rtl-llm/vhdl_github · Datasets at Hugging Face

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LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --************************************************* --* * --* ALTERA FLOATING POINT DATAPATH COMPILER * --* * --* HCC_CNTUSGN32.VHD * --* * --* Function: Count leading bits in an * --* unsigned 32 bit number * --* * --* 14/07/07 ML * --* * --* (c) 2007 Altera Corporation * --* * --* Change History * --* * --* * --* * --* * --* * --************************************************* ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;
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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 Qvz89cBdI8nd5UQO+Krna/2C/3/ykSWsqFWcSuz06vHjb1Nldp+l9vdYv8aD9rxYhxw30qA2vQoH aNM+gQvkmg== `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 iTrtweEsA9+aHJNglL255BPetvDTao4vDa6gKi5k76/MZVKZomiK8QfcWUSYBD/IKTjmnSFDe2GL Q/mqHenaKYqjwKdI45sBpAEGCVtVE/kL7EGy1pUIukSoSAVczPQRm6P5PxHxAgyZw1wtHuO7ul20 z4MOgITfY5d0QmRsqCk= `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 Qvz89cBdI8nd5UQO+Krna/2C/3/ykSWsqFWcSuz06vHjb1Nldp+l9vdYv8aD9rxYhxw30qA2vQoH aNM+gQvkmg== `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 iTrtweEsA9+aHJNglL255BPetvDTao4vDa6gKi5k76/MZVKZomiK8QfcWUSYBD/IKTjmnSFDe2GL Q/mqHenaKYqjwKdI45sBpAEGCVtVE/kL7EGy1pUIukSoSAVczPQRm6P5PxHxAgyZw1wtHuO7ul20 z4MOgITfY5d0QmRsqCk= `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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-------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 22:05:59 04/06/2014 -- Design Name: -- Module Name: C:/Users/Tom/projs/code/square_wave/square_wave_test.vhd -- Project Name: square_wave -- Target Device: -- Tool versions: -- Description: -- -- VHDL Test Bench Created by ISE for module: square_wave -- -- 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; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values USE ieee.numeric_std.ALL; ENTITY square_wave_test IS END square_wave_test; ARCHITECTURE behavior OF square_wave_test IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT square_wave PORT( x_in : IN std_logic_vector(9 downto 0); enable : IN std_logic; square_out : OUT std_logic_vector(11 downto 0); pwm_length : IN std_logic_vector(9 downto 0) ); END COMPONENT; --Inputs signal x_in : std_logic_vector(9 downto 0) := (others => '0'); signal enable : std_logic := '0'; signal pwm_length : std_logic_vector(9 downto 0) := (others => '0'); --Outputs signal square_out : std_logic_vector(11 downto 0); -- No clocks detected in port list. Replace <clock> below with -- appropriate port name signal x_sig: unsigned(9 downto 0); signal pwm_sig: unsigned(9 downto 0); BEGIN -- Instantiate the Unit Under Test (UUT) uut: square_wave PORT MAP ( x_in => x_in, enable => enable, square_out => square_out, pwm_length => pwm_length ); -- Stimulus process stim_proc: process begin -- hold reset state for 100 ns. wait for 100 ns; enable <= '1'; -- insert stimulus here loop pwm_sig <= to_unsigned(to_integer(pwm_sig) + 1,10); pwm_length <= std_logic_vector(pwm_sig); for i in 0 to 2 ** x_sig'length loop x_sig <= to_unsigned(to_integer(x_sig) + 1,10); x_in <= std_logic_vector(x_sig); wait for 10 ns; end loop; wait for 10 ns; end loop; wait; end process; END;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity bit_cpx_cpy is port ( operation : in std_logic_vector(2 downto 0); enable : in std_logic := '1'; -- instruction(1 downto 0)="00" n_in : in std_logic; v_in : in std_logic; z_in : in std_logic; c_in : in std_logic; data_in : in std_logic_vector(7 downto 0); a_reg : in std_logic_vector(7 downto 0); x_reg : in std_logic_vector(7 downto 0); y_reg : in std_logic_vector(7 downto 0); n_out : out std_logic; v_out : out std_logic; z_out : out std_logic; c_out : out std_logic ); end bit_cpx_cpy; architecture gideon of bit_cpx_cpy is signal reg : std_logic_vector(7 downto 0) := (others => '0'); signal diff : unsigned(8 downto 0) := (others => '0'); signal zero_cmp : std_logic; signal zero_ld : std_logic; signal zero_bit : std_logic; signal oper4 : std_logic_vector(3 downto 0); begin -- * BIT * *** STY LDY CPY CPX reg <= x_reg when operation(0)='1' else y_reg; diff <= unsigned('1' & reg) - unsigned('0' & data_in); zero_cmp <= '1' when diff(7 downto 0)=X"00" else '0'; zero_ld <= '1' when data_in=X"00" else '0'; zero_bit <= '1' when (data_in and a_reg)=X"00" else '0'; oper4 <= enable & operation; with oper4 select c_out <= diff(8) when "1110" \| "1111", -- CPX / CPY c_in when others; with oper4 select z_out <= zero_cmp when "1110" \| "1111", -- CPX / CPY zero_ld when "1101", zero_bit when "1001", z_in when others; with oper4 select n_out <= diff(7) when "1110" \| "1111", -- CPX / CPY data_in(7) when "1101" \| "1001", -- LDY / BIT n_in when others; with oper4 select v_out <= data_in(6) when "1001", -- BIT v_in when others; end gideon;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity signal7 is end entity; architecture test of signal7 is signal x, y : unsigned(7 downto 0); begin process is begin x <= to_unsigned(5, 8); wait for 1 ns; y <= x + 1; wait for 1 ns; assert y = 6; wait; end process; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity signal7 is end entity; architecture test of signal7 is signal x, y : unsigned(7 downto 0); begin process is begin x <= to_unsigned(5, 8); wait for 1 ns; y <= x + 1; wait for 1 ns; assert y = 6; wait; end process; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity signal7 is end entity; architecture test of signal7 is signal x, y : unsigned(7 downto 0); begin process is begin x <= to_unsigned(5, 8); wait for 1 ns; y <= x + 1; wait for 1 ns; assert y = 6; wait; end process; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity signal7 is end entity; architecture test of signal7 is signal x, y : unsigned(7 downto 0); begin process is begin x <= to_unsigned(5, 8); wait for 1 ns; y <= x + 1; wait for 1 ns; assert y = 6; wait; end process; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity signal7 is end entity; architecture test of signal7 is signal x, y : unsigned(7 downto 0); begin process is begin x <= to_unsigned(5, 8); wait for 1 ns; y <= x + 1; wait for 1 ns; assert y = 6; wait; end process; end architecture;
------------------------------------------------------------------------------- --! @file prlSlave-rtl-ea.vhd --! @brief Multiplexed memory mapped slave ------------------------------------------------------------------------------- -- -- (c) B&R Industrial Automation GmbH, 2014 -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- 2. 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. -- -- 3. Neither the name of B&R nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without prior written permission. For written -- permission, please contact office@br-automation.com -- -- 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 HOLDERS 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. -- ------------------------------------------------------------------------------- --! Use standard ieee library library ieee; --! Use logic elements use ieee.std_logic_1164.all; --! Use numeric std use ieee.numeric_std.all; --! Use libcommon library library libcommon; --! Use global package use libcommon.global.all; entity prlSlave is generic ( --! Enable multiplexed address/data-bus mode (0 = FALSE) gEnableMux : natural := 0; --! Data bus width gDataWidth : natural := 16; --! Address bus width gAddrWidth : natural := 16; --! Ad bus width (valid when gEnableMux /= FALSE) gAdWidth : natural := 16 ); port ( --! Clock iClk : in std_logic; --! Reset iRst : in std_logic; -- Memory mapped multiplexed slave --! Chipselect iPrlSlv_cs : in std_logic; --! Read strobe iPrlSlv_rd : in std_logic; --! Write strobe iPrlSlv_wr : in std_logic; --! Address Latch enable (Multiplexed only) iPrlSlv_ale : in std_logic; --! High active Acknowledge oPrlSlv_ack : out std_logic; --! Byteenables iPrlSlv_be : in std_logic_vector(gDataWidth/8-1 downto 0); -- Multiplexed AD-bus --! Address/Data bus out oPrlSlv_ad_o : out std_logic_vector(gAdWidth-1 downto 0); --! Address/Data bus in iPrlSlv_ad_i : in std_logic_vector(gAdWidth-1 downto 0); --! Address/Data bus outenable oPrlSlv_ad_oen : out std_logic; -- Demultiplexed AD-bus --! Address bus iPrlSlv_addr : in std_logic_vector(gAddrWidth-1 downto 0); --! Data bus in iPrlSlv_data_i : in std_logic_vector(gDataWidth-1 downto 0); --! Data bus out oPrlSlv_data_o : out std_logic_vector(gDataWidth-1 downto 0); --! Data bus outenable oPrlSlv_data_oen : out std_logic; -- Memory Mapped master --! MM slave host address oMst_address : out std_logic_vector(gAddrWidth-1 downto 0); --! MM slave host byteenable oMst_byteenable : out std_logic_vector(gDataWidth/8-1 downto 0); --! MM slave host read oMst_read : out std_logic; --! MM slave host readdata iMst_readdata : in std_logic_vector(gDataWidth-1 downto 0); --! MM slave host write oMst_write : out std_logic; --! MM slave host writedata oMst_writedata : out std_logic_vector(gDataWidth-1 downto 0); --! MM slave host waitrequest iMst_waitrequest : in std_logic ); end prlSlave; architecture rtl of prlSlave is -- address register to store the address populated to the interface signal addressRegister : std_logic_vector(gAddrWidth-1 downto 0); -- byteenable register to store byteenable qualifiers signal byteenableRegister : std_logic_vector(gDataWidth/8-1 downto 0); -- register clock enable signal byteenableRegClkEnable : std_logic; -- write data register to store the data populated to the interface signal writeDataRegister : std_logic_vector(gDataWidth-1 downto 0); -- register clock enable signal writeDataRegClkEnable : std_logic; -- read data register to store the read data populated to the host signal readDataRegister : std_logic_vector(gDataWidth-1 downto 0); signal readDataRegister_next : std_logic_vector(gDataWidth-1 downto 0); -- synchronized signals signal hostChipselect : std_logic; signal hostWrite : std_logic; signal hostWrite_noCs : std_logic; signal hostRead : std_logic; signal hostRead_noCs : std_logic; signal hostDataEnable : std_logic; signal hostDataEnable_reg : std_logic; signal hostAck : std_logic; signal hostAck_reg : std_logic; -- fsm type tFsm is ( sIdle, sStart, sWaitForBus, sHold ); signal fsm : tFsm; -- Latch type type tLatch is record clear : std_logic; enable : std_logic; data : std_logic_vector(gAddrWidth-1 downto 0); output : std_logic_vector(gAddrWidth-1 downto 0); end record; signal inst_latch : tLatch; begin --! The processes describe the register, which stores the unsynchronized --! inputs! reg : process(iRst, iClk) begin if iRst = cActivated then addressRegister <= (others => cInactivated); byteenableRegister <= (others => cInactivated); writeDataRegister <= (others => cInactivated); readDataRegister <= (others => cInactivated); hostDataEnable_reg <= cInactivated; hostAck_reg <= cInactivated; elsif rising_edge(iClk) then hostDataEnable_reg <= hostDataEnable; hostAck_reg <= hostAck; if byteenableRegClkEnable = cActivated then byteenableRegister <= iPrlSlv_be; -- Assign byte addresses to the address register if gEnableMux /= 0 then addressRegister <= (others => cInactivated); addressRegister <= inst_latch.output; else addressRegister <= iPrlSlv_addr; end if; end if; if writeDataRegClkEnable = cActivated then if gEnableMux /= 0 then writeDataRegister <= iPrlSlv_ad_i(writeDataRegister'range); else writeDataRegister <= iPrlSlv_data_i; end if; end if; if iMst_waitrequest = cInactivated and hostRead = cActivated then readDataRegister <= readDataRegister_next; end if; end if; end process; oMst_address <= addressRegister; -- Multiplexed output oPrlSlv_ad_oen <= hostDataEnable_reg; oPrlSlv_ack <= hostAck_reg; -- Demultiplexed output oPrlSlv_data_oen <= hostDataEnable_reg; assignReaddata : process(readDataRegister) begin -- default assign zeros oPrlSlv_ad_o <= (others => cInactivated); oPrlSlv_data_o <= (others => cInactivated); oPrlSlv_ad_o(readDataRegister'range) <= readDataRegister; oPrlSlv_data_o(readDataRegister'range) <= readDataRegister; end process assignReaddata; --! combinatoric process for ack and output enable generation combProc : process ( hostWrite, hostRead, fsm ) begin -- default assignments to avoid unwanted latches hostAck <= cInactivated; hostDataEnable <= cInactivated; if fsm = sHold then if hostRead = cActivated then hostDataEnable <= cActivated; hostAck <= cActivated; elsif hostWrite = cActivated then hostAck <= cActivated; end if; end if; end process; --! Fsm to control access and timeout counter fsmProc : process(iRst, iClk) begin if iRst = cActivated then fsm <= sIdle; byteenableRegClkEnable <= cInactivated; writeDataRegClkEnable <= cInactivated; oMst_write <= cInactivated; oMst_read <= cInactivated; elsif rising_edge(iClk) then --defaults byteenableRegClkEnable <= cInactivated; writeDataRegClkEnable <= cInactivated; case fsm is when sIdle => oMst_write <= cInactivated; oMst_read <= cInactivated; if hostRead = cActivated or hostWrite = cActivated then fsm <= sStart; byteenableRegClkEnable <= cActivated; writeDataRegClkEnable <= hostWrite; end if; when sStart => fsm <= sWaitForBus; oMst_read <= hostRead; oMst_write <= hostWrite; when sWaitForBus => if iMst_waitrequest = cInactivated then fsm <= sHold; oMst_read <= cInactivated; oMst_write <= cInactivated; end if; when sHold => if hostRead = cInactivated and hostWrite = cInactivated then fsm <= sIdle; end if; end case; end if; end process; oMst_byteenable <= byteenableRegister; oMst_writedata <= writeDataRegister; readDataRegister_next <= iMst_readdata; muxLatch : if gEnableMux /= 0 generate -- Address latch addrLatch : entity work.dataLatch generic map ( gDataWidth => inst_latch.data'length ) port map ( iClear => inst_latch.clear, iEnable => inst_latch.enable, iData => inst_latch.data, oData => inst_latch.output ); inst_latch.clear <= cInactivated; inst_latch.enable <= iPrlSlv_ale; inst_latch.data <= iPrlSlv_ad_i(inst_latch.data'range); end generate muxLatch; -- synchronize all available control signals syncChipselect : entity libcommon.synchronizer generic map ( gStages => 2, gInit => cInactivated ) port map ( iArst => iRst, iClk => iClk, iAsync => iPrlSlv_cs, oSync => hostChipselect ); syncWrite : entity libcommon.synchronizer generic map ( gStages => 2, gInit => cInactivated ) port map ( iArst => iRst, iClk => iClk, iAsync => iPrlSlv_wr, oSync => hostWrite_noCs ); hostWrite <= hostChipselect and hostWrite_noCs; syncRead : entity libcommon.synchronizer generic map ( gStages => 2, gInit => cInactivated ) port map ( iArst => iRst, iClk => iClk, iAsync => iPrlSlv_rd, oSync => hostRead_noCs ); hostRead <= hostChipselect and hostRead_noCs; end rtl;
-- 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 3 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, see <http://www.gnu.org/licenses/> -- -- Copyright (C) 2014 Jakub Kicinski <kubakici@wp.pl> library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_ARITH.all; use IEEE.STD_LOGIC_UNSIGNED.all; -- Remove last @N_BYTES from data flying through Bus entity bus_tail_strip is generic (N_BYTES : integer); port (Clk : in std_logic; Rst : in std_logic; PktIn : in std_logic; DataIn : in std_logic_vector(7 downto 0); PktOut : out std_logic; DataOut : out std_logic_vector(7 downto 0)); end bus_tail_strip; -- Operation: -- Delay all signals and "and" incoming @PktIn with @PktOut to cut it early. -- NOTE: input is registered which may not be necessary. Remove clocking of -- delay*(0) to stop registering input. architecture Behavioral of bus_tail_strip is type byte_vec is array (0 to N_BYTES) of std_logic_vector(7 downto 0); signal delayByte : byte_vec; signal delayPkt : std_logic_vector(0 to N_BYTES); begin delayByte(0) <= DataIn when rising_edge(Clk); delayPkt(0) <= PktIn when rising_edge(Clk); delay_path : for i in 0 to N_BYTES - 1 generate delayByte(i + 1) <= delayByte(i) when rising_edge(Clk); delayPkt(i + 1) <= delayPkt(i) when rising_edge(Clk); end generate delay_path; DataOut <= delayByte(N_BYTES); PktOut <= delayPkt(0) and delayPkt(N_BYTES); end Behavioral;
-- NEED RESULT: ARCH00302: Block statement with generic map passed -- NEED RESULT: ARCH00302: Block statement without generic map passed ------------------------------------------------------------------------------- -- -- Copyright (c) 1989 by Intermetrics, Inc. -- All rights reserved. -- ------------------------------------------------------------------------------- -- -- TEST NAME: -- -- CT00302 -- -- AUTHOR: -- -- G. Tominovich -- -- TEST OBJECTIVES: -- -- 9.1 (7) -- -- DESIGN UNIT ORDERING: -- -- E00000(ARCH00302) -- ENT00302_Test_Bench(ARCH00302_Test_Bench) -- -- REVISION HISTORY: -- -- 24-JUL-1987 - initial revision -- -- NOTES: -- -- self-checking -- -- use WORK.STANDARD_TYPES.all ; architecture ARCH00302 of E00000 is begin B1 : block generic ( g1 : boolean ; g2 : bit ) ; generic map ( false, g2 => '0' ) ; begin process begin test_report ( "ARCH00302" , "Block statement with generic map" , (not g1) and (g2='0') ) ; wait ; end process ; end block B1 ; B2 : block generic ( g1 : boolean := false ; g2 : bit := '0') ; begin process begin test_report ( "ARCH00302" , "Block statement without generic map" , (not g1) and (g2='0') ) ; wait ; end process ; end block B2 ; end ARCH00302 ; entity ENT00302_Test_Bench is end ENT00302_Test_Bench ; architecture ARCH00302_Test_Bench of ENT00302_Test_Bench is begin L1: block component UUT end component ; for CIS1 : UUT use entity WORK.E00000 ( ARCH00302 ) ; begin CIS1 : UUT ; end block L1 ; end ARCH00302_Test_Bench ;
library verilog; use verilog.vl_types.all; entity usb_system_cpu_jtag_debug_module_sysclk is port( clk : in vl_logic; ir_in : in vl_logic_vector(1 downto 0); sr : in vl_logic_vector(37 downto 0); vs_udr : in vl_logic; vs_uir : in vl_logic; jdo : out vl_logic_vector(37 downto 0); take_action_break_a: out vl_logic; take_action_break_b: out vl_logic; take_action_break_c: out vl_logic; take_action_ocimem_a: out vl_logic; take_action_ocimem_b: out vl_logic; take_action_tracectrl: out vl_logic; take_action_tracemem_a: out vl_logic; take_action_tracemem_b: out vl_logic; take_no_action_break_a: out vl_logic; take_no_action_break_b: out vl_logic; take_no_action_break_c: out vl_logic; take_no_action_ocimem_a: out vl_logic; take_no_action_tracemem_a: out vl_logic ); end usb_system_cpu_jtag_debug_module_sysclk;
