable B_VAL: STD_LOGIC := '0'; variable I_VAL: INTEGER := ARG; begin if (SIZE < 1) then return NAS; end if; if (ARG < 0) then B_VAL := '1'; I_VAL := -(ARG+1); end if; for I in 0 to RESULT'LEFT loop if (I_VAL mod 2) = 0 then RESULT(I) := B_VAL; else RESULT(I) := not B_VAL; end if; I_VAL := I_VAL/2; end loop; if ((I_VAL/=0) or (B_VAL/=RESULT(RESULT'LEFT))) then assert NO_WARNING report "NUMERIC_STD.TO_SIGNED: vector truncated" severity WARNING; end if; return RESULT; end TO_SIGNED; --============================================================================ -- Id: R.1 function RESIZE (ARG: SIGNED; NEW_SIZE: NATURAL) return SIGNED is alias INVEC: SIGNED(ARG'LENGTH-1 downto 0) is ARG; variable RESULT: SIGNED(NEW_SIZE-1 downto 0) := (others => '0'); constant BOUND: INTEGER := MIN(ARG'LENGTH, RESULT'LENGTH)-2; begin if (NEW_SIZE < 1) then return NAS; end if; if (ARG'LENGTH = 0) then return RESULT; end if; RESULT := (others => ARG(ARG'LEFT)); if BOUND >= 0 then RESULT(BOUND downto 0) := INVEC(BOUND downto 0); end if; return RESULT; end RESIZE; -- Id: R.2 function RESIZE (ARG: UNSIGNED; NEW_SIZE: NATURAL) return UNSIGNED is constant ARG_LEFT: INTEGER := ARG'LENGTH-1; alias XARG: UNSIGNED(ARG_LEFT downto 0) is ARG; variable RESULT: UNSIGNED(NEW_SIZE-1 downto 0) := (others => '0'); begin if (NEW_SIZE < 1) then return NAU; end if; if XARG'LENGTH =0 then return RESULT; end if; if (RESULT'LENGTH < ARG'LENGTH) then RESULT(RESULT'LEFT downto 0) := XARG(RESULT'LEFT downto 0); else RESULT(RESULT'LEFT downto XARG'LEFT+1) := (others => '0'); RESULT(XARG'LEFT downto 0) := XARG; end if; return RESULT; end RESIZE; --============================================================================ -- Id: L.1 function "not" (L: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.2 function "and" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.3 function "or" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.4 function "nand" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.5 function "nor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.6 function "xor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.7 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.7 function "xnor" (L, R: UNSIGNED) return UNSIGNED is variable RESULT: UNSIGNED(L'LENGTH-1 downto 0); begin RESULT := UNSIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 -- Id: L.8 function "not" (L: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(not(STD_LOGIC_VECTOR(L))); return RESULT; end "not"; -- Id: L.9 function "and" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) and STD_LOGIC_VECTOR(R)); return RESULT; end "and"; -- Id: L.10 function "or" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) or STD_LOGIC_VECTOR(R)); return RESULT; end "or"; -- Id: L.11 function "nand" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nand STD_LOGIC_VECTOR(R)); return RESULT; end "nand"; -- Id: L.12 function "nor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) nor STD_LOGIC_VECTOR(R)); return RESULT; end "nor"; -- Id: L.13 function "xor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xor STD_LOGIC_VECTOR(R)); return RESULT; end "xor"; --START-V93 ------------------------------------------------------------------------------ -- Note : Function L.14 is not compatible with VHDL 1076-1987. Comment -- out the function (declaration and body) for VHDL 1076-1987 compatibility. ------------------------------------------------------------------------------ -- Id: L.14 function "xnor" (L, R: SIGNED) return SIGNED is variable RESULT: SIGNED(L'LENGTH-1 downto 0); begin RESULT := SIGNED(STD_LOGIC_VECTOR(L) xnor STD_LOGIC_VECTOR(R)); return RESULT; end "xnor"; --END-V93 --============================================================================ -- support constants for STD_MATCH: type BOOLEAN_TABLE is array(STD_ULOGIC, STD_ULOGIC) of BOOLEAN; constant MATCH_TABLE: BOOLEAN_TABLE := ( -------------------------------------------------------------------------- -- U X 0 1 Z W L H - -------------------------------------------------------------------------- (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | U | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | X | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | 0 | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | 1 | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | Z | (FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE), -- | W | (FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE), -- | L | (FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, TRUE, TRUE), -- | H | ( TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE, TRUE) -- | - | ); -- Id: M.1 function STD_MATCH (L, R: STD_ULOGIC) return BOOLEAN is variable VALUE: STD_ULOGIC; begin return MATCH_TABLE(L, R); end STD_MATCH; -- Id: M.2 function STD_MATCH (L, R: UNSIGNED) return BOOLEAN is alias LV: UNSIGNED(1 to L'LENGTH) is L; alias RV: UNSIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.3 function STD_MATCH (L, R: SIGNED) return BOOLEAN is alias LV: SIGNED(1 to L'LENGTH) is L; alias RV: SIGNED(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.4 function STD_MATCH (L, R: STD_LOGIC_VECTOR) return BOOLEAN is alias LV: STD_LOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_LOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; -- Id: M.5 function STD_MATCH (L, R: STD_ULOGIC_VECTOR) return BOOLEAN is alias LV: STD_ULOGIC_VECTOR(1 to L'LENGTH) is L; alias RV: STD_ULOGIC_VECTOR(1 to R'LENGTH) is R; begin if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: null detected, returning FALSE" severity WARNING; return FALSE; end if; if LV'LENGTH /= RV'LENGTH then assert NO_WARNING report "NUMERIC_STD.STD_MATCH: L'LENGTH /= R'LENGTH, returning FALSE" severity WARNING; return FALSE; else for I in LV'LOW to LV'HIGH loop if not (MATCH_TABLE(LV(I), RV(I))) then return FALSE; end if; end loop; return TRUE; end if; end STD_MATCH; --============================================================================ -- function TO_01 is used to convert vectors to the -- correct form for exported functions, -- and to report if there is an element which -- is not in (0, 1, H, L). -- Id: T.1 function TO_01 (S: UNSIGNED; XMAP: STD_LOGIC := '0') return UNSIGNED is variable RESULT: UNSIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: UNSIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAU" severity WARNING; return NAU; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; -- Id: T.2 function TO_01 (S: SIGNED; XMAP: STD_LOGIC := '0') return SIGNED is variable RESULT: SIGNED(S'LENGTH-1 downto 0); variable BAD_ELEMENT: BOOLEAN := FALSE; alias XS: SIGNED(S'LENGTH-1 downto 0) is S; begin if (S'LENGTH < 1) then assert NO_WARNING report "NUMERIC_STD.TO_01: null detected, returning NAS" severity WARNING; return NAS; end if; for I in RESULT'RANGE loop case XS(I) is when '0' | 'L' => RESULT(I) := '0'; when '1' | 'H' => RESULT(I) := '1'; when others => BAD_ELEMENT := TRUE; end case; end loop; if BAD_ELEMENT then for I in RESULT'RANGE loop RESULT(I) := XMAP; -- standard fixup end loop; end if; return RESULT; end TO_01; --============================================================================ end NUMERIC_STD;
package STRSYN is attribute SigDir : string; attribute SigType : string; attribute SigBias : string; end STRSYN; entity op is port ( terminal in1: electrical; terminal in2: electrical; terminal out1: electrical; terminal vbias1: electrical; terminal vdd: electrical; terminal gnd: electrical; terminal vbias3: electrical; terminal vbias2: electrical; terminal vbias4: electrical); end op; architecture simple of op is -- Attributes for Ports attribute SigDir of in1:terminal is "input"; attribute SigType of in1:terminal is "voltage"; attribute SigDir of in2:terminal is "input"; attribute SigType of in2:terminal is "voltage"; attribute SigDir of out1:terminal is "output"; attribute SigType of out1:terminal is "voltage"; attribute SigDir of vbias1:terminal is "reference"; attribute SigType of vbias1:terminal is "voltage"; attribute SigDir of vdd:terminal is "reference"; attribute SigType of vdd:terminal is "current"; attribute SigBias of vdd:terminal is "positive"; attribute SigDir of gnd:terminal is "reference"; attribute SigType of gnd:terminal is "current"; attribute SigBias of gnd:terminal is "negative"; attribute SigDir of vbias3:terminal is "reference"; attribute SigType of vbias3:terminal is "voltage"; attribute SigDir of vbias2:terminal is "reference"; attribute SigType of vbias2:terminal is "voltage"; attribute SigDir of vbias4:terminal is "reference"; attribute SigType of vbias4:terminal is "voltage"; terminal net1: electrical; terminal net2: electrical; terminal net3: electrical; terminal net4: electrical; terminal net5: electrical; terminal net6: electrical; terminal net7: electrical; terminal net8: electrical; terminal net9: electrical; begin subnet0_subnet0_m1 : entity pmos(behave) generic map( L => Ldiff_0, W => Wdiff_0, scope => private ) port map( D => net2, G => in1, S => net4 ); subnet0_subnet0_m2 : entity pmos(behave) generic map( L => Ldiff_0, W => Wdiff_0, scope => private ) port map( D => net1, G => in2, S => net4 ); subnet0_subnet0_m3 : entity pmos(behave) generic map( L => LBias, W => W_0 ) port map( D => net4, G => vbias1, S => vdd ); subnet0_subnet1_m1 : entity nmos(behave) generic map( L => LBias, W => Wcmcasc_2, scope => Wprivate, symmetry_scope => sym_7 ) port map( D => net1, G => vbias3, S => net5 ); subnet0_subnet1_m2 : entity nmos(behave) generic map( L => Lcm_2, W => Wcm_2, scope => private, symmetry_scope => sym_7 ) port map( D => net5, G => net1, S => gnd ); subnet0_subnet1_m3 : entity nmos(behave) generic map( L => Lcm_2, W => Wcmout_2, scope => private, symmetry_scope => sym_7 ) port map( D => net6, G => net1, S => gnd ); subnet0_subnet1_m4 : entity nmos(behave) generic map( L => LBias, W => Wcmcasc_2, scope => Wprivate, symmetry_scope => sym_7 ) port map( D => net3, G => vbias3, S => net6 ); subnet0_subnet2_m1 : entity nmos(behave) generic map( L => LBias, W => Wcmcasc_2, scope => Wprivate, symmetry_scope => sym_7 ) port map( D => net2, G => vbias3, S => net7 ); subnet0_subnet2_m2 : entity nmos(behave) generic map( L => Lcm_2, W => Wcm_2, scope => private, symmetry_scope => sym_7 ) port map( D => net7, G => net2, S => gnd ); subnet0_subnet2_m3 : entity nmos(behave) generic map( L => Lcm_2, W => Wcmout_2, scope => private, symmetry_scope => sym_7 ) port map( D => net8, G => net2, S => gnd ); subnet0_subnet2_m4 : entity nmos(behave) generic map( L => LBias, W => Wcmcasc_2, scope => Wprivate, symmetry_scope => sym_7 ) port map( D => out1, G => vbias3, S => net8 ); subnet0_subnet3_m1 : entity pmos(behave) generic map( L => Lcm_1, W => Wcm_1, scope => private ) port map( D => net3, G => net3, S => vdd ); subnet0_subnet3_m2 : entity pmos(behave) generic map( L => Lcm_1, W => Wcmout_1, scope => private ) port map( D => out1, G => net3, S => vdd ); subnet1_subnet0_m1 : entity pmos(behave) generic map( L => LBias, W => (pfak)*(WBias) ) port map( D => vbias1, G => vbias1, S => vdd ); subnet1_subnet0_m2 : entity pmos(behave) generic map( L => (pfak)*(LBias), W => (pfak)*(WBias) ) port map( D => vbias2, G => vbias2, S => vbias1 ); subnet1_subnet0_i1 : entity idc(behave) generic map( dc => 1.145e-05 ) port map( P => vdd, N => vbias3 ); subnet1_subnet0_m3 : entity nmos(behave) generic map( L => (pfak)*(LBias), W => WBias ) port map( D => vbias3, G => vbias3, S => vbias4 ); subnet1_subnet0_m4 : entity nmos(behave) generic map( L => LBias, W => WBias ) port map( D => vbias2, G => vbias3, S => net9 ); subnet1_subnet0_m5 : entity nmos(behave) generic map( L => LBias, W => WBias ) port map( D => vbias4, G => vbias4, S => gnd ); subnet1_subnet0_m6 : entity nmos(behave) generic map( L => LBias, W => WBias ) port map( D => net9, G => vbias4, S => gnd ); end simple;
library verilog; use verilog.vl_types.all; entity ALU is port( a : in vl_logic_vector(31 downto 0); b : in vl_logic_vector(31 downto 0); ALU_op : in vl_logic_vector(3 downto 0); ALU_out : out vl_logic_vector(31 downto 0); less : out vl_logic; zero : out vl_logic; overflow : out vl_logic ); end ALU;
------------------------------------------------------------------------------- -- -- The D port controller. -- -- $Id: t400_io_d-c.vhd,v 1.1.1.1 2006-05-06 01:56:44 arniml Exp $ -- -- Copyright (c) 2006, Arnim Laeuger (arniml@opencores.org) -- -- All rights reserved -- ------------------------------------------------------------------------------- configuration t400_io_d_rtl_c0 of t400_io_d is for rtl end for; end t400_io_d_rtl_c0; ------------------------------------------------------------------------------- -- File History: -- -- $Log: not supported by cvs2svn $ -------------------------------------------------------------------------------