-- SIMON 64/128 -- key scheduling function -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- -- Parameters: -- r: round index -- k_0..k_3: key -- subkey_out: round subkey -- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity key_schedule is port (r : in std_logic_vector(7 downto 0); -- we don't need k_2 here because of the way we schedule k(r) in the simon component k_0 : in std_logic_vector(31 downto 0); k_1 : in std_logic_vector(31 downto 0); k_3 : in std_logic_vector(31 downto 0); subkey_out : out std_logic_vector(31 downto 0)); end key_schedule; architecture Behavioral of key_schedule is signal op_3_s : std_logic_vector(31 downto 0); signal op_xor_0 : std_logic_vector(31 downto 0); signal op_1_s : std_logic_vector(31 downto 0); signal seqC : std_logic_vector(31 downto 0); signal sequence : std_logic_vector(61 downto 0); begin -- C ^ sequence[(r-4) % 62] sequence <= "11110000101100111001010001001000000111101001100011010111011011"; -- z3 -- 0xFFFFFFFFFFFFFFFC xor sequence[(r-4) % 62] -- TODO: 1-bit latch for seqC(0) is used, not recommended... seqC <= ("1111111111111111111111111111110" & sequence((to_integer(unsigned(r))) mod 62)); -- tmp = K[3] >> 3 op_3_s <= std_logic_vector(rotate_right(unsigned(k_3), 3)); -- tmp = tmp xor k[1] op_xor_0 <= (op_3_s xor k_1); -- tmp >> 1 op_1_s <= std_logic_vector(rotate_right(unsigned(op_xor_0), 1)); -- Original NSA specification lists ~K[0] ^ 3 but this can be rewritten to K[0] ^ ((1 << word_size)-4) where the latter can be stored as a constant for speed subkey_out <= op_1_s xor op_xor_0 xor k_0 xor seqC; end Behavioral;
-- SIMON 64/128 -- key scheduling function -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- -- Parameters: -- r: round index -- k_0..k_3: key -- subkey_out: round subkey -- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity key_schedule is port (r : in std_logic_vector(7 downto 0); -- we don't need k_2 here because of the way we schedule k(r) in the simon component k_0 : in std_logic_vector(31 downto 0); k_1 : in std_logic_vector(31 downto 0); k_3 : in std_logic_vector(31 downto 0); subkey_out : out std_logic_vector(31 downto 0)); end key_schedule; architecture Behavioral of key_schedule is signal op_3_s : std_logic_vector(31 downto 0); signal op_xor_0 : std_logic_vector(31 downto 0); signal op_1_s : std_logic_vector(31 downto 0); signal seqC : std_logic_vector(31 downto 0); signal sequence : std_logic_vector(61 downto 0); begin -- C ^ sequence[(r-4) % 62] sequence <= "11110000101100111001010001001000000111101001100011010111011011"; -- z3 -- 0xFFFFFFFFFFFFFFFC xor sequence[(r-4) % 62] -- TODO: 1-bit latch for seqC(0) is used, not recommended... seqC <= ("1111111111111111111111111111110" & sequence((to_integer(unsigned(r))) mod 62)); -- tmp = K[3] >> 3 op_3_s <= std_logic_vector(rotate_right(unsigned(k_3), 3)); -- tmp = tmp xor k[1] op_xor_0 <= (op_3_s xor k_1); -- tmp >> 1 op_1_s <= std_logic_vector(rotate_right(unsigned(op_xor_0), 1)); -- Original NSA specification lists ~K[0] ^ 3 but this can be rewritten to K[0] ^ ((1 << word_size)-4) where the latter can be stored as a constant for speed subkey_out <= op_1_s xor op_xor_0 xor k_0 xor seqC; end Behavioral;
-- SIMON 64/128 -- key scheduling function -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- -- Parameters: -- r: round index -- k_0..k_3: key -- subkey_out: round subkey -- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity key_schedule is port (r : in std_logic_vector(7 downto 0); -- we don't need k_2 here because of the way we schedule k(r) in the simon component k_0 : in std_logic_vector(31 downto 0); k_1 : in std_logic_vector(31 downto 0); k_3 : in std_logic_vector(31 downto 0); subkey_out : out std_logic_vector(31 downto 0)); end key_schedule; architecture Behavioral of key_schedule is signal op_3_s : std_logic_vector(31 downto 0); signal op_xor_0 : std_logic_vector(31 downto 0); signal op_1_s : std_logic_vector(31 downto 0); signal seqC : std_logic_vector(31 downto 0); signal sequence : std_logic_vector(61 downto 0); begin -- C ^ sequence[(r-4) % 62] sequence <= "11110000101100111001010001001000000111101001100011010111011011"; -- z3 -- 0xFFFFFFFFFFFFFFFC xor sequence[(r-4) % 62] -- TODO: 1-bit latch for seqC(0) is used, not recommended... seqC <= ("1111111111111111111111111111110" & sequence((to_integer(unsigned(r))) mod 62)); -- tmp = K[3] >> 3 op_3_s <= std_logic_vector(rotate_right(unsigned(k_3), 3)); -- tmp = tmp xor k[1] op_xor_0 <= (op_3_s xor k_1); -- tmp >> 1 op_1_s <= std_logic_vector(rotate_right(unsigned(op_xor_0), 1)); -- Original NSA specification lists ~K[0] ^ 3 but this can be rewritten to K[0] ^ ((1 << word_size)-4) where the latter can be stored as a constant for speed subkey_out <= op_1_s xor op_xor_0 xor k_0 xor seqC; end Behavioral;
---------------------------------------------------------------------------------- --! Company: EDAQ WIS. --! Engineer: juna --! --! Create Date: 06/19/2014 --! Module Name: enc_8b10_wrap --! Project Name: FELIX ---------------------------------------------------------------------------------- --! Use standard library library IEEE, work; use IEEE.STD_LOGIC_1164.ALL; use work.centralRouter_package.all; use work.all; --! a wrap for 8b10b encoder entity enc8b10_wrap is port ( clk : in std_logic; rst : in std_logic; dataCode : in std_logic_vector (1 downto 0); -- 00"data, 01"eop, 10"sop, 11"comma dataIN : in std_logic_vector (7 downto 0); dataINrdy : in std_logic; encDataOut : out std_logic_vector (9 downto 0); encDataOutrdy : out std_logic ); end enc8b10_wrap; architecture Behavioral of enc8b10_wrap is ---------------------------------- ---------------------------------- component MUX4_Nbit generic (N : integer := 1); port ( data0 : in std_logic_vector((N-1) downto 0); data1 : in std_logic_vector((N-1) downto 0); data2 : in std_logic_vector((N-1) downto 0); data3 : in std_logic_vector((N-1) downto 0); sel : in std_logic_vector(1 downto 0); data_out : out std_logic_vector((N-1) downto 0) ); end component MUX4_Nbit; ---------------------------------- ---------------------------------- component enc_8b10b port( RESET : in std_logic ; -- Global asynchronous reset (active high) clk : in std_logic ; ena : in std_logic ; --enaRise : in std_logic ; --enaFall : in std_logic ; --SBYTECLK : in std_logic ; -- Master synchronous send byte clock KI : in std_logic ; -- Control (K) input(active high) AI, BI, CI, DI, EI, FI, GI, HI : in std_logic ; -- Unencoded input data JO, HO, GO, FO, IO, EO, DO, CO, BO, AO : out std_logic -- Encoded out ); end component enc_8b10b; ---------------------------------- ---------------------------------- signal isk : std_logic := '1'; signal encoder_rst, enc_ena_s : std_logic; signal enc_ena, encoder_rst_delayed, encoder_rst_clk1 : std_logic := '1'; signal dataINrdy_s : std_logic; signal rst_state : std_logic := '1'; signal dataIN_s, byte : std_logic_vector(7 downto 0); signal dataCode_s : std_logic_vector(1 downto 0) := (others => '1'); begin dataINrdy_s <= dataINrdy and (not encoder_rst); ------------------------------------------------------------------------------------------- -- input registers ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '1' then rst_state <= rst; end if; end process; -- process(clk) begin if clk'event and clk = '1' then if dataINrdy_s = '1' then dataIN_s <= dataIN; dataCode_s <= dataCode; isk <= dataCode(1) or dataCode(0); --rst_state <= '0'; -- else -- dataIN_s <= Kchar_comma; -- dataCode_s <= "11"; end if; end if; end process; -- encoder_rst <= rst_state or rst; -- ------------------------------------------------------------------------------------------- -- data code cases -- 00"data, 01"eop, 10"sop, 11"comma ------------------------------------------------------------------------------------------- inmux: MUX4_Nbit generic map (N=>8) port map ( data0 => dataIN_s, data1 => Kchar_eop, data2 => Kchar_sop, data3 => Kchar_comma, sel => dataCode_s, data_out => byte ); -- ------------------------------------------------------------------------------------------- -- 8b10b encoder ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '0' then enc_ena <= dataINrdy_s or encoder_rst; encoder_rst_clk1 <= encoder_rst; encoder_rst_delayed <= encoder_rst_clk1; end if; end process; -- enc_ena_s <= enc_ena or encoder_rst_delayed; -- enc_8b10bx: enc_8b10b port map( RESET => encoder_rst, -- Global asynchronous reset (active high) clk => clk, ena => enc_ena_s, --SBYTECLK => encClk_s, --clk, -- Master synchronous send byte clock KI => isk, -- Control (K) input(active high) AI=>byte(0), BI=>byte(1), CI=>byte(2), DI=>byte(3), EI=>byte(4), FI=>byte(5), GI=>byte(6), HI=>byte(7), -- Unencoded input data JO=>encDataOut(9),HO=>encDataOut(8),GO=>encDataOut(7),FO=>encDataOut(6),IO=>encDataOut(5),EO=>encDataOut(4),DO=>encDataOut(3),CO=>encDataOut(2),BO=>encDataOut(1),AO=>encDataOut(0) -- Encoded out ); -- -- process(clk) begin if clk'event and clk = '1' then encDataOutrdy <= dataINrdy_s and (not encoder_rst); end if; end process; -- end Behavioral;
---------------------------------------------------------------------------------- --! Company: EDAQ WIS. --! Engineer: juna --! --! Create Date: 06/19/2014 --! Module Name: enc_8b10_wrap --! Project Name: FELIX ---------------------------------------------------------------------------------- --! Use standard library library IEEE, work; use IEEE.STD_LOGIC_1164.ALL; use work.centralRouter_package.all; use work.all; --! a wrap for 8b10b encoder entity enc8b10_wrap is port ( clk : in std_logic; rst : in std_logic; dataCode : in std_logic_vector (1 downto 0); -- 00"data, 01"eop, 10"sop, 11"comma dataIN : in std_logic_vector (7 downto 0); dataINrdy : in std_logic; encDataOut : out std_logic_vector (9 downto 0); encDataOutrdy : out std_logic ); end enc8b10_wrap; architecture Behavioral of enc8b10_wrap is ---------------------------------- ---------------------------------- component MUX4_Nbit generic (N : integer := 1); port ( data0 : in std_logic_vector((N-1) downto 0); data1 : in std_logic_vector((N-1) downto 0); data2 : in std_logic_vector((N-1) downto 0); data3 : in std_logic_vector((N-1) downto 0); sel : in std_logic_vector(1 downto 0); data_out : out std_logic_vector((N-1) downto 0) ); end component MUX4_Nbit; ---------------------------------- ---------------------------------- component enc_8b10b port( RESET : in std_logic ; -- Global asynchronous reset (active high) clk : in std_logic ; ena : in std_logic ; --enaRise : in std_logic ; --enaFall : in std_logic ; --SBYTECLK : in std_logic ; -- Master synchronous send byte clock KI : in std_logic ; -- Control (K) input(active high) AI, BI, CI, DI, EI, FI, GI, HI : in std_logic ; -- Unencoded input data JO, HO, GO, FO, IO, EO, DO, CO, BO, AO : out std_logic -- Encoded out ); end component enc_8b10b; ---------------------------------- ---------------------------------- signal isk : std_logic := '1'; signal encoder_rst, enc_ena_s : std_logic; signal enc_ena, encoder_rst_delayed, encoder_rst_clk1 : std_logic := '1'; signal dataINrdy_s : std_logic; signal rst_state : std_logic := '1'; signal dataIN_s, byte : std_logic_vector(7 downto 0); signal dataCode_s : std_logic_vector(1 downto 0) := (others => '1'); begin dataINrdy_s <= dataINrdy and (not encoder_rst); ------------------------------------------------------------------------------------------- -- input registers ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '1' then rst_state <= rst; end if; end process; -- process(clk) begin if clk'event and clk = '1' then if dataINrdy_s = '1' then dataIN_s <= dataIN; dataCode_s <= dataCode; isk <= dataCode(1) or dataCode(0); --rst_state <= '0'; -- else -- dataIN_s <= Kchar_comma; -- dataCode_s <= "11"; end if; end if; end process; -- encoder_rst <= rst_state or rst; -- ------------------------------------------------------------------------------------------- -- data code cases -- 00"data, 01"eop, 10"sop, 11"comma ------------------------------------------------------------------------------------------- inmux: MUX4_Nbit generic map (N=>8) port map ( data0 => dataIN_s, data1 => Kchar_eop, data2 => Kchar_sop, data3 => Kchar_comma, sel => dataCode_s, data_out => byte ); -- ------------------------------------------------------------------------------------------- -- 8b10b encoder ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '0' then enc_ena <= dataINrdy_s or encoder_rst; encoder_rst_clk1 <= encoder_rst; encoder_rst_delayed <= encoder_rst_clk1; end if; end process; -- enc_ena_s <= enc_ena or encoder_rst_delayed; -- enc_8b10bx: enc_8b10b port map( RESET => encoder_rst, -- Global asynchronous reset (active high) clk => clk, ena => enc_ena_s, --SBYTECLK => encClk_s, --clk, -- Master synchronous send byte clock KI => isk, -- Control (K) input(active high) AI=>byte(0), BI=>byte(1), CI=>byte(2), DI=>byte(3), EI=>byte(4), FI=>byte(5), GI=>byte(6), HI=>byte(7), -- Unencoded input data JO=>encDataOut(9),HO=>encDataOut(8),GO=>encDataOut(7),FO=>encDataOut(6),IO=>encDataOut(5),EO=>encDataOut(4),DO=>encDataOut(3),CO=>encDataOut(2),BO=>encDataOut(1),AO=>encDataOut(0) -- Encoded out ); -- -- process(clk) begin if clk'event and clk = '1' then encDataOutrdy <= dataINrdy_s and (not encoder_rst); end if; end process; -- end Behavioral;
---------------------------------------------------------------------------------- --! Company: EDAQ WIS. --! Engineer: juna --! --! Create Date: 06/19/2014 --! Module Name: enc_8b10_wrap --! Project Name: FELIX ---------------------------------------------------------------------------------- --! Use standard library library IEEE, work; use IEEE.STD_LOGIC_1164.ALL; use work.centralRouter_package.all; use work.all; --! a wrap for 8b10b encoder entity enc8b10_wrap is port ( clk : in std_logic; rst : in std_logic; dataCode : in std_logic_vector (1 downto 0); -- 00"data, 01"eop, 10"sop, 11"comma dataIN : in std_logic_vector (7 downto 0); dataINrdy : in std_logic; encDataOut : out std_logic_vector (9 downto 0); encDataOutrdy : out std_logic ); end enc8b10_wrap; architecture Behavioral of enc8b10_wrap is ---------------------------------- ---------------------------------- component MUX4_Nbit generic (N : integer := 1); port ( data0 : in std_logic_vector((N-1) downto 0); data1 : in std_logic_vector((N-1) downto 0); data2 : in std_logic_vector((N-1) downto 0); data3 : in std_logic_vector((N-1) downto 0); sel : in std_logic_vector(1 downto 0); data_out : out std_logic_vector((N-1) downto 0) ); end component MUX4_Nbit; ---------------------------------- ---------------------------------- component enc_8b10b port( RESET : in std_logic ; -- Global asynchronous reset (active high) clk : in std_logic ; ena : in std_logic ; --enaRise : in std_logic ; --enaFall : in std_logic ; --SBYTECLK : in std_logic ; -- Master synchronous send byte clock KI : in std_logic ; -- Control (K) input(active high) AI, BI, CI, DI, EI, FI, GI, HI : in std_logic ; -- Unencoded input data JO, HO, GO, FO, IO, EO, DO, CO, BO, AO : out std_logic -- Encoded out ); end component enc_8b10b; ---------------------------------- ---------------------------------- signal isk : std_logic := '1'; signal encoder_rst, enc_ena_s : std_logic; signal enc_ena, encoder_rst_delayed, encoder_rst_clk1 : std_logic := '1'; signal dataINrdy_s : std_logic; signal rst_state : std_logic := '1'; signal dataIN_s, byte : std_logic_vector(7 downto 0); signal dataCode_s : std_logic_vector(1 downto 0) := (others => '1'); begin dataINrdy_s <= dataINrdy and (not encoder_rst); ------------------------------------------------------------------------------------------- -- input registers ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '1' then rst_state <= rst; end if; end process; -- process(clk) begin if clk'event and clk = '1' then if dataINrdy_s = '1' then dataIN_s <= dataIN; dataCode_s <= dataCode; isk <= dataCode(1) or dataCode(0); --rst_state <= '0'; -- else -- dataIN_s <= Kchar_comma; -- dataCode_s <= "11"; end if; end if; end process; -- encoder_rst <= rst_state or rst; -- ------------------------------------------------------------------------------------------- -- data code cases -- 00"data, 01"eop, 10"sop, 11"comma ------------------------------------------------------------------------------------------- inmux: MUX4_Nbit generic map (N=>8) port map ( data0 => dataIN_s, data1 => Kchar_eop, data2 => Kchar_sop, data3 => Kchar_comma, sel => dataCode_s, data_out => byte ); -- ------------------------------------------------------------------------------------------- -- 8b10b encoder ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '0' then enc_ena <= dataINrdy_s or encoder_rst; encoder_rst_clk1 <= encoder_rst; encoder_rst_delayed <= encoder_rst_clk1; end if; end process; -- enc_ena_s <= enc_ena or encoder_rst_delayed; -- enc_8b10bx: enc_8b10b port map( RESET => encoder_rst, -- Global asynchronous reset (active high) clk => clk, ena => enc_ena_s, --SBYTECLK => encClk_s, --clk, -- Master synchronous send byte clock KI => isk, -- Control (K) input(active high) AI=>byte(0), BI=>byte(1), CI=>byte(2), DI=>byte(3), EI=>byte(4), FI=>byte(5), GI=>byte(6), HI=>byte(7), -- Unencoded input data JO=>encDataOut(9),HO=>encDataOut(8),GO=>encDataOut(7),FO=>encDataOut(6),IO=>encDataOut(5),EO=>encDataOut(4),DO=>encDataOut(3),CO=>encDataOut(2),BO=>encDataOut(1),AO=>encDataOut(0) -- Encoded out ); -- -- process(clk) begin if clk'event and clk = '1' then encDataOutrdy <= dataINrdy_s and (not encoder_rst); end if; end process; -- end Behavioral;
---------------------------------------------------------------------------------- --! Company: EDAQ WIS. --! Engineer: juna --! --! Create Date: 06/19/2014 --! Module Name: enc_8b10_wrap --! Project Name: FELIX ---------------------------------------------------------------------------------- --! Use standard library library IEEE, work; use IEEE.STD_LOGIC_1164.ALL; use work.centralRouter_package.all; use work.all; --! a wrap for 8b10b encoder entity enc8b10_wrap is port ( clk : in std_logic; rst : in std_logic; dataCode : in std_logic_vector (1 downto 0); -- 00"data, 01"eop, 10"sop, 11"comma dataIN : in std_logic_vector (7 downto 0); dataINrdy : in std_logic; encDataOut : out std_logic_vector (9 downto 0); encDataOutrdy : out std_logic ); end enc8b10_wrap; architecture Behavioral of enc8b10_wrap is ---------------------------------- ---------------------------------- component MUX4_Nbit generic (N : integer := 1); port ( data0 : in std_logic_vector((N-1) downto 0); data1 : in std_logic_vector((N-1) downto 0); data2 : in std_logic_vector((N-1) downto 0); data3 : in std_logic_vector((N-1) downto 0); sel : in std_logic_vector(1 downto 0); data_out : out std_logic_vector((N-1) downto 0) ); end component MUX4_Nbit; ---------------------------------- ---------------------------------- component enc_8b10b port( RESET : in std_logic ; -- Global asynchronous reset (active high) clk : in std_logic ; ena : in std_logic ; --enaRise : in std_logic ; --enaFall : in std_logic ; --SBYTECLK : in std_logic ; -- Master synchronous send byte clock KI : in std_logic ; -- Control (K) input(active high) AI, BI, CI, DI, EI, FI, GI, HI : in std_logic ; -- Unencoded input data JO, HO, GO, FO, IO, EO, DO, CO, BO, AO : out std_logic -- Encoded out ); end component enc_8b10b; ---------------------------------- ---------------------------------- signal isk : std_logic := '1'; signal encoder_rst, enc_ena_s : std_logic; signal enc_ena, encoder_rst_delayed, encoder_rst_clk1 : std_logic := '1'; signal dataINrdy_s : std_logic; signal rst_state : std_logic := '1'; signal dataIN_s, byte : std_logic_vector(7 downto 0); signal dataCode_s : std_logic_vector(1 downto 0) := (others => '1'); begin dataINrdy_s <= dataINrdy and (not encoder_rst); ------------------------------------------------------------------------------------------- -- input registers ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '1' then rst_state <= rst; end if; end process; -- process(clk) begin if clk'event and clk = '1' then if dataINrdy_s = '1' then dataIN_s <= dataIN; dataCode_s <= dataCode; isk <= dataCode(1) or dataCode(0); --rst_state <= '0'; -- else -- dataIN_s <= Kchar_comma; -- dataCode_s <= "11"; end if; end if; end process; -- encoder_rst <= rst_state or rst; -- ------------------------------------------------------------------------------------------- -- data code cases -- 00"data, 01"eop, 10"sop, 11"comma ------------------------------------------------------------------------------------------- inmux: MUX4_Nbit generic map (N=>8) port map ( data0 => dataIN_s, data1 => Kchar_eop, data2 => Kchar_sop, data3 => Kchar_comma, sel => dataCode_s, data_out => byte ); -- ------------------------------------------------------------------------------------------- -- 8b10b encoder ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '0' then enc_ena <= dataINrdy_s or encoder_rst; encoder_rst_clk1 <= encoder_rst; encoder_rst_delayed <= encoder_rst_clk1; end if; end process; -- enc_ena_s <= enc_ena or encoder_rst_delayed; -- enc_8b10bx: enc_8b10b port map( RESET => encoder_rst, -- Global asynchronous reset (active high) clk => clk, ena => enc_ena_s, --SBYTECLK => encClk_s, --clk, -- Master synchronous send byte clock KI => isk, -- Control (K) input(active high) AI=>byte(0), BI=>byte(1), CI=>byte(2), DI=>byte(3), EI=>byte(4), FI=>byte(5), GI=>byte(6), HI=>byte(7), -- Unencoded input data JO=>encDataOut(9),HO=>encDataOut(8),GO=>encDataOut(7),FO=>encDataOut(6),IO=>encDataOut(5),EO=>encDataOut(4),DO=>encDataOut(3),CO=>encDataOut(2),BO=>encDataOut(1),AO=>encDataOut(0) -- Encoded out ); -- -- process(clk) begin if clk'event and clk = '1' then encDataOutrdy <= dataINrdy_s and (not encoder_rst); end if; end process; -- end Behavioral;
--*************************************************************************** -- (c) Copyright 2009 - 2010 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. -- --************************************************************************* -- ____ ____ -- / /\/ / -- /___/ \ / Vendor: Xilinx -- \ \ \/ Version: 3.92 -- \ \ Application: MIG -- / / Filename: phy_dqs_iob.vhd -- /___/ /\ Date Last Modified: $Date: 2011/06/02 07:18:12 $ -- \ \ / \ Date Created: Aug 03 2009 -- \___\/\___\ -- --Device: Virtex-6 --Design Name: DDR3 SDRAM --Purpose: -- Instantiates I/O-related logic for DQS. Contains logic for both write -- and read (phase detection) paths. --Reference: --Revision History: --************************************************************************* --************************************************************************** --$Id: phy_dqs_iob.vhd,v 1.1 2011/06/02 07:18:12 mishra Exp $ --$Date: 2011/06/02 07:18:12 $ --$Author: mishra $ --$Revision: 1.1 $ --$Source: /devl/xcs/repo/env/Databases/ip/src2/O/mig_v3_9/data/dlib/virtex6/ddr3_sdram/vhdl/rtl/phy/phy_dqs_iob.vhd,v $ --**************************************************************************** library unisim; use unisim.vcomponents.all; library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; entity phy_dqs_iob is generic ( TCQ : integer := 100; -- clk->out delay (sim only) DRAM_TYPE : string := "DDR3"; -- Memory I/F type: "DDR3", "DDR2" REFCLK_FREQ : real := 300.0; -- IODELAY Reference Clock freq (MHz) IBUF_LPWR_MODE : string := "OFF"; -- Input buffer low power mode IODELAY_HP_MODE : string := "ON"; -- IODELAY High Performance Mode IODELAY_GRP : string := "IODELAY_MIG" -- May be assigned unique name -- when mult IP cores in design ); port ( clk_mem : in std_logic; -- memory-rate clock clk : in std_logic; -- internal (logic) clock clk_cpt : in std_logic; -- read capture clock clk_rsync : in std_logic; -- resynchronization (read) clock rst : in std_logic; -- reset sync'ed to CLK rst_rsync : in std_logic; -- reset sync'ed to RSYNC -- IODELAY I/F dlyval : in std_logic_vector(4 downto 0); -- IODELAY (DQS) parallel load value -- Write datapath I/F dqs_oe_n : in std_logic_vector(3 downto 0); -- DQS output enable dqs_rst : in std_logic_vector(3 downto 0); -- D4 input of OSERDES: 1- for normal, 0- for WL -- Read datapath I/F rd_bitslip_cnt : in std_logic_vector(1 downto 0); rd_clkdly_cnt : in std_logic_vector(1 downto 0); rd_clkdiv_inv : in std_logic; rd_dqs_rise0 : out std_logic; -- DQS captured in clk_cpt domain rd_dqs_fall0 : out std_logic; -- used by Phase Detector. Monitor DQS rd_dqs_rise1 : out std_logic; rd_dqs_fall1 : out std_logic; -- DDR3 bus signals ddr_dqs_p : inout std_logic; ddr_dqs_n : inout std_logic; -- Debug Port dqs_tap_cnt : out std_logic_vector(4 downto 0) ); end phy_dqs_iob; architecture trans_phy_dqs_iob of phy_dqs_iob is -- Set performance mode for IODELAY (power vs. performance tradeoff) function CALC_HIGH_PERF_MODE return boolean is begin if (IODELAY_HP_MODE = "OFF") then return FALSE; elsif (IODELAY_HP_MODE = "ON") then return TRUE; else return FALSE; end if; end function CALC_HIGH_PERF_MODE; -- Enable low power mode for input buffer function CALC_IBUF_LOW_PWR return boolean is begin if (IBUF_LPWR_MODE = "OFF") then return FALSE; elsif (IBUF_LPWR_MODE = "ON") then return TRUE; else return FALSE; end if; end function CALC_IBUF_LOW_PWR; constant HIGH_PERFORMANCE_MODE : boolean := CALC_HIGH_PERF_MODE; constant IBUF_LOW_PWR : boolean := CALC_IBUF_LOW_PWR; signal dqs_ibuf_n : std_logic; signal dqs_ibuf_p : std_logic; signal dqs_n_iodelay : std_logic; signal dqs_n_tfb : std_logic; signal dqs_n_tq : std_logic; signal dqs_p_iodelay : std_logic; signal dqs_p_tfb : std_logic; signal dqs_p_oq : std_logic; signal dqs_p_tq : std_logic; signal iserdes_clk : std_logic; signal iserdes_clkb : std_logic; signal iserdes_q : std_logic_vector(5 downto 0); signal iserdes_q_mux : std_logic_vector(5 downto 0); signal iserdes_q_neg_r : std_logic_vector(5 downto 0); signal iserdes_q_r : std_logic_vector(5 downto 0); signal rddata : std_logic_vector(3 downto 0); ------ rd_bitslip component ------- component rd_bitslip generic ( TCQ : integer := 100 ); port ( clk : in std_logic; bitslip_cnt : in std_logic_vector(1 downto 0); clkdly_cnt : in std_logic_vector(1 downto 0); din : in std_logic_vector(5 downto 0); qout : out std_logic_vector(3 downto 0) ); end component; attribute IODELAY_GROUP : string; attribute IODELAY_GROUP of u_iodelay_dqs_p_early : label is IODELAY_GRP; begin --*********************************************************************** -- Strobe Bidirectional I/O --*********************************************************************** u_iobuf_dqs: IOBUFDS_DIFF_OUT generic map ( IBUF_LOW_PWR => IBUF_LOW_PWR ) port map ( o => dqs_ibuf_p, ob => dqs_ibuf_n, io => ddr_dqs_p, iob => ddr_dqs_n, i => dqs_p_iodelay, tm => dqs_p_tq, ts => dqs_n_tq ); --*********************************************************************** -- Programmable Delay element - the "P"-side is used for both input and -- output paths. The N-side is used for tri-state control of N-side I/O -- buffer and can possibly be used as as an input (complement of P-side) -- for the read phase detector --*********************************************************************** u_iodelay_dqs_p_early : IODELAYE1 generic map ( CINVCTRL_SEL => FALSE, DELAY_SRC => "IO", HIGH_PERFORMANCE_MODE => HIGH_PERFORMANCE_MODE, IDELAY_TYPE => "VAR_LOADABLE", IDELAY_VALUE => 0, ODELAY_TYPE => "VAR_LOADABLE", ODELAY_VALUE => 0, REFCLK_FREQUENCY => REFCLK_FREQ ) port map ( DATAOUT => dqs_p_iodelay, C => clk_rsync, CE => '0', DATAIN => '0', IDATAIN => dqs_ibuf_p, INC => '0', ODATAIN => dqs_p_oq, RST => '1', T => dqs_p_tfb, CNTVALUEIN => dlyval, CNTVALUEOUT => dqs_tap_cnt, CLKIN => 'Z', CINVCTRL => '0' ); --*********************************************************************** -- Write Path --*********************************************************************** u_oserdes_dqs_p : OSERDESE1 generic map ( DATA_RATE_OQ => "DDR", DATA_RATE_TQ => "DDR", DATA_WIDTH => 4, DDR3_DATA => 0, INIT_OQ => '0', INIT_TQ => '1', INTERFACE_TYPE => "DEFAULT", ODELAY_USED => 0, SERDES_MODE => "MASTER", SRVAL_OQ => '0', SRVAL_TQ => '0', TRISTATE_WIDTH => 4 ) port map ( OCBEXTEND => open, OFB => open, OQ => dqs_p_oq, SHIFTOUT1 => open, SHIFTOUT2 => open, TQ => dqs_p_tq, CLK => clk_mem, CLKDIV => clk, CLKPERF => 'Z', CLKPERFDELAY => 'Z', D1 => dqs_rst(0), D2 => dqs_rst(1), D3 => dqs_rst(2), D4 => dqs_rst(3), D5 => 'Z', D6 => 'Z', OCE => '1', ODV => '0', SHIFTIN1 => 'Z', SHIFTIN2 => 'Z', RST => rst, T1 => dqs_oe_n(0), T2 => dqs_oe_n(1), T3 => dqs_oe_n(2), T4 => dqs_oe_n(3), TFB => dqs_p_tfb, TCE => '1', WC => '0' ); u_oserdes_dqs_n : OSERDESE1 generic map ( DATA_RATE_OQ => "DDR", DATA_RATE_TQ => "DDR", DATA_WIDTH => 4, DDR3_DATA => 0, INIT_OQ => '1', INIT_TQ => '1', INTERFACE_TYPE => "DEFAULT", ODELAY_USED => 0, SERDES_MODE => "MASTER", SRVAL_OQ => '0', SRVAL_TQ => '0', TRISTATE_WIDTH => 4 ) port map ( OCBEXTEND => open, OFB => open, OQ => open, SHIFTOUT1 => open, SHIFTOUT2 => open, TQ => dqs_n_tq, CLK => clk_mem, CLKDIV => clk, CLKPERF => 'Z', CLKPERFDELAY => 'Z', D1 => '0', D2 => '0', D3 => '0', D4 => '0', D5 => 'Z', D6 => 'Z', OCE => '1', ODV => '0', SHIFTIN1 => 'Z', SHIFTIN2 => 'Z', RST => rst, T1 => dqs_oe_n(0), T2 => dqs_oe_n(1), T3 => dqs_oe_n(2), T4 => dqs_oe_n(3), TFB => dqs_n_tfb, TCE => '1', WC => '0' ); --*********************************************************************** -- Read Path --*********************************************************************** -- Assign equally to avoid delta-delay issues in simulation iserdes_clk <= clk_cpt; iserdes_clkb <= not(clk_cpt); u_iserdes_dqs_p : ISERDESE1 generic map ( DATA_RATE => "DDR", DATA_WIDTH => 4, DYN_CLKDIV_INV_EN => TRUE, DYN_CLK_INV_EN => FALSE, INIT_Q1 => '0', INIT_Q2 => '0', INIT_Q3 => '0', INIT_Q4 => '0', INTERFACE_TYPE => "MEMORY_DDR3", NUM_CE => 2, IOBDELAY => "IFD", OFB_USED => FALSE, SERDES_MODE => "MASTER", SRVAL_Q1 => '0', SRVAL_Q2 => '0', SRVAL_Q3 => '0', SRVAL_Q4 => '0' ) port map ( O => open, Q1 => iserdes_q(0), Q2 => iserdes_q(1), Q3 => iserdes_q(2), Q4 => iserdes_q(3), Q5 => iserdes_q(4), Q6 => iserdes_q(5), SHIFTOUT1 => open, SHIFTOUT2 => open, BITSLIP => '0', CE1 => '1', CE2 => '1', CLK => iserdes_clk, CLKB => iserdes_clkb, CLKDIV => clk_rsync, D => 'Z', DDLY => dqs_p_iodelay, DYNCLKDIVSEL => rd_clkdiv_inv, DYNCLKSEL => '0', OCLK => clk_mem, -- Not used, but connect to avoid DRC OFB => '0', RST => rst_rsync, SHIFTIN1 => '0', SHIFTIN2 => '0' ); --************************************************************* -- Selectable registers on ISERDES data outputs depending on -- whether DYNCLKDIVSEL is enabled or not --*************************************************************** -- Capture first using CLK_RSYNC falling edge domain, then transfer -- to rising edge CLK_RSYNC. We could also attempt to transfer -- directly from falling edge CLK_RSYNC domain (in ISERDES) to -- rising edge CLK_RSYNC domain in fabric. This is allowed as long -- as the half-cycle timing on these paths can be met. process (clk_rsync) begin if (clk_rsync'event and clk_rsync = '0') then iserdes_q_neg_r <= iserdes_q after (TCQ)1 ps; end if; end process; process (clk_rsync) begin if (clk_rsync'event and clk_rsync = '1') then iserdes_q_r <= iserdes_q_neg_r after (TCQ)1 ps; end if; end process; iserdes_q_mux <= iserdes_q_r when (rd_clkdiv_inv = '1') else iserdes_q; --*************************************************************** -- Read bitslip logic --*************************************************************** u_rd_bitslip_early: rd_bitslip generic map( TCQ => TCQ ) port map( clk => clk_rsync, bitslip_cnt => rd_bitslip_cnt, clkdly_cnt => rd_clkdly_cnt, din => iserdes_q_mux, qout => rddata ); rd_dqs_rise0 <= rddata(3); rd_dqs_fall0 <= rddata(2); rd_dqs_rise1 <= rddata(1); rd_dqs_fall1 <= rddata(0); end trans_phy_dqs_iob;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity AXIinterfacefor65816_v1_0_S00_AXI is generic ( -- Users to add parameters here -- User parameters ends -- Do not modify the parameters beyond this line -- Width of S_AXI data bus C_S_AXI_DATA_WIDTH : integer := 32; -- Width of S_AXI address bus C_S_AXI_ADDR_WIDTH : integer := 7 ); port ( -- Users to add ports here clk : in std_logic; tru_clk: in std_logic; reset_65816_module : in std_logic; -- User ports ends -- Do not modify the ports beyond this line -- Global Clock Signal S_AXI_ACLK : in std_logic; -- Global Reset Signal. This Signal is Active LOW S_AXI_ARESETN : in std_logic; -- Write address (issued by master, acceped by Slave) S_AXI_AWADDR : in std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); -- Write channel Protection type. This signal indicates the -- privilege and security level of the transaction, and whether -- the transaction is a data access or an instruction access. S_AXI_AWPROT : in std_logic_vector(2 downto 0); -- Write address valid. This signal indicates that the master signaling -- valid write address and control information. S_AXI_AWVALID : in std_logic; -- Write address ready. This signal indicates that the slave is ready -- to accept an address and associated control signals. S_AXI_AWREADY : out std_logic; -- Write data (issued by master, acceped by Slave) S_AXI_WDATA : in std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); -- Write strobes. This signal indicates which byte lanes hold -- valid data. There is one write strobe bit for each eight -- bits of the write data bus. S_AXI_WSTRB : in std_logic_vector((C_S_AXI_DATA_WIDTH/8)-1 downto 0); -- Write valid. This signal indicates that valid write -- data and strobes are available. S_AXI_WVALID : in std_logic; -- Write ready. This signal indicates that the slave -- can accept the write data. S_AXI_WREADY : out std_logic; -- Write response. This signal indicates the status -- of the write transaction. S_AXI_BRESP : out std_logic_vector(1 downto 0); -- Write response valid. This signal indicates that the channel -- is signaling a valid write response. S_AXI_BVALID : out std_logic; -- Response ready. This signal indicates that the master -- can accept a write response. S_AXI_BREADY : in std_logic; -- Read address (issued by master, acceped by Slave) S_AXI_ARADDR : in std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); -- Protection type. This signal indicates the privilege -- and security level of the transaction, and whether the -- transaction is a data access or an instruction access. S_AXI_ARPROT : in std_logic_vector(2 downto 0); -- Read address valid. This signal indicates that the channel -- is signaling valid read address and control information. S_AXI_ARVALID : in std_logic; -- Read address ready. This signal indicates that the slave is -- ready to accept an address and associated control signals. S_AXI_ARREADY : out std_logic; -- Read data (issued by slave) S_AXI_RDATA : out std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); -- Read response. This signal indicates the status of the -- read transfer. S_AXI_RRESP : out std_logic_vector(1 downto 0); -- Read valid. This signal indicates that the channel is -- signaling the required read data. S_AXI_RVALID : out std_logic; -- Read ready. This signal indicates that the master can -- accept the read data and response information. S_AXI_RREADY : in std_logic ); end AXIinterfacefor65816_v1_0_S00_AXI; architecture arch_imp of AXIinterfacefor65816_v1_0_S00_AXI is -- AXI4LITE signals signal axi_awaddr : std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); signal axi_awready : std_logic; signal axi_wready : std_logic; signal axi_bresp : std_logic_vector(1 downto 0); signal axi_bvalid : std_logic; signal axi_araddr : std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); signal axi_arready : std_logic; signal axi_rdata : std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal axi_rresp : std_logic_vector(1 downto 0); signal axi_rvalid : std_logic; -- Example-specific design signals -- local parameter for addressing 32 bit / 64 bit C_S_AXI_DATA_WIDTH -- ADDR_LSB is used for addressing 32/64 bit registers/memories -- ADDR_LSB = 2 for 32 bits (n downto 2) -- ADDR_LSB = 3 for 64 bits (n downto 3) constant ADDR_LSB : integer := (C_S_AXI_DATA_WIDTH/32)+ 1; constant OPT_MEM_ADDR_BITS : integer := 4; ------------------------------------------------ ---- Signals for user logic register space example -------------------------------------------------- ---- Number of Slave Registers 32 signal slv_reg0 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg1 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg2 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg3 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg4 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg5 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg6 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg7 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg8 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg9 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg10 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg11 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg12 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg13 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg14 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg15 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg16 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg17 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg18 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg19 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg20 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg21 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg22 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg23 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg24 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg25 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg26 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg27 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg28 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg29 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg30 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg31 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg_rden : std_logic; signal slv_reg_wren : std_logic; signal reg_data_out :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal byte_index : integer; -- -- -- CUSTOM INTERFACE PORTS AND SIGNALS -- -- COMPONENT Soft_65C816 PORT( clk : IN std_logic; tru_clk : IN std_logic; reset : IN std_logic; Addr_Bus : OUT std_logic_vector(23 downto 0); D_BUS : IN std_logic_vector(31 downto 0); D_BUS_out : out std_logic_vector(23 downto 0); EMULATION_SELECT : OUT std_logic; RDY : out std_logic; DATA_RDY: in std_logic; REG_A : OUT std_logic_vector(15 downto 0); REG_X : OUT std_logic_vector(15 downto 0); REG_Y : OUT std_logic_vector(15 downto 0); REG_SP : OUT std_logic_vector(15 downto 0); REG_PC : OUT std_logic_vector(15 downto 0); REG_Proc : OUT std_logic_vector(7 downto 0); REG_DBR : OUT std_logic_vector(7 downto 0); state_machine :out std_logic_vector(15 downto 0); RW :out std_logic ; -- Read or write bit VPB : OUT std_logic ); END COMPONENT; --Component Outputs signal Addr_Bus : std_logic_vector(23 downto 0) := (others=> '0');-- Comes from slave register #0; signal EMULATION_SELECT : std_logic; -- Comes from slave register #1 signal REG_A : std_logic_vector(15 downto 0); -- Comes from slave register #2 signal REG_X : std_logic_vector(15 downto 0); -- Comes from slave register #3 signal REG_Y : std_logic_vector(15 downto 0); -- Comes from slave register #4 signal REG_SP : std_logic_vector(15 downto 0); -- Comes from slave register #5 signal REG_PC : std_logic_vector(15 downto 0); -- Comes from slave register #6 signal REG_Proc : std_logic_vector(7 downto 0); -- Comes from slave register #7 signal REG_DBR : std_logic_vector(7 downto 0); -- Comes from slave register #8 signal state_machine : std_logic_vector(15 downto 0); -- Comes from slave register #9 signal VPB : std_logic; signal RDY : std_logic; -- Comes from slave register #10 signal D_BUS_out:std_logic_vector(23 downto 0):=(others => '0'); -- Comes from slave register #13 signal RW : std_logic; -- Comes from slave register #10 --Component Inputs --signal reset : std_logic := '0'; -- Comes from switch signal D_BUS : std_logic_vector(31 downto 0) := (others => 'Z'); -- Goes to slave register #11 signal DATA_RDY: std_logic := '1'; -- Comes from slave register #12 --Internal Signals begin -- BEGIN User designated port maps D_BUS <= slv_reg11; DATA_RDY <= slv_reg12(0); -- Instantiate the Soft 65816 Unit to be implemented HEART: Soft_65C816 PORT MAP ( clk => clk, tru_clk => tru_clk, reset => reset_65816_module, Addr_Bus => Addr_Bus, D_BUS => D_BUS, D_BUS_out => D_BUS_out, EMULATION_SELECT => EMULATION_SELECT, RDY => RDY, RW => RW, DATA_RDY => DATA_RDY, REG_A => REG_A, REG_X => REG_X, REG_Y => REG_Y, REG_SP => REG_SP, REG_PC => REG_PC, REG_Proc => REG_Proc, REG_DBR => REG_DBR, state_machine => state_machine, VPB => VPB ); -- END User designated port maps -- I/O Connections assignments S_AXI_AWREADY <= axi_awready; S_AXI_WREADY <= axi_wready; S_AXI_BRESP <= axi_bresp; S_AXI_BVALID <= axi_bvalid; S_AXI_ARREADY <= axi_arready; S_AXI_RDATA <= axi_rdata; S_AXI_RRESP <= axi_rresp; S_AXI_RVALID <= axi_rvalid; -- Implement axi_awready generation -- axi_awready is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_AWVALID and S_AXI_WVALID are asserted. axi_awready is -- de-asserted when reset is low. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_awready <= '0'; else if (axi_awready = '0' and S_AXI_AWVALID = '1' and S_AXI_WVALID = '1') then -- slave is ready to accept write address when -- there is a valid write address and write data -- on the write address and data bus. This design -- expects no outstanding transactions. axi_awready <= '1'; else axi_awready <= '0'; end if; end if; end if; end process; -- Implement axi_awaddr latching -- This process is used to latch the address when both -- S_AXI_AWVALID and S_AXI_WVALID are valid. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_awaddr <= (others => '0'); else if (axi_awready = '0' and S_AXI_AWVALID = '1' and S_AXI_WVALID = '1') then -- Write Address latching axi_awaddr <= S_AXI_AWADDR; end if; end if; end if; end process; -- Implement axi_wready generation -- axi_wready is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_AWVALID and S_AXI_WVALID are asserted. axi_wready is -- de-asserted when reset is low. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_wready <= '0'; else if (axi_wready = '0' and S_AXI_WVALID = '1' and S_AXI_AWVALID = '1') then -- slave is ready to accept write data when -- there is a valid write address and write data -- on the write address and data bus. This design -- expects no outstanding transactions. axi_wready <= '1'; else axi_wready <= '0'; end if; end if; end if; end process; -- Implement memory mapped register select and write logic generation -- The write data is accepted and written to memory mapped registers when -- axi_awready, S_AXI_WVALID, axi_wready and S_AXI_WVALID are asserted. Write strobes are used to -- select byte enables of slave registers while writing. -- These registers are cleared when reset (active low) is applied. -- Slave register write enable is asserted when valid address and data are available -- and the slave is ready to accept the write address and write data. slv_reg_wren <= axi_wready and S_AXI_WVALID and axi_awready and S_AXI_AWVALID ; process (S_AXI_ACLK) variable loc_addr :std_logic_vector(OPT_MEM_ADDR_BITS downto 0); begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then slv_reg0 <= (others => '0'); slv_reg1 <= (others => '0'); slv_reg2 <= (others => '0'); slv_reg3 <= (others => '0'); slv_reg4 <= (others => '0'); slv_reg5 <= (others => '0'); slv_reg6 <= (others => '0'); slv_reg7 <= (others => '0'); slv_reg8 <= (others => '0'); slv_reg9 <= (others => '0'); slv_reg10 <= (others => '0'); slv_reg11 <= (others => '0'); slv_reg12 <= (others => '0'); slv_reg13 <= (others => '0'); slv_reg14 <= (others => '0'); slv_reg15 <= (others => '0'); slv_reg16 <= (others => '0'); slv_reg17 <= (others => '0'); slv_reg18 <= (others => '0'); slv_reg19 <= (others => '0'); slv_reg20 <= (others => '0'); slv_reg21 <= (others => '0'); slv_reg22 <= (others => '0'); slv_reg23 <= (others => '0'); slv_reg24 <= (others => '0'); slv_reg25 <= (others => '0'); slv_reg26 <= (others => '0'); slv_reg27 <= (others => '0'); slv_reg28 <= (others => '0'); slv_reg29 <= (others => '0'); slv_reg30 <= (others => '0'); slv_reg31 <= (others => '0'); else loc_addr := axi_awaddr(ADDR_LSB + OPT_MEM_ADDR_BITS downto ADDR_LSB); if (slv_reg_wren = '1') then case loc_addr is when b"00000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 0 slv_reg0(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 1 slv_reg1(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 2 slv_reg2(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 3 slv_reg3(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 4 slv_reg4(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 5 slv_reg5(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 6 slv_reg6(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 7 slv_reg7(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 8 slv_reg8(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 9 slv_reg9(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 10 slv_reg10(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 11 slv_reg11(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 12 slv_reg12(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 13 slv_reg13(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 14 slv_reg14(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 15 slv_reg15(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 16 slv_reg16(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 17 slv_reg17(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 18 slv_reg18(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 19 slv_reg19(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 20 slv_reg20(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 21 slv_reg21(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 22 slv_reg22(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 23 slv_reg23(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 24 slv_reg24(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 25 slv_reg25(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 26 slv_reg26(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 27 slv_reg27(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 28 slv_reg28(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 29 slv_reg29(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 30 slv_reg30(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 31 slv_reg31(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when others => slv_reg0 <= slv_reg0; slv_reg1 <= slv_reg1; slv_reg2 <= slv_reg2; slv_reg3 <= slv_reg3; slv_reg4 <= slv_reg4; slv_reg5 <= slv_reg5; slv_reg6 <= slv_reg6; slv_reg7 <= slv_reg7; slv_reg8 <= slv_reg8; slv_reg9 <= slv_reg9; slv_reg10 <= slv_reg10; slv_reg11 <= slv_reg11; slv_reg12 <= slv_reg12; slv_reg13 <= slv_reg13; slv_reg14 <= slv_reg14; slv_reg15 <= slv_reg15; slv_reg16 <= slv_reg16; slv_reg17 <= slv_reg17; slv_reg18 <= slv_reg18; slv_reg19 <= slv_reg19; slv_reg20 <= slv_reg20; slv_reg21 <= slv_reg21; slv_reg22 <= slv_reg22; slv_reg23 <= slv_reg23; slv_reg24 <= slv_reg24; slv_reg25 <= slv_reg25; slv_reg26 <= slv_reg26; slv_reg27 <= slv_reg27; slv_reg28 <= slv_reg28; slv_reg29 <= slv_reg29; slv_reg30 <= slv_reg30; slv_reg31 <= slv_reg31; end case; end if; end if; end if; end process; -- Implement write response logic generation -- The write response and response valid signals are asserted by the slave -- when axi_wready, S_AXI_WVALID, axi_wready and S_AXI_WVALID are asserted. -- This marks the acceptance of address and indicates the status of -- write transaction. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_bvalid <= '0'; axi_bresp <= "00"; --need to work more on the responses else if (axi_awready = '1' and S_AXI_AWVALID = '1' and axi_wready = '1' and S_AXI_WVALID = '1' and axi_bvalid = '0' ) then axi_bvalid <= '1'; axi_bresp <= "00"; elsif (S_AXI_BREADY = '1' and axi_bvalid = '1') then --check if bready is asserted while bvalid is high) axi_bvalid <= '0'; -- (there is a possibility that bready is always asserted high) end if; end if; end if; end process; -- Implement axi_arready generation -- axi_arready is asserted for one S_AXI_ACLK clock cycle when -- S_AXI_ARVALID is asserted. axi_awready is -- de-asserted when reset (active low) is asserted. -- The read address is also latched when S_AXI_ARVALID is -- asserted. axi_araddr is reset to zero on reset assertion. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_arready <= '0'; axi_araddr <= (others => '1'); else if (axi_arready = '0' and S_AXI_ARVALID = '1') then -- indicates that the slave has acceped the valid read address axi_arready <= '1'; -- Read Address latching axi_araddr <= S_AXI_ARADDR; else axi_arready <= '0'; end if; end if; end if; end process; -- Implement axi_arvalid generation -- axi_rvalid is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_ARVALID and axi_arready are asserted. The slave registers -- data are available on the axi_rdata bus at this instance. The -- assertion of axi_rvalid marks the validity of read data on the -- bus and axi_rresp indicates the status of read transaction.axi_rvalid -- is deasserted on reset (active low). axi_rresp and axi_rdata are -- cleared to zero on reset (active low). process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_rvalid <= '0'; axi_rresp <= "00"; else if (axi_arready = '1' and S_AXI_ARVALID = '1' and axi_rvalid = '0') then -- Valid read data is available at the read data bus axi_rvalid <= '1'; axi_rresp <= "00"; -- 'OKAY' response elsif (axi_rvalid = '1' and S_AXI_RREADY = '1') then -- Read data is accepted by the master axi_rvalid <= '0'; end if; end if; end if; end process; -- Implement memory mapped register select and read logic generation -- Slave register read enable is asserted when valid address is available -- and the slave is ready to accept the read address. slv_reg_rden <= axi_arready and S_AXI_ARVALID and (not axi_rvalid) ; process (slv_reg0, slv_reg1, slv_reg2, slv_reg3, slv_reg4, slv_reg5, slv_reg6, slv_reg7, slv_reg8, slv_reg9, slv_reg10, slv_reg11, slv_reg12, slv_reg13, slv_reg14, slv_reg15, slv_reg16, slv_reg17, slv_reg18, slv_reg19, slv_reg20, slv_reg21, slv_reg22, slv_reg23, slv_reg24, slv_reg25, slv_reg26, slv_reg27, slv_reg28, slv_reg29, slv_reg30, slv_reg31, axi_araddr, S_AXI_ARESETN, slv_reg_rden) variable loc_addr :std_logic_vector(OPT_MEM_ADDR_BITS downto 0); begin -- Address decoding for reading registers loc_addr := axi_araddr(ADDR_LSB + OPT_MEM_ADDR_BITS downto ADDR_LSB); case loc_addr is when b"00000" => reg_data_out <= X"00" & Addr_Bus; when b"00001" => reg_data_out <= X"0000000" & b"000" & EMULATION_SELECT; when b"00010" => reg_data_out <= X"0000" & REG_A; when b"00011" => reg_data_out <= X"0000" & REG_X; when b"00100" => reg_data_out <= X"0000" & REG_Y; when b"00101" => reg_data_out <= X"0000" & REG_SP; when b"00110" => reg_data_out <= X"0000" & REG_PC; when b"00111" => reg_data_out <= X"000000" & REG_Proc; when b"01000" => reg_data_out <= X"000000" & REG_DBR; when b"01001" => reg_data_out <= X"0000" & state_machine; when b"01010" => reg_data_out <= X"0000000" & b"00" & RW & RDY; when b"01011" => reg_data_out <= D_BUS; when b"01100" => reg_data_out <= X"0000000" & b"000" & DATA_RDY; when b"01101" => reg_data_out <= X"00" & D_BUS_out; when b"01110" => reg_data_out <= slv_reg14; when b"01111" => reg_data_out <= slv_reg15; when b"10000" => reg_data_out <= slv_reg16; when b"10001" => reg_data_out <= slv_reg17; when b"10010" => reg_data_out <= slv_reg18; when b"10011" => reg_data_out <= slv_reg19; when b"10100" => reg_data_out <= slv_reg20; when b"10101" => reg_data_out <= slv_reg21; when b"10110" => reg_data_out <= slv_reg22; when b"10111" => reg_data_out <= slv_reg23; when b"11000" => reg_data_out <= slv_reg24; when b"11001" => reg_data_out <= slv_reg25; when b"11010" => reg_data_out <= slv_reg26; when b"11011" => reg_data_out <= slv_reg27; when b"11100" => reg_data_out <= slv_reg28; when b"11101" => reg_data_out <= slv_reg29; when b"11110" => reg_data_out <= slv_reg30; when b"11111" => reg_data_out <= X"0000AC32"; when others => reg_data_out <= (others => '0'); end case; end process; -- Output register or memory read data process( S_AXI_ACLK ) is begin if (rising_edge (S_AXI_ACLK)) then if ( S_AXI_ARESETN = '0' ) then axi_rdata <= (others => '0'); else if (slv_reg_rden = '1') then -- When there is a valid read address (S_AXI_ARVALID) with -- acceptance of read address by the slave (axi_arready), -- output the read dada -- Read address mux axi_rdata <= reg_data_out; -- register read data end if; end if; end if; end process; -- Add user logic here --PROC_for_65816_syncronization: -- process (clk) is -- begin -- if rising_edge(clk) then -- end if; -- end process; -- User logic ends end arch_imp;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity AXIinterfacefor65816_v1_0_S00_AXI is generic ( -- Users to add parameters here -- User parameters ends -- Do not modify the parameters beyond this line -- Width of S_AXI data bus C_S_AXI_DATA_WIDTH : integer := 32; -- Width of S_AXI address bus C_S_AXI_ADDR_WIDTH : integer := 7 ); port ( -- Users to add ports here clk : in std_logic; tru_clk: in std_logic; reset_65816_module : in std_logic; -- User ports ends -- Do not modify the ports beyond this line -- Global Clock Signal S_AXI_ACLK : in std_logic; -- Global Reset Signal. This Signal is Active LOW S_AXI_ARESETN : in std_logic; -- Write address (issued by master, acceped by Slave) S_AXI_AWADDR : in std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); -- Write channel Protection type. This signal indicates the -- privilege and security level of the transaction, and whether -- the transaction is a data access or an instruction access. S_AXI_AWPROT : in std_logic_vector(2 downto 0); -- Write address valid. This signal indicates that the master signaling -- valid write address and control information. S_AXI_AWVALID : in std_logic; -- Write address ready. This