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2327.vhd,v 1.2 2001-10-26 16:30:17 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s02b07x00p02n02i02327ent IS END c07s02b07x00p02n02i02327ent; ARCHITECTURE c07s02b07x00p02n02i02327arch OF c07s02b07x00p02n02i02327ent IS BEGIN TESTING: PROCESS constant x : integer := 4; constant y : boolean := true; variable z : integer; BEGIN z := y**x; -- Failure_here assert FALSE report "***FAILED TEST: c07s02b07x00p02n02i02327 - The exponentiating operator is predefined only for integer and floating point types." severity ERROR; wait; END PROCESS TESTING; END c07s02b07x00p02n02i02327arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2327.vhd,v 1.2 2001-10-26 16:30:17 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s02b07x00p02n02i02327ent IS END c07s02b07x00p02n02i02327ent; ARCHITECTURE c07s02b07x00p02n02i02327arch OF c07s02b07x00p02n02i02327ent IS BEGIN TESTING: PROCESS constant x : integer := 4; constant y : boolean := true; variable z : integer; BEGIN z := y**x; -- Failure_here assert FALSE report "***FAILED TEST: c07s02b07x00p02n02i02327 - The exponentiating operator is predefined only for integer and floating point types." severity ERROR; wait; END PROCESS TESTING; END c07s02b07x00p02n02i02327arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2327.vhd,v 1.2 2001-10-26 16:30:17 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s02b07x00p02n02i02327ent IS END c07s02b07x00p02n02i02327ent; ARCHITECTURE c07s02b07x00p02n02i02327arch OF c07s02b07x00p02n02i02327ent IS BEGIN TESTING: PROCESS constant x : integer := 4; constant y : boolean := true; variable z : integer; BEGIN z := y**x; -- Failure_here assert FALSE report "***FAILED TEST: c07s02b07x00p02n02i02327 - The exponentiating operator is predefined only for integer and floating point types." severity ERROR; wait; END PROCESS TESTING; END c07s02b07x00p02n02i02327arch;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA library ieee; use ieee.std_logic_1164.all; package stimulus_generators is procedure all_possible_values ( signal bv : out bit_vector; delay_between_values : in delay_length ); procedure all_possible_values ( signal bv : out std_ulogic_vector; delay_between_values : in delay_length ); procedure all_possible_values ( signal bv : out std_logic_vector; delay_between_values : in delay_length ); end package stimulus_generators; package body stimulus_generators is type digit_table is array ( natural range 0 to 1 ) of bit; constant digit : digit_table := ( '0', '1' ); function natural_to_bv ( nat : in natural; length : in natural ) return bit_vector is variable temp : natural := nat; variable result : bit_vector(0 to length - 1); begin for index in result'reverse_range loop result(index) := digit( temp rem 2 ); temp := temp / 2; end loop; return result; end function natural_to_bv; procedure all_possible_values ( signal bv : out bit_vector; delay_between_values : in delay_length ) is begin bv <= natural_to_bv(0, bv'length); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= natural_to_bv(value, bv'length); end loop; end procedure all_possible_values; procedure all_possible_values ( signal bv : out std_ulogic_vector; delay_between_values : in delay_length ) is begin bv <= To_StdULogicVector(natural_to_bv(0, bv'length)); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= To_StdULogicVector(natural_to_bv(value, bv'length)); end loop; end procedure all_possible_values; procedure all_possible_values ( signal bv : out std_logic_vector; delay_between_values : in delay_length ) is begin bv <= To_StdLogicVector(natural_to_bv(0, bv'length)); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= To_StdLogicVector(natural_to_bv(value, bv'length)); end loop; end procedure all_possible_values; end package body stimulus_generators;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA library ieee; use ieee.std_logic_1164.all; package stimulus_generators is procedure all_possible_values ( signal bv : out bit_vector; delay_between_values : in delay_length ); procedure all_possible_values ( signal bv : out std_ulogic_vector; delay_between_values : in delay_length ); procedure all_possible_values ( signal bv : out std_logic_vector; delay_between_values : in delay_length ); end package stimulus_generators; package body stimulus_generators is type digit_table is array ( natural range 0 to 1 ) of bit; constant digit : digit_table := ( '0', '1' ); function natural_to_bv ( nat : in natural; length : in natural ) return bit_vector is variable temp : natural := nat; variable result : bit_vector(0 to length - 1); begin for index in result'reverse_range loop result(index) := digit( temp rem 2 ); temp := temp / 2; end loop; return result; end function natural_to_bv; procedure all_possible_values ( signal bv : out bit_vector; delay_between_values : in delay_length ) is begin bv <= natural_to_bv(0, bv'length); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= natural_to_bv(value, bv'length); end loop; end procedure all_possible_values; procedure all_possible_values ( signal bv : out std_ulogic_vector; delay_between_values : in delay_length ) is begin bv <= To_StdULogicVector(natural_to_bv(0, bv'length)); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= To_StdULogicVector(natural_to_bv(value, bv'length)); end loop; end procedure all_possible_values; procedure all_possible_values ( signal bv : out std_logic_vector; delay_between_values : in delay_length ) is begin bv <= To_StdLogicVector(natural_to_bv(0, bv'length)); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= To_StdLogicVector(natural_to_bv(value, bv'length)); end loop; end procedure all_possible_values; end package body stimulus_generators;
-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA library ieee; use ieee.std_logic_1164.all; package stimulus_generators is procedure all_possible_values ( signal bv : out bit_vector; delay_between_values : in delay_length ); procedure all_possible_values ( signal bv : out std_ulogic_vector; delay_between_values : in delay_length ); procedure all_possible_values ( signal bv : out std_logic_vector; delay_between_values : in delay_length ); end package stimulus_generators; package body stimulus_generators is type digit_table is array ( natural range 0 to 1 ) of bit; constant digit : digit_table := ( '0', '1' ); function natural_to_bv ( nat : in natural; length : in natural ) return bit_vector is variable temp : natural := nat; variable result : bit_vector(0 to length - 1); begin for index in result'reverse_range loop result(index) := digit( temp rem 2 ); temp := temp / 2; end loop; return result; end function natural_to_bv; procedure all_possible_values ( signal bv : out bit_vector; delay_between_values : in delay_length ) is begin bv <= natural_to_bv(0, bv'length); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= natural_to_bv(value, bv'length); end loop; end procedure all_possible_values; procedure all_possible_values ( signal bv : out std_ulogic_vector; delay_between_values : in delay_length ) is begin bv <= To_StdULogicVector(natural_to_bv(0, bv'length)); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= To_StdULogicVector(natural_to_bv(value, bv'length)); end loop; end procedure all_possible_values; procedure all_possible_values ( signal bv : out std_logic_vector; delay_between_values : in delay_length ) is begin bv <= To_StdLogicVector(natural_to_bv(0, bv'length)); for value in 1 to 2**bv'length - 1 loop wait for delay_between_values; bv <= To_StdLogicVector(natural_to_bv(value, bv'length)); end loop; end procedure all_possible_values; end package body stimulus_generators;
architecture RTL of FIFO is begin BLOCK_LABEL : block is attribute mark_debug of wr_en : signal is "true"; attribute mark_debug of almost_empty : signal is "true"; attribute mark_debug of full : signal is "true"; begin end block BLOCK_LABEL; end architecture RTL;
library ieee; use ieee.std_logic_1164.all; entity tb is end tb; architecture behav of tb is -- toggle period constant period_c : time := 1 ms; -- we'll be poking on this signal signal toggle_s : std_logic_vector(1 downto 0) := "01"; begin ----------------------------------------------------------------------------- -- Process toggle -- -- Purpose: -- Flip the toggle_s signal periodically. -- toggle: process begin wait for period_c/2; toggle_s <= not toggle_s; end process toggle; -- ----------------------------------------------------------------------------- end behav; configuration tb_behav_c0 of tb is for behav end for; end tb_behav_c0;
library ieee; use ieee.std_logic_1164.all; entity tb is end tb; architecture behav of tb is -- toggle period constant period_c : time := 1 ms; -- we'll be poking on this signal signal toggle_s : std_logic_vector(1 downto 0) := "01"; begin ----------------------------------------------------------------------------- -- Process toggle -- -- Purpose: -- Flip the toggle_s signal periodically. -- toggle: process begin wait for period_c/2; toggle_s <= not toggle_s; end process toggle; -- ----------------------------------------------------------------------------- end behav; configuration tb_behav_c0 of tb is for behav end for; end tb_behav_c0;