signal indicates that the slave is ready -- to accept an address and associated control signals. S_AXI_AWREADY : out std_logic; -- Write data (issued by master, acceped by Slave) S_AXI_WDATA : in std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); -- Write strobes. This signal indicates which byte lanes hold -- valid data. There is one write strobe bit for each eight -- bits of the write data bus. S_AXI_WSTRB : in std_logic_vector((C_S_AXI_DATA_WIDTH/8)-1 downto 0); -- Write valid. This signal indicates that valid write -- data and strobes are available. S_AXI_WVALID : in std_logic; -- Write ready. This signal indicates that the slave -- can accept the write data. S_AXI_WREADY : out std_logic; -- Write response. This signal indicates the status -- of the write transaction. S_AXI_BRESP : out std_logic_vector(1 downto 0); -- Write response valid. This signal indicates that the channel -- is signaling a valid write response. S_AXI_BVALID : out std_logic; -- Response ready. This signal indicates that the master -- can accept a write response. S_AXI_BREADY : in std_logic; -- Read address (issued by master, acceped by Slave) S_AXI_ARADDR : in std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); -- Protection type. This signal indicates the privilege -- and security level of the transaction, and whether the -- transaction is a data access or an instruction access. S_AXI_ARPROT : in std_logic_vector(2 downto 0); -- Read address valid. This signal indicates that the channel -- is signaling valid read address and control information. S_AXI_ARVALID : in std_logic; -- Read address ready. This signal indicates that the slave is -- ready to accept an address and associated control signals. S_AXI_ARREADY : out std_logic; -- Read data (issued by slave) S_AXI_RDATA : out std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); -- Read response. This signal indicates the status of the -- read transfer. S_AXI_RRESP : out std_logic_vector(1 downto 0); -- Read valid. This signal indicates that the channel is -- signaling the required read data. S_AXI_RVALID : out std_logic; -- Read ready. This signal indicates that the master can -- accept the read data and response information. S_AXI_RREADY : in std_logic ); end AXIinterfacefor65816_v1_0_S00_AXI; architecture arch_imp of AXIinterfacefor65816_v1_0_S00_AXI is -- AXI4LITE signals signal axi_awaddr : std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); signal axi_awready : std_logic; signal axi_wready : std_logic; signal axi_bresp : std_logic_vector(1 downto 0); signal axi_bvalid : std_logic; signal axi_araddr : std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); signal axi_arready : std_logic; signal axi_rdata : std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal axi_rresp : std_logic_vector(1 downto 0); signal axi_rvalid : std_logic; -- Example-specific design signals -- local parameter for addressing 32 bit / 64 bit C_S_AXI_DATA_WIDTH -- ADDR_LSB is used for addressing 32/64 bit registers/memories -- ADDR_LSB = 2 for 32 bits (n downto 2) -- ADDR_LSB = 3 for 64 bits (n downto 3) constant ADDR_LSB : integer := (C_S_AXI_DATA_WIDTH/32)+ 1; constant OPT_MEM_ADDR_BITS : integer := 4; ------------------------------------------------ ---- Signals for user logic register space example -------------------------------------------------- ---- Number of Slave Registers 32 signal slv_reg0 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg1 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg2 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg3 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg4 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg5 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg6 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg7 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg8 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg9 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg10 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg11 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg12 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg13 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg14 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg15 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg16 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg17 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg18 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg19 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg20 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg21 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg22 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg23 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg24 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg25 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg26 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg27 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg28 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg29 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg30 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg31 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg_rden : std_logic; signal slv_reg_wren : std_logic; signal reg_data_out :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal byte_index : integer; -- -- -- CUSTOM INTERFACE PORTS AND SIGNALS -- -- COMPONENT Soft_65C816 PORT( clk : IN std_logic; tru_clk : IN std_logic; reset : IN std_logic; Addr_Bus : OUT std_logic_vector(23 downto 0); D_BUS : IN std_logic_vector(31 downto 0); D_BUS_out : out std_logic_vector(23 downto 0); EMULATION_SELECT : OUT std_logic; RDY : out std_logic; DATA_RDY: in std_logic; REG_A : OUT std_logic_vector(15 downto 0); REG_X : OUT std_logic_vector(15 downto 0); REG_Y : OUT std_logic_vector(15 downto 0); REG_SP : OUT std_logic_vector(15 downto 0); REG_PC : OUT std_logic_vector(15 downto 0); REG_Proc : OUT std_logic_vector(7 downto 0); REG_DBR : OUT std_logic_vector(7 downto 0); state_machine :out std_logic_vector(15 downto 0); RW :out std_logic ; -- Read or write bit VPB : OUT std_logic ); END COMPONENT; --Component Outputs signal Addr_Bus : std_logic_vector(23 downto 0) := (others=> '0');-- Comes from slave register #0; signal EMULATION_SELECT : std_logic; -- Comes from slave register #1 signal REG_A : std_logic_vector(15 downto 0); -- Comes from slave register #2 signal REG_X : std_logic_vector(15 downto 0); -- Comes from slave register #3 signal REG_Y : std_logic_vector(15 downto 0); -- Comes from slave register #4 signal REG_SP : std_logic_vector(15 downto 0); -- Comes from slave register #5 signal REG_PC : std_logic_vector(15 downto 0); -- Comes from slave register #6 signal REG_Proc : std_logic_vector(7 downto 0); -- Comes from slave register #7 signal REG_DBR : std_logic_vector(7 downto 0); -- Comes from slave register #8 signal state_machine : std_logic_vector(15 downto 0); -- Comes from slave register #9 signal VPB : std_logic; signal RDY : std_logic; -- Comes from slave register #10 signal D_BUS_out:std_logic_vector(23 downto 0):=(others => '0'); -- Comes from slave register #13 signal RW : std_logic; -- Comes from slave register #10 --Component Inputs --signal reset : std_logic := '0'; -- Comes from switch signal D_BUS : std_logic_vector(31 downto 0) := (others => 'Z'); -- Goes to slave register #11 signal DATA_RDY: std_logic := '1'; -- Comes from slave register #12 --Internal Signals begin -- BEGIN User designated port maps D_BUS <= slv_reg11; DATA_RDY <= slv_reg12(0); -- Instantiate the Soft 65816 Unit to be implemented HEART: Soft_65C816 PORT MAP ( clk => clk, tru_clk => tru_clk, reset => reset_65816_module, Addr_Bus => Addr_Bus, D_BUS => D_BUS, D_BUS_out => D_BUS_out, EMULATION_SELECT => EMULATION_SELECT, RDY => RDY, RW => RW, DATA_RDY => DATA_RDY, REG_A => REG_A, REG_X => REG_X, REG_Y => REG_Y, REG_SP => REG_SP, REG_PC => REG_PC, REG_Proc => REG_Proc, REG_DBR => REG_DBR, state_machine => state_machine, VPB => VPB ); -- END User designated port maps -- I/O Connections assignments S_AXI_AWREADY <= axi_awready; S_AXI_WREADY <= axi_wready; S_AXI_BRESP <= axi_bresp; S_AXI_BVALID <= axi_bvalid; S_AXI_ARREADY <= axi_arready; S_AXI_RDATA <= axi_rdata; S_AXI_RRESP <= axi_rresp; S_AXI_RVALID <= axi_rvalid; -- Implement axi_awready generation -- axi_awready is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_AWVALID and S_AXI_WVALID are asserted. axi_awready is -- de-asserted when reset is low. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_awready <= '0'; else if (axi_awready = '0' and S_AXI_AWVALID = '1' and S_AXI_WVALID = '1') then -- slave is ready to accept write address when -- there is a valid write address and write data -- on the write address and data bus. This design -- expects no outstanding transactions. axi_awready <= '1'; else axi_awready <= '0'; end if; end if; end if; end process; -- Implement axi_awaddr latching -- This process is used to latch the address when both -- S_AXI_AWVALID and S_AXI_WVALID are valid. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_awaddr <= (others => '0'); else if (axi_awready = '0' and S_AXI_AWVALID = '1' and S_AXI_WVALID = '1') then -- Write Address latching axi_awaddr <= S_AXI_AWADDR; end if; end if; end if; end process; -- Implement axi_wready generation -- axi_wready is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_AWVALID and S_AXI_WVALID are asserted. axi_wready is -- de-asserted when reset is low. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_wready <= '0'; else if (axi_wready = '0' and S_AXI_WVALID = '1' and S_AXI_AWVALID = '1') then -- slave is ready to accept write data when -- there is a valid write address and write data -- on the write address and data bus. This design -- expects no outstanding transactions. axi_wready <= '1'; else axi_wready <= '0'; end if; end if; end if; end process; -- Implement memory mapped register select and write logic generation -- The write data is accepted and written to memory mapped registers when -- axi_awready, S_AXI_WVALID, axi_wready and S_AXI_WVALID are asserted. Write strobes are used to -- select byte enables of slave registers while writing. -- These registers are cleared when reset (active low) is applied. -- Slave register write enable is asserted when valid address and data are available -- and the slave is ready to accept the write address and write data. slv_reg_wren <= axi_wready and S_AXI_WVALID and axi_awready and S_AXI_AWVALID ; process (S_AXI_ACLK) variable loc_addr :std_logic_vector(OPT_MEM_ADDR_BITS downto 0); begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then slv_reg0 <= (others => '0'); slv_reg1 <= (others => '0'); slv_reg2 <= (others => '0'); slv_reg3 <= (others => '0'); slv_reg4 <= (others => '0'); slv_reg5 <= (others => '0'); slv_reg6 <= (others => '0'); slv_reg7 <= (others => '0'); slv_reg8 <= (others => '0'); slv_reg9 <= (others => '0'); slv_reg10 <= (others => '0'); slv_reg11 <= (others => '0'); slv_reg12 <= (others => '0'); slv_reg13 <= (others => '0'); slv_reg14 <= (others => '0'); slv_reg15 <= (others => '0'); slv_reg16 <= (others => '0'); slv_reg17 <= (others => '0'); slv_reg18 <= (others => '0'); slv_reg19 <= (others => '0'); slv_reg20 <= (others => '0'); slv_reg21 <= (others => '0'); slv_reg22 <= (others => '0'); slv_reg23 <= (others => '0'); slv_reg24 <= (others => '0'); slv_reg25 <= (others => '0'); slv_reg26 <= (others => '0'); slv_reg27 <= (others => '0'); slv_reg28 <= (others => '0'); slv_reg29 <= (others => '0'); slv_reg30 <= (others => '0'); slv_reg31 <= (others => '0'); else loc_addr := axi_awaddr(ADDR_LSB + OPT_MEM_ADDR_BITS downto ADDR_LSB); if (slv_reg_wren = '1') then case loc_addr is when b"00000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 0 slv_reg0(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 1 slv_reg1(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 2 slv_reg2(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 3 slv_reg3(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 4 slv_reg4(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 5 slv_reg5(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 6 slv_reg6(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"00111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 7 slv_reg7(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 8 slv_reg8(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 9 slv_reg9(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 10 slv_reg10(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 11 slv_reg11(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 12 slv_reg12(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 13 slv_reg13(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 14 slv_reg14(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"01111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 15 slv_reg15(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 16 slv_reg16(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 17 slv_reg17(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 18 slv_reg18(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 19 slv_reg19(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 20 slv_reg20(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 21 slv_reg21(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 22 slv_reg22(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"10111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 23 slv_reg23(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 24 slv_reg24(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 25 slv_reg25(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 26 slv_reg26(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 27 slv_reg27(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 28 slv_reg28(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 29 slv_reg29(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 30 slv_reg30(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when b"11111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 31 slv_reg31(byte_index8+7 downto byte_index8) <= S_AXI_WDATA(byte_index8+7 downto byte_index8); end if; end loop; when others => slv_reg0 <= slv_reg0; slv_reg1 <= slv_reg1; slv_reg2 <= slv_reg2; slv_reg3 <= slv_reg3; slv_reg4 <= slv_reg4; slv_reg5 <= slv_reg5; slv_reg6 <= slv_reg6; slv_reg7 <= slv_reg7; slv_reg8 <= slv_reg8; slv_reg9 <= slv_reg9; slv_reg10 <= slv_reg10; slv_reg11 <= slv_reg11; slv_reg12 <= slv_reg12; slv_reg13 <= slv_reg13; slv_reg14 <= slv_reg14; slv_reg15 <= slv_reg15; slv_reg16 <= slv_reg16; slv_reg17 <= slv_reg17; slv_reg18 <= slv_reg18; slv_reg19 <= slv_reg19; slv_reg20 <= slv_reg20; slv_reg21 <= slv_reg21; slv_reg22 <= slv_reg22; slv_reg23 <= slv_reg23; slv_reg24 <= slv_reg24; slv_reg25 <= slv_reg25; slv_reg26 <= slv_reg26; slv_reg27 <= slv_reg27; slv_reg28 <= slv_reg28; slv_reg29 <= slv_reg29; slv_reg30 <= slv_reg30; slv_reg31 <= slv_reg31; end case; end if; end if; end if; end process; -- Implement write response logic generation -- The write response and response valid signals are asserted by the slave -- when axi_wready, S_AXI_WVALID, axi_wready and S_AXI_WVALID are asserted. -- This marks the acceptance of address and indicates the status of -- write transaction. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_bvalid <= '0'; axi_bresp <= "00"; --need to work more on the responses else if (axi_awready = '1' and S_AXI_AWVALID = '1' and axi_wready = '1' and S_AXI_WVALID = '1' and axi_bvalid = '0' ) then axi_bvalid <= '1'; axi_bresp <= "00"; elsif (S_AXI_BREADY = '1' and axi_bvalid = '1') then --check if bready is asserted while bvalid is high) axi_bvalid <= '0'; -- (there is a possibility that bready is always asserted high) end if; end if; end if; end process; -- Implement axi_arready generation -- axi_arready is asserted for one S_AXI_ACLK clock cycle when -- S_AXI_ARVALID is asserted. axi_awready is -- de-asserted when reset (active low) is asserted. -- The read address is also latched when S_AXI_ARVALID is -- asserted. axi_araddr is reset to zero on reset assertion. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_arready <= '0'; axi_araddr <= (others => '1'); else if (axi_arready = '0' and S_AXI_ARVALID = '1') then -- indicates that the slave has acceped the valid read address axi_arready <= '1'; -- Read Address latching axi_araddr <= S_AXI_ARADDR; else axi_arready <= '0'; end if; end if; end if; end process; -- Implement axi_arvalid generation -- axi_rvalid is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_ARVALID and axi_arready are asserted. The slave registers -- data are available on the axi_rdata bus at this instance. The -- assertion of axi_rvalid marks the validity of read data on the -- bus and axi_rresp indicates the status of read transaction.axi_rvalid -- is deasserted on reset (active low). axi_rresp and axi_rdata are -- cleared to zero on reset (active low). process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_rvalid <= '0'; axi_rresp <= "00"; else if (axi_arready = '1' and S_AXI_ARVALID = '1' and axi_rvalid = '0') then -- Valid read data is available at the read data bus axi_rvalid <= '1'; axi_rresp <= "00"; -- 'OKAY' response elsif (axi_rvalid = '1' and S_AXI_RREADY = '1') then -- Read data is accepted by the master axi_rvalid <= '0'; end if; end if; end if; end process; -- Implement memory mapped register select and read logic generation -- Slave register read enable is asserted when valid address is available -- and the slave is ready to accept the read address. slv_reg_rden <= axi_arready and S_AXI_ARVALID and (not axi_rvalid) ; process (slv_reg0, slv_reg1, slv_reg2, slv_reg3, slv_reg4, slv_reg5, slv_reg6, slv_reg7, slv_reg8, slv_reg9, slv_reg10, slv_reg11, slv_reg12, slv_reg13, slv_reg14, slv_reg15, slv_reg16, slv_reg17, slv_reg18, slv_reg19, slv_reg20, slv_reg21, slv_reg22, slv_reg23, slv_reg24, slv_reg25, slv_reg26, slv_reg27, slv_reg28, slv_reg29, slv_reg30, slv_reg31, axi_araddr, S_AXI_ARESETN, slv_reg_rden) variable loc_addr :std_logic_vector(OPT_MEM_ADDR_BITS downto 0); begin -- Address decoding for reading registers loc_addr := axi_araddr(ADDR_LSB + OPT_MEM_ADDR_BITS downto ADDR_LSB); case loc_addr is when b"00000" => reg_data_out <= X"00" & Addr_Bus; when b"00001" => reg_data_out <= X"0000000" & b"000" & EMULATION_SELECT; when b"00010" => reg_data_out <= X"0000" & REG_A; when b"00011" => reg_data_out <= X"0000" & REG_X; when b"00100" => reg_data_out <= X"0000" & REG_Y; when b"00101" => reg_data_out <= X"0000" & REG_SP; when b"00110" => reg_data_out <= X"0000" & REG_PC; when b"00111" => reg_data_out <= X"000000" & REG_Proc; when b"01000" => reg_data_out <= X"000000" & REG_DBR; when b"01001" => reg_data_out <= X"0000" & state_machine; when b"01010" => reg_data_out <= X"0000000" & b"00" & RW & RDY; when b"01011" => reg_data_out <= D_BUS; when b"01100" => reg_data_out <= X"0000000" & b"000" & DATA_RDY; when b"01101" => reg_data_out <= X"00" & D_BUS_out; when b"01110" => reg_data_out <= slv_reg14; when b"01111" => reg_data_out <= slv_reg15; when b"10000" => reg_data_out <= slv_reg16; when b"10001" => reg_data_out <= slv_reg17; when b"10010" => reg_data_out <= slv_reg18; when b"10011" => reg_data_out <= slv_reg19; when b"10100" => reg_data_out <= slv_reg20; when b"10101" => reg_data_out <= slv_reg21; when b"10110" => reg_data_out <= slv_reg22; when b"10111" => reg_data_out <= slv_reg23; when b"11000" => reg_data_out <= slv_reg24; when b"11001" => reg_data_out <= slv_reg25; when b"11010" => reg_data_out <= slv_reg26; when b"11011" => reg_data_out <= slv_reg27; when b"11100" => reg_data_out <= slv_reg28; when b"11101" => reg_data_out <= slv_reg29; when b"11110" => reg_data_out <= slv_reg30; when b"11111" => reg_data_out <= X"0000AC32"; when others => reg_data_out <= (others => '0'); end case; end process; -- Output register or memory read data process( S_AXI_ACLK ) is begin if (rising_edge (S_AXI_ACLK)) then if ( S_AXI_ARESETN = '0' ) then axi_rdata <= (others => '0'); else if (slv_reg_rden = '1') then -- When there is a valid read address (S_AXI_ARVALID) with -- acceptance of read address by the slave (axi_arready), -- output the read dada -- Read address mux axi_rdata <= reg_data_out; -- register read data end if; end if; end if; end process; -- Add user logic here --PROC_for_65816_syncronization: -- process (clk) is -- begin -- if rising_edge(clk) then -- end if; -- end process; -- User logic ends end arch_imp;