library ieee; use ieee.std_logic_1164.all; entity tb is end tb; architecture behav of tb is -- toggle period constant period_c : time := 1 ms; -- we'll be poking on this signal signal toggle_s : std_logic_vector(1 downto 0) := "01"; begin ----------------------------------------------------------------------------- -- Process toggle -- -- Purpose: -- Flip the toggle_s signal periodically. -- toggle: process begin wait for period_c/2; toggle_s <= not toggle_s; end process toggle; -- ----------------------------------------------------------------------------- end behav; configuration tb_behav_c0 of tb is for behav end for; end tb_behav_c0;
library ieee; use ieee.std_logic_1164.all; entity tb is end tb; architecture behav of tb is -- toggle period constant period_c : time := 1 ms; -- we'll be poking on this signal signal toggle_s : std_logic_vector(1 downto 0) := "01"; begin ----------------------------------------------------------------------------- -- Process toggle -- -- Purpose: -- Flip the toggle_s signal periodically. -- toggle: process begin wait for period_c/2; toggle_s <= not toggle_s; end process toggle; -- ----------------------------------------------------------------------------- end behav; configuration tb_behav_c0 of tb is for behav end for; end tb_behav_c0;
library ieee; use ieee.std_logic_1164.all; entity tb is end tb; architecture behav of tb is -- toggle period constant period_c : time := 1 ms; -- we'll be poking on this signal signal toggle_s : std_logic_vector(1 downto 0) := "01"; begin ----------------------------------------------------------------------------- -- Process toggle -- -- Purpose: -- Flip the toggle_s signal periodically. -- toggle: process begin wait for period_c/2; toggle_s <= not toggle_s; end process toggle; -- ----------------------------------------------------------------------------- end behav; configuration tb_behav_c0 of tb is for behav end for; end tb_behav_c0;
-- This Source Code Form is subject to the terms of the Mozilla Public -- License, v. 2.0. If a copy of the MPL was not distributed with this file, -- You can obtain one at http://mozilla.org/MPL/2.0/. -- -- Copyright (c) 2015, Olof Kraigher olof.kraigher@gmail.com package memory_model_ptype_pkg is subtype byte_t is integer range 0 to 2**8-1; type byte_vector_t is array (integer range <>) of byte_t; type byte_vector_ptr_t is access byte_vector_t; type memory_model_t is protected procedure reset(memory_size_in_bytes : natural); impure function allocate(num_bytes : natural; alignment : positive := 1) return natural; procedure write_byte(address : natural; value : byte_t); impure function read_byte(address : natural) return byte_t; end protected; end package; package body memory_model_ptype_pkg is type memory_model_t is protected body variable size : natural := 0; variable base_address : natural := 0; variable bytes : byte_vector_ptr_t := null; procedure reset(memory_size_in_bytes : natural) is begin size := memory_size_in_bytes; base_address := 0; if bytes /= null then deallocate(bytes); end if; bytes := new byte_vector_t(0 to size-1); end procedure; impure function allocate(num_bytes : natural; alignment : positive := 1) return natural is variable ptr : natural; begin base_address := base_address + ((-base_address) mod alignment); ptr := base_address; base_address := base_address + num_bytes; return ptr; end function; procedure write_byte(address : natural; value : byte_t) is begin bytes(address) := value; end procedure; impure function read_byte(address : natural) return byte_t is begin return bytes(address); end function; end protected body; end package body;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity tb2 is end entity; architecture test of tb2 is constant w : integer := 4; signal s_out : std_logic_vector(w-1 downto 0); begin e : entity work.ent generic map( WIDTH => w ) port map( o_slv => s_out ); process begin wait for 1 ns; report integer'image(to_integer(unsigned(s_out))); wait; end process; end architecture test;