library ieee; use ieee.std_logic_1164.all; library ieee; use ieee.numeric_std.all; entity w_split1 is port ( clk : in std_logic; ra0_data : out std_logic_vector(7 downto 0); wa0_data : in std_logic_vector(7 downto 0); wa0_addr : in std_logic; wa0_en : in std_logic; ra0_addr : in std_logic ); end w_split1; architecture augh of w_split1 is -- Embedded RAM type ram_type is array (0 to 1) of std_logic_vector(7 downto 0); signal ram : ram_type := ( "00000111", "00000111" ); -- Little utility functions to make VHDL syntactically correct -- with the syntax to_integer(unsigned(vector)) when 'vector' is a std_logic. -- This happens when accessing arrays with <= 2 cells, for example. function to_integer(B: std_logic) return integer is variable V: std_logic_vector(0 to 0); begin V(0) := B; return to_integer(unsigned(V)); end; function to_integer(V: std_logic_vector) return integer is begin return to_integer(unsigned(V)); end; begin -- Sequential process -- It handles the Writes process (clk) begin if rising_edge(clk) then -- Write to the RAM -- Note: there should be only one port. if wa0_en = '1' then ram( to_integer(wa0_addr) ) <= wa0_data; end if; end if; end process; -- The Read side (the outputs) ra0_data <= ram( to_integer(ra0_addr) ); end architecture;
library ieee; use ieee.std_logic_1164.all; library ieee; use ieee.numeric_std.all; entity w_split1 is port ( clk : in std_logic; ra0_data : out std_logic_vector(7 downto 0); wa0_data : in std_logic_vector(7 downto 0); wa0_addr : in std_logic; wa0_en : in std_logic; ra0_addr : in std_logic ); end w_split1; architecture augh of w_split1 is -- Embedded RAM type ram_type is array (0 to 1) of std_logic_vector(7 downto 0); signal ram : ram_type := ( "00000111", "00000111" ); -- Little utility functions to make VHDL syntactically correct -- with the syntax to_integer(unsigned(vector)) when 'vector' is a std_logic. -- This happens when accessing arrays with <= 2 cells, for example. function to_integer(B: std_logic) return integer is variable V: std_logic_vector(0 to 0); begin V(0) := B; return to_integer(unsigned(V)); end; function to_integer(V: std_logic_vector) return integer is begin return to_integer(unsigned(V)); end; begin -- Sequential process -- It handles the Writes process (clk) begin if rising_edge(clk) then -- Write to the RAM -- Note: there should be only one port. if wa0_en = '1' then ram( to_integer(wa0_addr) ) <= wa0_data; end if; end if; end process; -- The Read side (the outputs) ra0_data <= ram( to_integer(ra0_addr) ); end architecture;
------------------------------------------------------------------------------- -- axi_sg_updt_q_mngr ------------------------------------------------------------------------------- -- -- *********************************************************************** -- -- (c) Copyright 2010, 2011 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. -- -- ********************************************************************* -- ------------------------------------------------------------------------------- -- Filename: axi_sg_updt_q_mngr.vhd -- Description: This entity is the descriptor update queue manager -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- axi_sg.vhd -- axi_sg_pkg.vhd -- \|- axi_sg_ftch_mngr.vhd -- \| \|- axi_sg_ftch_sm.vhd -- \| \|- axi_sg_ftch_pntr.vhd -- \| \|- axi_sg_ftch_cmdsts_if.vhd -- \|- axi_sg_updt_mngr.vhd -- \| \|- axi_sg_updt_sm.vhd -- \| \|- axi_sg_updt_cmdsts_if.vhd -- \|- axi_sg_ftch_q_mngr.vhd -- \| \|- axi_sg_ftch_queue.vhd -- \| \| \|- proc_common_v4_0.sync_fifo_fg.vhd -- \| \| \|- proc_common_v4_0.axi_sg_afifo_autord.vhd -- \| \|- axi_sg_ftch_noqueue.vhd -- \|- axi_sg_updt_q_mngr.vhd -- \| \|- axi_sg_updt_queue.vhd -- \| \| \|- proc_common_v4_0.sync_fifo_fg.vhd -- \| \|- proc_common_v4_0.axi_sg_afifo_autord.vhd -- \| \|- axi_sg_updt_noqueue.vhd -- \|- axi_sg_intrpt.vhd -- \|- axi_datamover_v5_0.axi_datamover.vhd -- ------------------------------------------------------------------------------- -- Author: Gary Burch -- History: -- GAB 3/19/10 v1_00_a -- ^^^^^^ -- - Initial Release -- ~~~~~~ -- GAB 8/26/10 v2_00_a -- ^^^^^^ -- Created top level for descriptor update queue management -- ~~~~~~ -- GAB 10/21/10 v4_03 -- ^^^^^^ -- Rolled version to v4_03 -- ~~~~~~ -- GAB 11/15/10 v2_01_a -- ^^^^^^ -- CR582800 -- Converted all stream paraters _DATA_WIDTH to _TDATA_WIDTH -- ~~~~~~ -- GAB 6/13/11 v4_03 -- ^^^^^^ -- Update to AXI Datamover v4_03 -- Added aynchronous operation -- ~~~~~~ ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_misc.all; library axi_vdma_v6_2; use axi_vdma_v6_2.axi_sg_pkg.all; library lib_pkg_v1_0; library lib_fifo_v1_0; use lib_fifo_v1_0.sync_fifo_fg; use lib_pkg_v1_0.lib_pkg.all; ------------------------------------------------------------------------------- entity axi_sg_updt_q_mngr is generic ( C_M_AXI_SG_ADDR_WIDTH : integer range 32 to 64 := 32; -- Master AXI Memory Map Address Width for Scatter Gather R/W Port C_M_AXI_SG_DATA_WIDTH : integer range 32 to 32 := 32; -- Master AXI Memory Map Data Width for Scatter Gather R/W Port C_S_AXIS_UPDPTR_TDATA_WIDTH : integer range 32 to 32 := 32; -- 32 Update Status Bits C_S_AXIS_UPDSTS_TDATA_WIDTH : integer range 33 to 33 := 33; -- 1 IOC bit + 32 Update Status Bits C_SG_UPDT_DESC2QUEUE : integer range 0 to 8 := 0; -- Number of descriptors to fetch and queue for each channel. -- A value of zero excludes the fetch queues. C_SG_CH1_WORDS_TO_UPDATE : integer range 1 to 16 := 8; -- Number of words to update C_SG_CH2_WORDS_TO_UPDATE : integer range 1 to 16 := 8; -- Number of words to update C_INCLUDE_CH1 : integer range 0 to 1 := 1; -- Include or Exclude channel 1 scatter gather engine -- 0 = Exclude Channel 1 SG Engine -- 1 = Include Channel 1 SG Engine C_INCLUDE_CH2 : integer range 0 to 1 := 1; -- Include or Exclude channel 2 scatter gather engine -- 0 = Exclude Channel 2 SG Engine -- 1 = Include Channel 2 SG Engine C_AXIS_IS_ASYNC : integer range 0 to 1 := 0; -- Channel 1 is async to sg_aclk -- 0 = Synchronous to SG ACLK -- 1 = Asynchronous to SG ACLK C_FAMILY : string := "virtex6" -- Device family used for proper BRAM selection ); port ( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk : in std_logic ; -- m_axi_sg_aresetn : in std_logic ; -- -- --*******************************-- -- -- Channel 1 Control -- -- --*******************************-- -- ch1_updt_curdesc_wren : out std_logic ; -- ch1_updt_curdesc : out std_logic_vector -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) ; -- ch1_updt_active : in std_logic ; -- ch1_updt_queue_empty : out std_logic ; -- ch1_updt_ioc : out std_logic ; -- ch1_updt_ioc_irq_set : in std_logic ; -- -- ch1_dma_interr : out std_logic ; -- ch1_dma_slverr : out std_logic ; -- ch1_dma_decerr : out std_logic ; -- ch1_dma_interr_set : in std_logic ; -- ch1_dma_slverr_set : in std_logic ; -- ch1_dma_decerr_set : in std_logic ; -- -- --*******************************-- -- -- Channel 2 Control -- -- --*******************************-- -- ch2_updt_active : in std_logic ; -- ch2_updt_curdesc_wren : out std_logic ; -- ch2_updt_curdesc : out std_logic_vector -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) ; -- ch2_updt_queue_empty : out std_logic ; -- ch2_updt_ioc : out std_logic ; -- ch2_updt_ioc_irq_set : in std_logic ; -- -- ch2_dma_interr : out std_logic ; -- ch2_dma_slverr : out std_logic ; -- ch2_dma_decerr : out std_logic ; -- ch2_dma_interr_set : in std_logic ; -- ch2_dma_slverr_set : in std_logic ; -- ch2_dma_decerr_set : in std_logic ; -- -- --*******************************-- -- -- Channel 1 Update Interface In -- -- --*******************************-- -- s_axis_ch1_updt_aclk : in std_logic ; -- -- Update Pointer Stream -- s_axis_ch1_updtptr_tdata : in std_logic_vector -- (C_S_AXIS_UPDPTR_TDATA_WIDTH-1 downto 0); -- s_axis_ch1_updtptr_tvalid : in std_logic ; -- s_axis_ch1_updtptr_tready : out std_logic ; -- s_axis_ch1_updtptr_tlast : in std_logic ; -- -- -- Update Status Stream -- s_axis_ch1_updtsts_tdata : in std_logic_vector -- (C_S_AXIS_UPDSTS_TDATA_WIDTH-1 downto 0); -- s_axis_ch1_updtsts_tvalid : in std_logic ; -- s_axis_ch1_updtsts_tready : out std_logic ; -- s_axis_ch1_updtsts_tlast : in std_logic ; -- -- --*******************************-- -- -- Channel 2 Update Interface In -- -- --*******************************-- -- s_axis_ch2_updt_aclk : in std_logic ; -- -- Update Pointer Stream -- s_axis_ch2_updtptr_tdata : in std_logic_vector -- (C_S_AXIS_UPDPTR_TDATA_WIDTH-1 downto 0); -- s_axis_ch2_updtptr_tvalid : in std_logic ; -- s_axis_ch2_updtptr_tready : out std_logic ; -- s_axis_ch2_updtptr_tlast : in std_logic ; -- -- -- Update Status Stream -- s_axis_ch2_updtsts_tdata : in std_logic_vector -- (C_S_AXIS_UPDSTS_TDATA_WIDTH-1 downto 0); -- s_axis_ch2_updtsts_tvalid : in std_logic ; -- s_axis_ch2_updtsts_tready : out std_logic ; -- s_axis_ch2_updtsts_tlast : in std_logic ; -- -- --***********************************-- -- -- Update Interface to AXI DataMover -- -- --***********************************-- -- -- S2MM Stream Out To DataMover -- s_axis_s2mm_tdata : out std_logic_vector -- (C_M_AXI_SG_DATA_WIDTH-1 downto 0) ; -- s_axis_s2mm_tlast : out std_logic ; -- s_axis_s2mm_tvalid : out std_logic ; -- s_axis_s2mm_tready : in std_logic -- ); end axi_sg_updt_q_mngr; ------------------------------------------------------------------------------- -- Architecture ------------------------------------------------------------------------------- architecture implementation of axi_sg_updt_q_mngr is attribute DowngradeIPIdentifiedWarnings: string; attribute DowngradeIPIdentifiedWarnings of implementation : architecture is "yes"; ------------------------------------------------------------------------------- -- Functions ------------------------------------------------------------------------------- -- No Functions Declared ------------------------------------------------------------------------------- -- Constants Declarations ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- Signal / Type Declarations ------------------------------------------------------------------------------- signal m_axis_ch1_updt_tdata : std_logic_vector(C_M_AXI_SG_DATA_WIDTH-1 downto 0) := (others => '0'); signal m_axis_ch1_updt_tlast : std_logic := '0'; signal m_axis_ch1_updt_tvalid : std_logic := '0'; signal m_axis_ch1_updt_tready : std_logic := '0'; signal m_axis_ch2_updt_tdata : std_logic_vector(C_M_AXI_SG_DATA_WIDTH-1 downto 0) := (others => '0'); signal m_axis_ch2_updt_tlast : std_logic := '0'; signal m_axis_ch2_updt_tvalid : std_logic := '0'; signal m_axis_ch2_updt_tready : std_logic := '0'; ------------------------------------------------------------------------------- -- Begin architecture logic ------------------------------------------------------------------------------- begin --************************************************************************* -- CHANNEL 1 --************************************************************************* ------------------------------------------------------------------------------- -- If Channel 1 is enabled then instantiate descriptor update logic. ------------------------------------------------------------------------------- GEN_CH1_UPDATE_Q_IF : if C_INCLUDE_CH1 = 1 generate begin --************************************************************************* -- CHANNEL 1 - DESCRIPTOR QUEUE --************************************************************************* -- If Descriptor Update queueing enabled then instantiate Queue Logic GEN_CH1_QUEUE : if C_SG_UPDT_DESC2QUEUE /= 0 generate begin ------------------------------------------------------------------------------- I_CH1_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_queue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH , C_SG_UPDT_DESC2QUEUE => C_SG_UPDT_DESC2QUEUE , C_SG_WORDS_TO_UPDATE => C_SG_CH1_WORDS_TO_UPDATE , C_AXIS_IS_ASYNC => C_AXIS_IS_ASYNC , C_FAMILY => C_FAMILY ) port map( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , s_axis_updt_aclk => s_axis_ch1_updt_aclk , --****************************-- -- Control and Status -- --****************************-- updt_curdesc_wren => ch1_updt_curdesc_wren , updt_curdesc => ch1_updt_curdesc , updt_active => ch1_updt_active , updt_queue_empty => ch1_updt_queue_empty , updt_ioc => ch1_updt_ioc , updt_ioc_irq_set => ch1_updt_ioc_irq_set , dma_interr => ch1_dma_interr , dma_slverr => ch1_dma_slverr , dma_decerr => ch1_dma_decerr , dma_interr_set => ch1_dma_interr_set , dma_slverr_set => ch1_dma_slverr_set , dma_decerr_set => ch1_dma_decerr_set , --****************************-- -- Update Interfaces In -- --****************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch1_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch1_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch1_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch1_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch1_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch1_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch1_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch1_updtsts_tlast , --****************************-- -- Update Interfaces Out -- --****************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch1_updt_tdata , m_axis_updt_tlast => m_axis_ch1_updt_tlast , m_axis_updt_tvalid => m_axis_ch1_updt_tvalid , m_axis_updt_tready => m_axis_ch1_updt_tready ); end generate GEN_CH1_QUEUE; --************************************************************************* -- CHANNEL 1 - NO DESCRIPTOR QUEUE --************************************************************************* -- No update queue enabled, therefore map internal stream logic -- directly to channel port. GEN_CH1_NO_QUEUE : if C_SG_UPDT_DESC2QUEUE = 0 generate begin I_NO_CH1_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_noqueue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH ) port map( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , --****************************-- -- Control and Status -- --****************************-- updt_curdesc_wren => ch1_updt_curdesc_wren , updt_curdesc => ch1_updt_curdesc , updt_active => ch1_updt_active , updt_queue_empty => ch1_updt_queue_empty , updt_ioc => ch1_updt_ioc , updt_ioc_irq_set => ch1_updt_ioc_irq_set , dma_interr => ch1_dma_interr , dma_slverr => ch1_dma_slverr , dma_decerr => ch1_dma_decerr , dma_interr_set => ch1_dma_interr_set , dma_slverr_set => ch1_dma_slverr_set , dma_decerr_set => ch1_dma_decerr_set , --****************************-- -- Update Interfaces In -- --****************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch1_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch1_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch1_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch1_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch1_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch1_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch1_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch1_updtsts_tlast , --****************************-- -- Update Interfaces Out -- --****************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch1_updt_tdata , m_axis_updt_tlast => m_axis_ch1_updt_tlast , m_axis_updt_tvalid => m_axis_ch1_updt_tvalid , m_axis_updt_tready => m_axis_ch1_updt_tready ); end generate GEN_CH1_NO_QUEUE; end generate GEN_CH1_UPDATE_Q_IF; -- Channel 1 NOT included therefore tie ch1 outputs off GEN_NO_CH1_UPDATE_Q_IF : if C_INCLUDE_CH1 = 0 generate begin ch1_updt_curdesc_wren <= '0'; ch1_updt_curdesc <= (others => '0'); ch1_updt_queue_empty <= '1'; ch1_updt_ioc <= '0'; ch1_dma_interr <= '0'; ch1_dma_slverr <= '0'; ch1_dma_decerr <= '0'; m_axis_ch1_updt_tdata <= (others => '0'); m_axis_ch1_updt_tlast <= '0'; m_axis_ch1_updt_tvalid <= '0'; s_axis_ch1_updtptr_tready <= '0'; s_axis_ch1_updtsts_tready <= '0'; end generate GEN_NO_CH1_UPDATE_Q_IF; --************************************************************************* -- CHANNEL 2 --************************************************************************* ------------------------------------------------------------------------------- -- If Channel 2 is enabled then instantiate descriptor update logic. ------------------------------------------------------------------------------- GEN_CH2_UPDATE_Q_IF : if C_INCLUDE_CH2 = 1 generate begin --********************************************************************* -- CHANNEL 2 - DESCRIPTOR QUEUE --********************************************************************* -- If Descriptor Update queueing enabled then instantiate Queue Logic GEN_CH2_QUEUE : if C_SG_UPDT_DESC2QUEUE /= 0 generate begin --------------------------------------------------------------------------- I_CH2_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_queue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH , C_SG_UPDT_DESC2QUEUE => C_SG_UPDT_DESC2QUEUE , C_SG_WORDS_TO_UPDATE => C_SG_CH2_WORDS_TO_UPDATE , C_FAMILY => C_FAMILY ) port map( --------------------------------------------------------------- -- AXI Scatter Gather Interface --------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , s_axis_updt_aclk => s_axis_ch2_updt_aclk , --****************************-- -- Control and Status -- --****************************-- updt_curdesc_wren => ch2_updt_curdesc_wren , updt_curdesc => ch2_updt_curdesc , updt_active => ch2_updt_active , updt_queue_empty => ch2_updt_queue_empty , updt_ioc => ch2_updt_ioc , updt_ioc_irq_set => ch2_updt_ioc_irq_set , dma_interr => ch2_dma_interr , dma_slverr => ch2_dma_slverr , dma_decerr => ch2_dma_decerr , dma_interr_set => ch2_dma_interr_set , dma_slverr_set => ch2_dma_slverr_set , dma_decerr_set => ch2_dma_decerr_set , --****************************-- -- Update Interfaces In -- --****************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch2_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch2_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch2_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch2_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch2_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch2_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch2_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch2_updtsts_tlast , --****************************-- -- Update Interfaces Out -- --****************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch2_updt_tdata , m_axis_updt_tlast => m_axis_ch2_updt_tlast , m_axis_updt_tvalid => m_axis_ch2_updt_tvalid , m_axis_updt_tready => m_axis_ch2_updt_tready ); end generate GEN_CH2_QUEUE; --************************************************************************* -- CHANNEL 2 - NO DESCRIPTOR QUEUE --************************************************************************* -- No update queue enabled, therefore map internal stream logic -- directly to channel port. GEN_CH2_NO_QUEUE : if C_SG_UPDT_DESC2QUEUE = 0 generate I_NO_CH2_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_noqueue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH ) port map( --------------------------------------------------------------- -- AXI Scatter Gather Interface --------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , --****************************-- -- Control and Status -- --****************************-- updt_curdesc_wren => ch2_updt_curdesc_wren , updt_curdesc => ch2_updt_curdesc , updt_active => ch2_updt_active , updt_queue_empty => ch2_updt_queue_empty , updt_ioc => ch2_updt_ioc , updt_ioc_irq_set => ch2_updt_ioc_irq_set , dma_interr => ch2_dma_interr , dma_slverr => ch2_dma_slverr , dma_decerr => ch2_dma_decerr , dma_interr_set => ch2_dma_interr_set , dma_slverr_set => ch2_dma_slverr_set , dma_decerr_set => ch2_dma_decerr_set , --****************************-- -- Update Interfaces In -- --****************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch2_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch2_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch2_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch2_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch2_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch2_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch2_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch2_updtsts_tlast , --****************************-- -- Update Interfaces Out -- --******************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch2_updt_tdata , m_axis_updt_tlast => m_axis_ch2_updt_tlast , m_axis_updt_tvalid => m_axis_ch2_updt_tvalid , m_axis_updt_tready => m_axis_ch2_updt_tready ); end generate GEN_CH2_NO_QUEUE; end generate GEN_CH2_UPDATE_Q_IF; -- Channel 2 NOT included therefore tie ch2 outputs off GEN_NO_CH2_UPDATE_Q_IF : if C_INCLUDE_CH2 = 0 generate begin ch2_updt_curdesc_wren <= '0'; ch2_updt_curdesc <= (others => '0'); ch2_updt_queue_empty <= '1'; ch2_updt_ioc <= '0'; ch2_dma_interr <= '0'; ch2_dma_slverr <= '0'; ch2_dma_decerr <= '0'; m_axis_ch2_updt_tdata <= (others => '0'); m_axis_ch2_updt_tlast <= '0'; m_axis_ch2_updt_tvalid <= '0'; s_axis_ch2_updtptr_tready <= '0'; s_axis_ch2_updtsts_tready <= '0'; end generate GEN_NO_CH2_UPDATE_Q_IF; ------------------------------------------------------------------------------- -- MUX For DataMover ------------------------------------------------------------------------------- TO_DATAMVR_MUX : process(ch1_updt_active, ch2_updt_active, m_axis_ch1_updt_tdata, m_axis_ch1_updt_tlast, m_axis_ch1_updt_tvalid, m_axis_ch2_updt_tdata, m_axis_ch2_updt_tlast, m_axis_ch2_updt_tvalid) begin if(ch1_updt_active = '1')then s_axis_s2mm_tdata <= m_axis_ch1_updt_tdata; s_axis_s2mm_tlast <= m_axis_ch1_updt_tlast; s_axis_s2mm_tvalid <= m_axis_ch1_updt_tvalid; elsif(ch2_updt_active = '1')then s_axis_s2mm_tdata <= m_axis_ch2_updt_tdata; s_axis_s2mm_tlast <= m_axis_ch2_updt_tlast; s_axis_s2mm_tvalid <= m_axis_ch2_updt_tvalid; else s_axis_s2mm_tdata <= (others => '0'); s_axis_s2mm_tlast <= '0'; s_axis_s2mm_tvalid <= '0'; end if; end process TO_DATAMVR_MUX; m_axis_ch1_updt_tready <= s_axis_s2mm_tready; m_axis_ch2_updt_tready <= s_axis_s2mm_tready; end implementation;
----------------------------------------------------------------------------- -- Title : I2C_minion Testbench ----------------------------------------------------------------------------- -- File : I2C_minion_TB_001_ideal -- Author : Peter Samarin <peter.samarin@gmail.com> ----------------------------------------------------------------------------- -- Copyright (c) 2019 Peter Samarin ----------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use std.textio.all; use work.txt_util.all; ------------------------------------------------------------------------ entity I2C_minion_TB_001_ideal is end I2C_minion_TB_001_ideal; ------------------------------------------------------------------------ architecture Testbench of I2C_minion_TB_001_ideal is constant T : time := 20 ns; -- clk period constant TH_I2C : time := 100 ns; -- i2c clk quarter period(kbis) constant T_MUL : integer := 2; -- i2c clk quarter period(kbis) constant T_HALF : integer := (TH_I2CT_MUL2) / T; -- i2c halfclk period constant T_QUARTER : integer := (TH_I2C*T_MUL) / T; -- i2c quarterclk period signal clk : std_logic := '1'; signal rst : std_logic := '1'; signal scl : std_logic := 'Z'; signal sda : std_logic := 'Z'; signal state_dbg : integer := 0; signal received_data : std_logic_vector(7 downto 0) := (others => '0'); signal ack : std_logic := '0'; signal read_req : std_logic := '0'; signal data_to_master : std_logic_vector(7 downto 0) := (others => '0'); signal data_valid : std_logic := '0'; signal data_from_master : std_logic_vector(7 downto 0) := (others => '0'); signal data_from_master_reg : std_logic_vector(7 downto 0) := (others => '0'); shared variable seed1 : positive := 1000; shared variable seed2 : positive := 2000; -- simulation control shared variable ENDSIM : boolean := false; begin ---- Design Under Verification ----------------------------------------- DUV : entity work.I2C_minion generic map ( MINION_ADDR => "0000011", USE_INPUT_DEBOUNCING => false) port map ( -- I2C scl => scl, sda => sda, -- default signals clk => clk, rst => rst, -- user interface read_req => read_req, data_to_master => data_to_master, data_valid => data_valid, data_from_master => data_from_master); ---- DUT clock running forever ---------------------------- process begin if ENDSIM = false then clk <= '0'; wait for T/2; clk <= '1'; wait for T/2; else wait; end if; end process; ---- Reset asserted for T/2 ------------------------------ rst <= '1', '0' after T/2; ---------------------------------------------------------- -- Save data received from the master in a register ---------------------------------------------------------- process (clk) is begin if rising_edge(clk) then if data_valid = '1' then data_from_master_reg <= data_from_master; end if; end if; end process; ----- Test vector generation ------------------------------------------- TESTS : process is -- half clock procedure i2c_wait_half_clock is begin for i in 0 to T_HALF loop wait until rising_edge(clk); end loop; end procedure i2c_wait_half_clock; -- quarter clock procedure i2c_wait_quarter_clock is begin for i in 0 to T_QUARTER loop wait until rising_edge(clk); end loop; end procedure i2c_wait_quarter_clock; -- Write Bit procedure i2c_send_bit ( constant a_bit : in std_logic) is begin scl <= '0'; if a_bit = '0' then sda <= '0'; else sda <= 'Z'; end if; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_send_bit; -- Read Bit procedure i2c_receive_bit ( variable a_bit : out std_logic) is begin scl <= '0'; sda <= 'Z'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_quarter_clock; if sda = '0' then a_bit := '0'; else a_bit := '1'; end if; i2c_wait_quarter_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_receive_bit; -- Write Byte procedure i2c_send_byte ( constant a_byte : in std_logic_vector(7 downto 0)) is begin for i in 7 downto 0 loop i2c_send_bit(a_byte(i)); end loop; end procedure i2c_send_byte; -- Address procedure i2c_send_address ( constant address : in std_logic_vector(6 downto 0)) is begin for i in 6 downto 0 loop i2c_send_bit(address(i)); end loop; end procedure i2c_send_address; -- Read Byte procedure i2c_receive_byte ( signal a_byte : out std_logic_vector(7 downto 0)) is variable a_bit : std_logic; variable accu : std_logic_vector(7 downto 0) := (others => '0'); begin for i in 7 downto 0 loop i2c_receive_bit(a_bit); accu(i) := a_bit; end loop; a_byte <= accu; end procedure i2c_receive_byte; -- START procedure i2c_start is begin scl <= 'Z'; sda <= '0'; i2c_wait_half_clock; scl <= 'Z'; i2c_wait_quarter_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_start; -- STOP procedure i2c_stop is begin scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_quarter_clock; sda <= 'Z'; i2c_wait_half_clock; i2c_wait_half_clock; end procedure i2c_stop; -- send write procedure i2c_set_write is begin i2c_send_bit('0'); end procedure i2c_set_write; -- send read procedure i2c_set_read is begin i2c_send_bit('1'); end procedure i2c_set_read; -- read ACK procedure i2c_read_ack (signal ack : out std_logic) is begin scl <= '0'; sda <= 'Z'; i2c_wait_quarter_clock; scl <= 'Z'; if sda = '0' then ack <= '1'; else ack <= '0'; assert false report "No ACK received: expected '0'" severity note; end if; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_read_ack; -- write NACK procedure i2c_write_nack is begin scl <= '0'; sda <= 'Z'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_write_nack; -- write ACK procedure i2c_write_ack is begin scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_write_ack; -- write to I2C bus procedure i2c_write ( constant address : in std_logic_vector(6 downto 0); constant data : in std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_write; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; ack <= '0'; return; end if; state_dbg <= 4; i2c_send_byte(data); state_dbg <= 5; i2c_read_ack(ack); state_dbg <= 6; i2c_stop; end procedure i2c_write; -- write to I2C bus procedure i2c_quick_write ( constant address : in std_logic_vector(6 downto 0); constant data : in std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_write; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; ack <= '0'; return; end if; state_dbg <= 4; i2c_send_byte(data); state_dbg <= 5; i2c_read_ack(ack); scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; sda <= 'Z'; i2c_wait_quarter_clock; end procedure i2c_quick_write; -- read I2C bus procedure i2c_write_bytes ( constant address : in std_logic_vector(6 downto 0); constant nof_bytes : in integer range 0 to 1023) is variable data : std_logic_vector(7 downto 0) := (others => '0'); begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_write; state_dbg <= 3; i2c_read_ack(ack); if ack = '0' then i2c_stop; return; end if; ack <= '0'; for i in 0 to nof_bytes-1 loop state_dbg <= 4; i2c_send_byte(std_logic_vector(to_unsigned(i, 8))); state_dbg <= 5; i2c_read_ack(ack); if ack = '0' then i2c_stop; return; end if; ack <= '0'; end loop; state_dbg <= 6; i2c_stop; end procedure i2c_write_bytes; -- read from I2C bus procedure i2c_read ( constant address : in std_logic_vector(6 downto 0); signal data : out std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_read; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; return; end if; ack <= '0'; state_dbg <= 4; i2c_receive_byte(data); state_dbg <= 5; i2c_write_nack; state_dbg <= 6; i2c_stop; end procedure i2c_read; -- read from I2C bus procedure i2c_quick_read ( constant address : in std_logic_vector(6 downto 0); signal data : out std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_read; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; return; end if; ack <= '0'; state_dbg <= 4; i2c_receive_byte(data); state_dbg <= 5; i2c_write_nack; scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; sda <= 'Z'; i2c_wait_quarter_clock; end procedure i2c_quick_read; -- read I2C bus procedure i2c_read_bytes ( constant address : in std_logic_vector(6 downto 0); constant nof_bytes : in integer range 0 to 1023; signal data : out std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_read; state_dbg <= 3; i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; return; end if; for i in 0 to nof_bytes-1 loop -- dummy read ACK--don't care, because we are testing -- I2C minion state_dbg <= 4; i2c_receive_byte(data); state_dbg <= 5; if i < nof_bytes-1 then i2c_write_ack; else i2c_write_nack; end if; end loop; state_dbg <= 6; i2c_stop; end procedure i2c_read_bytes; begin print(""); print("------------------------------------------------------------"); print("----------------- I2C_minion_TB_001_ideal ------------------"); print("------------------------------------------------------------"); scl <= 'Z'; sda <= 'Z'; print("----------------- Testing a single write ------------------"); i2c_write("0000011", "11111111"); assert data_from_master_reg = "11111111" report "test: 0 not passed" severity warning; print("----------------- Testing a single write ------------------"); i2c_write("0000011", "11111010"); assert data_from_master_reg = "11111010" report "test: 0 not passed" severity warning; print("----------------- Testing repeated writes -----------------"); wait until rising_edge(clk); for i in 0 to 127 loop i2c_write("0000011", std_logic_vector(to_unsigned(i, 8))); assert i = to_integer(unsigned(data_from_master_reg)) report "writing test: " & integer'image(i) & " not passed" severity warning; end loop; print("----------------- Testing repeated reads ------------------"); for i in 0 to 127 loop data_to_master <= std_logic_vector(to_unsigned(i, 8)); i2c_read("0000011", received_data); assert i = to_integer(unsigned(received_data)) report "reading test: " & integer'image(i) & " not passed" & "test" severity warning; end loop; -------------------------------------------------------- -- Quick read/write -------------------------------------------------------- print("----------------- Testing quick write --------------------"); i2c_quick_write("0000011", "10101010"); i2c_quick_write("0000011", "10101011"); i2c_quick_write("0000011", "10101111"); data_to_master <= std_logic_vector(to_unsigned(255, 8)); i2c_quick_read("0000011", received_data); state_dbg <= 6; i2c_stop; -------------------------------------------------------- -- Reads, writes from wrong minion addresses -- this should cause some assertion notes (needs manual -- confirmation) -------------------------------------------------------- print("----------------- Testing wrong addresses -----------------"); print("-> The following 3 tests should all fail"); print("[0] ---------------"); i2c_write_bytes("1000011", 100); print("[1] ---------------"); i2c_read ("0101101", received_data); print("[2] ---------------"); i2c_read_bytes ("0000010", 300, received_data); wait until rising_edge(clk); ENDSIM := true; print("Simulation end..."); print(""); wait; end process; end Testbench;