---------------------------------------------------------------------------- -- This file is a part of the LEON VHDL model -- Copyright (C) 1999 European Space Agency (ESA) -- -- This library is free software; you can redistribute it and/or -- modify it under the terms of the GNU Lesser General Public -- License as published by the Free Software Foundation; either -- version 2 of the License, or (at your option) any later version. -- -- See the file COPYING.LGPL for the full details of the license. ----------------------------------------------------------------------------- -- Entity: mcore -- File: mcore.vhd -- Author: Jiri Gaisler - Gaisler Reserch -- Description: Module containing the processor, caches, memory controller -- and standard peripherals ------------------------------------------------------------------------------ -- 29.01.02 added signals for DDM -- 13.03.02 mdct dummy core adddes LA library IEEE; use IEEE.std_logic_1164.all; use work.target.all; use work.config.all; use work.iface.all; use work.amba.all; use work.ambacomp.all; -- pragma translate_off use work.debug.all; -- pragma translate_on entity mcore is port ( resetn : in std_logic; clk : in std_logic; memi : in memory_in_type; memo : out memory_out_type; ioi : in io_in_type; ioo : out io_out_type; pcii : in pci_in_type; pcio : out pci_out_type; ddmi : in ddm_in_type; --LA ddmo : out ddm_out_type; --LA test : in std_logic ); end; architecture rtl of mcore is component clkgen port ( clk : in std_logic; pciclk : in std_logic; clki : in clkgen_in_type; clko : out clkgen_out_type ); end component; component rstgen port ( resetn : in std_logic; pcirst : in std_logic; clk : in clk_type; rst : out rst_type ); end component; signal rst : rst_type; signal clko : clkgen_out_type; signal clki : clkgen_in_type; signal iui : iu_in_type; signal iuo : iu_out_type; signal ahbsto: ahbstat_out_type; signal mctrlo: mctrl_out_type; signal wpo : wprot_out_type; signal apbi : apb_slv_in_vector(0 to APB_SLV_MAX-1); signal apbo : apb_slv_out_vector(0 to APB_SLV_MAX-1); signal ahbmi : ahb_mst_in_vector(0 to AHB_MST_MAX-1); signal ahbmo : ahb_mst_out_vector(0 to AHB_MST_MAX-1); signal ahbsi : ahb_slv_in_vector(0 to AHB_SLV_MAX-1); signal ahbso : ahb_slv_out_vector(0 to AHB_SLV_MAX-1); signal pciresetn, pciirq : std_logic; signal irqi : irq_in_type; signal irqo : irq_out_type; signal irq2i : irq2_in_type; signal irq2o : irq2_out_type; signal timo : timers_out_type; signal pioo : pio_out_type; signal uart1i, uart2i : uart_in_type; signal uart1o, uart2o : uart_out_type; signal ddmirq : std_logic; -- LA signal mdctirq : std_logic; -- LA begin -- reset generator reset0 : rstgen port map (resetn, pciresetn, clko.clk, rst); -- clock generator clkgen0 : clkgen port map (clk, pcii.pci_clk_in, clki, clko); ---------------------------------------------------------------------- -- AHB bus -- ---------------------------------------------------------------------- -- AHB arbiter/decoder ahb0 : ahbarb generic map (masters => AHB_MASTERS, defmast => AHB_DEFMST) port map (rst.syncrst, clko.clk, ahbmi(0 to AHB_MASTERS-1), ahbmo(0 to AHB_MASTERS-1), ahbsi, ahbso); -- AHB/APB bridge apb0 : apbmst port map (rst.syncrst, clko.clk, ahbsi(1), ahbso(1), apbi, apbo); -- processor and cache sub-system proc0 : proc port map ( rst.syncrst, clki, clko, apbi(2), apbo(2), ahbmi(0), ahbmo(0), iui, iuo); -- memory controller mctrl0 : mctrl port map ( rst => rst, clk=> clko.clk, memi => memi, memo => memo, ahbsi => ahbsi(0), ahbso => ahbso(0), apbi => apbi(0), apbo => apbo(0), pioo => pioo, wpo => wpo, mctrlo => mctrlo); -- AHB write protection wp0 : if WPROTEN generate wpm : wprot port map ( rst => rst, clk => clko.clk, wpo => wpo, ahbsi => ahbsi(0), apbi => apbi(3), apbo => apbo(3)); end generate; wp1 : if not WPROTEN generate apbo(3).prdata <= (others => '0'); end generate; -- AHB status register as0 : if AHBSTATEN generate asm : ahbstat port map ( rst => rst, clk => clko.clk, ahbmi => ahbmi(0), ahbsi => ahbsi(0), apbi => apbi(1), apbo => apbo(1), ahbsto => ahbsto); end generate; as1 : if not AHBSTATEN generate apbo(1).prdata <= (others => '0'); ahbsto.ahberr <= '0'; end generate; -- AHB test module ahbt : if PCICORE = ahbtst generate a0 : ahbtest port map ( rst => rst.syncrst, clk => clko.clk, ahbi => ahbsi(2), ahbo => ahbso(2) ); pci0 : pci_is port map ( rst_n => rst.syncrst, app_clk => clko.clk, pci_clk => clko.pciclk, pbi => apbi(10), pbo => apbo(10), irq => pciirq, TargetMasterOut => ahbmo(1), TargetMasterIn => ahbmi(1), pci_in => pcii, pci_out => pcio, InitSlaveOut => ahbso(3), InitSlaveIn => ahbsi(3), InitMasterOut => ahbmo(2), InitMasterIn => ahbmi(2) ); pciresetn <= '1'; end generate; -- Optional InSilicon PCI core pci_is0 : if PCICORE = insilicon generate pci0 : pci_is port map ( rst_n => rst.syncrst, app_clk => clko.clk, pci_clk => clko.pciclk, pbi => apbi(10), pbo => apbo(10), irq => pciirq, TargetMasterOut => ahbmo(1), TargetMasterIn => ahbmi(1), pci_in => pcii, pci_out => pcio, InitSlaveOut => ahbso(2), InitSlaveIn => ahbsi(2), InitMasterOut => ahbmo(2), InitMasterIn => ahbmi(2) ); pciresetn <= pcii.pci_rst_in_n; end generate; -- Optional ESA PCI core pci_esa0 : if PCICORE = esa generate pci0 : pci_esa port map ( resetn => rst.syncrst, app_clk => clko.clk, pci_in => pcii, pci_out => pcio, ahbmasterin => ahbmi(1), ahbmasterout => ahbmo(1), ahbslavein => ahbsi(2), ahbslaveout => ahbso(2), apbslavein => apbi(10), apbslaveout => apbo(10), irq => pciirq ); pciresetn <= pcii.pci_rst_in_n; end generate; pr0 : if not PCIEN generate pciirq <= '0'; pciresetn <= '0'; end generate; -- drive unused part of the AHB bus to stop some stupid synthesis tools -- from inserting tri-state buffers (!) ahbdrv : for i in 0 to AHB_SLV_MAX-1 generate u0 : if not AHB_SLVTABLE(i).enable generate ahbso(i).hready <= '-'; ahbso(i).hresp <= "--"; ahbso(i).hrdata <= (others => '-'); ahbso(i).hsplit <= (others => '-'); end generate; end generate; ---------------------------------------------------------------------- -- APB bus -- ---------------------------------------------------------------------- pci_arb0 : if PCIARBEN generate pciarb : pci_arb port map ( clk => pcii.pci_clk_in, rst_n => rst.syncrst, req_n => ioi.pci_arb_req_n, frame_n => pcii.pci_frame_in_n, gnt_n => ioo.pci_arb_gnt_n, pclk => clko.clk, prst_n => pcii.pci_rst_in_n, pbi => apbi(11), pbo => apbo(11) ); end generate; -- LEON configuration register lc0 : if CFGREG generate lcm : lconf port map (rst => rst, apbo => apbo(4)); end generate; -- timers (and watchdog) timers0 : timers port map (rst => rst.syncrst, clk => clko.clk, apbi => apbi(5), apbo => apbo(5), timo => timo); -- UARTS -- This stupidity exists because synopsys DC is not capable of -- handling record elements in port maps. Sad really ... uart1i.rxd <= pioo.rxd(0); uart1i.ctsn <= pioo.ctsn(0); uart2i.rxd <= pioo.rxd(1); uart2i.ctsn <= pioo.ctsn(1); uart1i.scaler <= pioo.io8lsb; uart2i.scaler <= pioo.io8lsb; uart1 : uart port map ( rst => rst.syncrst, clk => clko.clk, apbi => apbi(6), apbo => apbo(6), uarti => uart1i, uarto => uart1o); uart2 : uart port map ( rst => rst.syncrst, clk => clko.clk, apbi => apbi(7), apbo => apbo(7), uarti => uart2i, uarto => uart2o); -- interrupt controller irqctrl0 : irqctrl port map (rst => rst.syncrst, clk => clko.clk, apbi => apbi(8), apbo => apbo(8), irqi => irqi, irqo => irqo); irqi.intack <= iuo.intack; irqi.irl <= iuo.irqvec; iui.irl <= irqo.irl; -- optional secondary interrupt controller i2 : if IRQ2EN generate irqctrl1 : irqctrl2 port map (rst => rst.syncrst, clk => clko.clk, apbi => apbi(10), apbo => apbo(10), irqi => irq2i, irqo => irq2o); end generate; -- parallel I/O port ioport0 : ioport port map (rst => rst, clk => clko.clk, apbi => apbi(9), apbo => apbo(9), uart1o => uart1o, uart2o => uart2o, mctrlo => mctrlo, ioi => ioi, pioo => pioo); -- ddm ddm0 : ddm port map (rst => rst.syncrst, clk => clk, apbi => apbi(11), apbo => apbo(11), ahbi => ahbmi(1), ahbo => ahbmo(1), ddmo => ddmo, ddmi => ddmi, irq => ddmirq ); -- LA -- mdct mdct0 : mdct port map (rst => rst.syncrst, clk => clk, apbi => apbi(12), apbo => apbo(12), ahbi => ahbmi(2), ahbo => ahbmo(2),irq => mdctirq ); -- LA -- drive unused part of the APB bus to stop some stupid synthesis tools -- from inserting tri-state buffers (!) apbdrv : for i in 0 to APB_SLV_MAX-1 generate u0 : if not APB_TABLE(i).enable generate apbo(i).prdata <= (others => '-'); end generate; end generate; -- IRQ assignments, add you mapping below irqi.irq(15) <= '0'; -- unmaskable irq irqi.irq(14) <= pciirq; irqi.irq(13) <= ddmirq; -- LA irqi.irq(12) <= mdctirq; -- LA irqi.irq(11 downto 10) <= (others => '0'); -- unassigned irqs -- irqi.irq(10) <= irq2o.irq when IRQ2EN else '0'; irqi.irq(9) <= timo.irq(1); -- timer 2 irqi.irq(8) <= timo.irq(0); -- timer 1 irqi.irq(7 downto 4) <= pioo.irq; -- I/O port interrupts irqi.irq(3) <= uart1o.irq; -- UART 1 irqi.irq(2) <= uart2o.irq; -- UART 2 irqi.irq(1) <= ahbsto.ahberr; -- AHB error -- additional 32 interrupts for secondary interrupt controller irq2i.irq <= (others => '0'); -- drive outputs ioo.piol <= pioo.piol(15 downto 0); ioo.piodir <= pioo.piodir(15 downto 0); ioo.wdog <= timo.wdog; ioo.errorn <= iuo.error; -- disassambler -- pragma translate_off trace0 : trace(iuo.debug, (test = '1')); -- pragma translate_on end ;