--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; entity allocator_credit_counter_logic_pseudo is port ( -- flow control credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L: in std_logic; credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out : in std_logic_vector(1 downto 0); grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; credit_counter_N_in, credit_counter_E_in, credit_counter_W_in, credit_counter_S_in, credit_counter_L_in : out std_logic_vector(1 downto 0) ); end allocator_credit_counter_logic_pseudo; architecture behavior of allocator_credit_counter_logic_pseudo is begin -- The combionational part -- this process handels the credit counters! process(credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L, grant_N, grant_E, grant_W, grant_S, grant_L, credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out) begin credit_counter_N_in <= credit_counter_N_out; credit_counter_E_in <= credit_counter_E_out; credit_counter_W_in <= credit_counter_W_out; credit_counter_S_in <= credit_counter_S_out; credit_counter_L_in <= credit_counter_L_out; if credit_in_N = '1' and grant_N = '1' then credit_counter_N_in <= credit_counter_N_out; elsif credit_in_N = '1' and credit_counter_N_out < 3 then credit_counter_N_in <= credit_counter_N_out + 1; elsif grant_N = '1' and credit_counter_N_out > 0 then credit_counter_N_in <= credit_counter_N_out - 1; end if; if credit_in_E = '1' and grant_E = '1' then credit_counter_E_in <= credit_counter_E_out; elsif credit_in_E = '1' and credit_counter_E_out < 3 then credit_counter_E_in <= credit_counter_E_out + 1; elsif grant_E = '1' and credit_counter_E_out > 0 then credit_counter_E_in <= credit_counter_E_out - 1; end if; if credit_in_W = '1' and grant_W = '1' then credit_counter_W_in <= credit_counter_W_out; elsif credit_in_W = '1' and credit_counter_W_out < 3 then credit_counter_W_in <= credit_counter_W_out + 1; elsif grant_W = '1' and credit_counter_W_out > 0 then credit_counter_W_in <= credit_counter_W_out - 1; end if; if credit_in_S = '1' and grant_S = '1' then credit_counter_S_in <= credit_counter_S_out; elsif credit_in_S = '1' and credit_counter_S_out < 3 then credit_counter_S_in <= credit_counter_S_out + 1; elsif grant_S = '1' and credit_counter_S_out > 0 then credit_counter_S_in <= credit_counter_S_out - 1; end if; if credit_in_L = '1' and grant_L = '1' then credit_counter_L_in <= credit_counter_L_out; elsif credit_in_L = '1' and credit_counter_L_out < 3 then credit_counter_L_in <= credit_counter_L_out + 1; elsif grant_L = '1' and credit_counter_L_out > 0 then credit_counter_L_in <= credit_counter_L_out - 1; end if; end process; END;
--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; entity allocator_credit_counter_logic_pseudo is port ( -- flow control credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L: in std_logic; credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out : in std_logic_vector(1 downto 0); grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; credit_counter_N_in, credit_counter_E_in, credit_counter_W_in, credit_counter_S_in, credit_counter_L_in : out std_logic_vector(1 downto 0) ); end allocator_credit_counter_logic_pseudo; architecture behavior of allocator_credit_counter_logic_pseudo is begin -- The combionational part -- this process handels the credit counters! process(credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L, grant_N, grant_E, grant_W, grant_S, grant_L, credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out) begin credit_counter_N_in <= credit_counter_N_out; credit_counter_E_in <= credit_counter_E_out; credit_counter_W_in <= credit_counter_W_out; credit_counter_S_in <= credit_counter_S_out; credit_counter_L_in <= credit_counter_L_out; if credit_in_N = '1' and grant_N = '1' then credit_counter_N_in <= credit_counter_N_out; elsif credit_in_N = '1' and credit_counter_N_out < 3 then credit_counter_N_in <= credit_counter_N_out + 1; elsif grant_N = '1' and credit_counter_N_out > 0 then credit_counter_N_in <= credit_counter_N_out - 1; end if; if credit_in_E = '1' and grant_E = '1' then credit_counter_E_in <= credit_counter_E_out; elsif credit_in_E = '1' and credit_counter_E_out < 3 then credit_counter_E_in <= credit_counter_E_out + 1; elsif grant_E = '1' and credit_counter_E_out > 0 then credit_counter_E_in <= credit_counter_E_out - 1; end if; if credit_in_W = '1' and grant_W = '1' then credit_counter_W_in <= credit_counter_W_out; elsif credit_in_W = '1' and credit_counter_W_out < 3 then credit_counter_W_in <= credit_counter_W_out + 1; elsif grant_W = '1' and credit_counter_W_out > 0 then credit_counter_W_in <= credit_counter_W_out - 1; end if; if credit_in_S = '1' and grant_S = '1' then credit_counter_S_in <= credit_counter_S_out; elsif credit_in_S = '1' and credit_counter_S_out < 3 then credit_counter_S_in <= credit_counter_S_out + 1; elsif grant_S = '1' and credit_counter_S_out > 0 then credit_counter_S_in <= credit_counter_S_out - 1; end if; if credit_in_L = '1' and grant_L = '1' then credit_counter_L_in <= credit_counter_L_out; elsif credit_in_L = '1' and credit_counter_L_out < 3 then credit_counter_L_in <= credit_counter_L_out + 1; elsif grant_L = '1' and credit_counter_L_out > 0 then credit_counter_L_in <= credit_counter_L_out - 1; end if; end process; END;
--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; entity allocator_credit_counter_logic_pseudo is port ( -- flow control credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L: in std_logic; credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out : in std_logic_vector(1 downto 0); grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; credit_counter_N_in, credit_counter_E_in, credit_counter_W_in, credit_counter_S_in, credit_counter_L_in : out std_logic_vector(1 downto 0) ); end allocator_credit_counter_logic_pseudo; architecture behavior of allocator_credit_counter_logic_pseudo is begin -- The combionational part -- this process handels the credit counters! process(credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L, grant_N, grant_E, grant_W, grant_S, grant_L, credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out) begin credit_counter_N_in <= credit_counter_N_out; credit_counter_E_in <= credit_counter_E_out; credit_counter_W_in <= credit_counter_W_out; credit_counter_S_in <= credit_counter_S_out; credit_counter_L_in <= credit_counter_L_out; if credit_in_N = '1' and grant_N = '1' then credit_counter_N_in <= credit_counter_N_out; elsif credit_in_N = '1' and credit_counter_N_out < 3 then credit_counter_N_in <= credit_counter_N_out + 1; elsif grant_N = '1' and credit_counter_N_out > 0 then credit_counter_N_in <= credit_counter_N_out - 1; end if; if credit_in_E = '1' and grant_E = '1' then credit_counter_E_in <= credit_counter_E_out; elsif credit_in_E = '1' and credit_counter_E_out < 3 then credit_counter_E_in <= credit_counter_E_out + 1; elsif grant_E = '1' and credit_counter_E_out > 0 then credit_counter_E_in <= credit_counter_E_out - 1; end if; if credit_in_W = '1' and grant_W = '1' then credit_counter_W_in <= credit_counter_W_out; elsif credit_in_W = '1' and credit_counter_W_out < 3 then credit_counter_W_in <= credit_counter_W_out + 1; elsif grant_W = '1' and credit_counter_W_out > 0 then credit_counter_W_in <= credit_counter_W_out - 1; end if; if credit_in_S = '1' and grant_S = '1' then credit_counter_S_in <= credit_counter_S_out; elsif credit_in_S = '1' and credit_counter_S_out < 3 then credit_counter_S_in <= credit_counter_S_out + 1; elsif grant_S = '1' and credit_counter_S_out > 0 then credit_counter_S_in <= credit_counter_S_out - 1; end if; if credit_in_L = '1' and grant_L = '1' then credit_counter_L_in <= credit_counter_L_out; elsif credit_in_L = '1' and credit_counter_L_out < 3 then credit_counter_L_in <= credit_counter_L_out + 1; elsif grant_L = '1' and credit_counter_L_out > 0 then credit_counter_L_in <= credit_counter_L_out - 1; end if; end process; END;
-------------------------------------------------------------------------------- -- -- FIFO Generator Core Demo Testbench -- -------------------------------------------------------------------------------- -- -- (c) Copyright 2009 - 2010 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. -------------------------------------------------------------------------------- -- -- Filename: fg_tb_top.vhd -- -- Description: -- This is the demo testbench top file for fifo_generator core. -- -------------------------------------------------------------------------------- -- Library Declarations -------------------------------------------------------------------------------- LIBRARY ieee; LIBRARY std; USE ieee.std_logic_1164.ALL; USE ieee.std_logic_unsigned.ALL; USE IEEE.std_logic_arith.ALL; USE IEEE.std_logic_misc.ALL; USE ieee.numeric_std.ALL; USE ieee.std_logic_textio.ALL; USE std.textio.ALL; LIBRARY work; USE work.fg_tb_pkg.ALL; ENTITY fg_tb_top IS END ENTITY; ARCHITECTURE fg_tb_arch OF fg_tb_top IS SIGNAL status : STD_LOGIC_VECTOR(7 DOWNTO 0) := "00000000"; SIGNAL wr_clk : STD_LOGIC; SIGNAL reset : STD_LOGIC; SIGNAL sim_done : STD_LOGIC := '0'; SIGNAL end_of_sim : STD_LOGIC_VECTOR(4 DOWNTO 0) := (OTHERS => '0'); -- Write and Read clock periods CONSTANT wr_clk_period_by_2 : TIME := 24 ns; -- Procedures to display strings PROCEDURE disp_str(CONSTANT str:IN STRING) IS variable dp_l : line := null; BEGIN write(dp_l,str); writeline(output,dp_l); END PROCEDURE; PROCEDURE disp_hex(signal hex:IN STD_LOGIC_VECTOR(7 DOWNTO 0)) IS variable dp_lx : line := null; BEGIN hwrite(dp_lx,hex); writeline(output,dp_lx); END PROCEDURE; BEGIN -- Generation of clock PROCESS BEGIN WAIT FOR 110 ns; -- Wait for global reset WHILE 1 = 1 LOOP wr_clk <= '0'; WAIT FOR wr_clk_period_by_2; wr_clk <= '1'; WAIT FOR wr_clk_period_by_2; END LOOP; END PROCESS; -- Generation of Reset PROCESS BEGIN reset <= '1'; WAIT FOR 480 ns; reset <= '0'; WAIT; END PROCESS; -- Error message printing based on STATUS signal from fg_tb_synth PROCESS(status) BEGIN IF(status /= "0" AND status /= "1") THEN disp_str("STATUS:"); disp_hex(status); END IF; IF(status(7) = '1') THEN assert false report "Data mismatch found" severity error; END IF; IF(status(1) = '1') THEN END IF; IF(status(5) = '1') THEN assert false report "Empty flag Mismatch/timeout" severity error; END IF; IF(status(6) = '1') THEN assert false report "Full Flag Mismatch/timeout" severity error; END IF; END PROCESS; PROCESS BEGIN wait until sim_done = '1'; IF(status /= "0" AND status /= "1") THEN assert false report "Simulation failed" severity failure; ELSE assert false report "Simulation Complete" severity failure; END IF; END PROCESS; PROCESS BEGIN wait for 100 ms; assert false report "Test bench timed out" severity failure; END PROCESS; -- Instance of fg_tb_synth fg_tb_synth_inst:fg_tb_synth GENERIC MAP( FREEZEON_ERROR => 0, TB_STOP_CNT => 2, TB_SEED => 29 ) PORT MAP( CLK => wr_clk, RESET => reset, SIM_DONE => sim_done, STATUS => status ); END ARCHITECTURE;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity lzw is generic (num_blocks : integer := 4); Port ( clk : in std_logic; rst : in std_logic; --Input character from FIFO char_in : in std_logic_vector(7 downto 0); --Input character valid? (tie to NOT fifo_empty) input_valid : in std_logic; --How many characters is the input file file_size : in std_logic_vector(15 downto 0); --FIFO read acknowledgement input_rd : out std_logic; --Output data prefix_out : out std_logic_vector(11 downto 0); --Output data is valid, tie to output FIFO wr_en output_valid : out std_logic; --Done processing current file done : out std_logic); end lzw; architecture Behavioral of lzw is type state_type is (S_RST,S_WAIT,S_READ_FIRST_CHAR,S_READ,S_SEARCH); signal state : state_type; signal current_char : std_logic_vector(7 downto 0); signal current_prefix : std_logic_vector(11 downto 0); signal output_last_prefix : std_logic; signal start_search : std_logic; signal search_entry : std_logic_vector(19 downto 0); signal dict_wr : std_logic; signal wr_entry : std_logic_vector(19 downto 0); signal match_prefix : std_logic_vector(11 downto 0); signal entry_found : std_logic; signal search_completed : std_logic; signal dictionary_full : std_logic; signal eof : std_logic; signal bytes_read : std_logic_vector(15 downto 0); begin prefix_out <= current_prefix; GEN_DICT1: if num_blocks = 1 generate U_DICTIONARY : entity work.dictionary_block port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT1; GEN_DICT2: if num_blocks = 2 generate U_DICTIONARY : entity work.dictionary_2 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT2; GEN_DICT4: if num_blocks = 4 generate U_DICTIONARY : entity work.dictionary_4 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT4; search_entry(7 downto 0) <= current_char; search_entry(19 downto 8) <= current_prefix; wr_entry <= search_entry; --State machine and synchronous outputs process(clk,rst) begin if rst = '1' then state <= S_RST; current_char <= x"00"; current_prefix <= x"000"; start_search <= '0'; input_rd <= '0'; bytes_read <= (bytes_read'range => '0'); done <= '0'; elsif rising_edge(clk) then --default values input_rd <= '0'; start_search <= '0'; case state is when S_RST => state <= S_READ_FIRST_CHAR; when S_READ_FIRST_CHAR => if input_valid = '1' then current_prefix(7 downto 0) <= char_in; input_rd <= '1'; state <= S_WAIT; bytes_read <= x"0001"; done <= '0'; end if; when S_WAIT => input_rd <= '0'; state <= S_READ; --read in another character when S_READ => if input_valid = '1' then current_char <= char_in; start_search <= '1'; input_rd <= '1'; state <= S_SEARCH; bytes_read <= std_logic_vector(unsigned(bytes_read)+to_unsigned(1,16)); end if; when S_SEARCH => if search_completed = '1' then state <= S_READ; --if its found, save the prefix, read another char and look for another string if entry_found = '1' then current_prefix <= match_prefix; --otherwise we'll be writing to the dictionary (look at asynchronous outputs below) --and clearing out our saved values else current_char <= x"00"; current_prefix(11 downto 8) <= x"0"; current_prefix(7 downto 0) <= current_char; end if; if eof = '1' then state <= S_READ_FIRST_CHAR; done <= '1'; end if; end if; end case; end if; end process; --when we force the controller to output the last prefix value --we need to delay it by one cycle or else the wrong value is marked as valid process(clk,rst) begin if rst = '1' then output_last_prefix <= '0'; elsif rising_edge(clk) then if state = S_SEARCH and search_completed = '1' and entry_found = '1' and eof = '1' then output_last_prefix <= '1'; else output_last_prefix <= '0'; end if; end if; end process; --Asynchronous outputs process(state,search_completed,entry_found,dictionary_full,bytes_read,file_size) begin output_valid <= output_last_prefix; dict_wr <= '0'; --if we finished a search and no entry was found, write new entry to the dictionary --and output the current values if state = S_SEARCH and search_completed = '1' and entry_found = '0' then output_valid <= '1'; dict_wr <= not dictionary_full; end if; if bytes_read = file_size then eof <= '1'; else eof <= '0'; end if; end process; end Behavioral;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity lzw is generic (num_blocks : integer := 4); Port ( clk : in std_logic; rst : in std_logic; --Input character from FIFO char_in : in std_logic_vector(7 downto 0); --Input character valid? (tie to NOT fifo_empty) input_valid : in std_logic; --How many characters is the input file file_size : in std_logic_vector(15 downto 0); --FIFO read acknowledgement input_rd : out std_logic; --Output data prefix_out : out std_logic_vector(11 downto 0); --Output data is valid, tie to output FIFO wr_en output_valid : out std_logic; --Done processing current file done : out std_logic); end lzw; architecture Behavioral of lzw is type state_type is (S_RST,S_WAIT,S_READ_FIRST_CHAR,S_READ,S_SEARCH); signal state : state_type; signal current_char : std_logic_vector(7 downto 0); signal current_prefix : std_logic_vector(11 downto 0); signal output_last_prefix : std_logic; signal start_search : std_logic; signal search_entry : std_logic_vector(19 downto 0); signal dict_wr : std_logic; signal wr_entry : std_logic_vector(19 downto 0); signal match_prefix : std_logic_vector(11 downto 0); signal entry_found : std_logic; signal search_completed : std_logic; signal dictionary_full : std_logic; signal eof : std_logic; signal bytes_read : std_logic_vector(15 downto 0); begin prefix_out <= current_prefix; GEN_DICT1: if num_blocks = 1 generate U_DICTIONARY : entity work.dictionary_block port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT1; GEN_DICT2: if num_blocks = 2 generate U_DICTIONARY : entity work.dictionary_2 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT2; GEN_DICT4: if num_blocks = 4 generate U_DICTIONARY : entity work.dictionary_4 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT4; search_entry(7 downto 0) <= current_char; search_entry(19 downto 8) <= current_prefix; wr_entry <= search_entry; --State machine and synchronous outputs process(clk,rst) begin if rst = '1' then state <= S_RST; current_char <= x"00"; current_prefix <= x"000"; start_search <= '0'; input_rd <= '0'; bytes_read <= (bytes_read'range => '0'); done <= '0'; elsif rising_edge(clk) then --default values input_rd <= '0'; start_search <= '0'; case state is when S_RST => state <= S_READ_FIRST_CHAR; when S_READ_FIRST_CHAR => if input_valid = '1' then current_prefix(7 downto 0) <= char_in; input_rd <= '1'; state <= S_WAIT; bytes_read <= x"0001"; done <= '0'; end if; when S_WAIT => input_rd <= '0'; state <= S_READ; --read in another character when S_READ => if input_valid = '1' then current_char <= char_in; start_search <= '1'; input_rd <= '1'; state <= S_SEARCH; bytes_read <= std_logic_vector(unsigned(bytes_read)+to_unsigned(1,16)); end if; when S_SEARCH => if search_completed = '1' then state <= S_READ; --if its found, save the prefix, read another char and look for another string if entry_found = '1' then current_prefix <= match_prefix; --otherwise we'll be writing to the dictionary (look at asynchronous outputs below) --and clearing out our saved values else current_char <= x"00"; current_prefix(11 downto 8) <= x"0"; current_prefix(7 downto 0) <= current_char; end if; if eof = '1' then state <= S_READ_FIRST_CHAR; done <= '1'; end if; end if; end case; end if; end process; --when we force the controller to output the last prefix value --we need to delay it by one cycle or else the wrong value is marked as valid process(clk,rst) begin if rst = '1' then output_last_prefix <= '0'; elsif rising_edge(clk) then if state = S_SEARCH and search_completed = '1' and entry_found = '1' and eof = '1' then output_last_prefix <= '1'; else output_last_prefix <= '0'; end if; end if; end process; --Asynchronous outputs process(state,search_completed,entry_found,dictionary_full,bytes_read,file_size) begin output_valid <= output_last_prefix; dict_wr <= '0'; --if we finished a search and no entry was found, write new entry to the dictionary --and output the current values if state = S_SEARCH and search_completed = '1' and entry_found = '0' then output_valid <= '1'; dict_wr <= not dictionary_full; end if; if bytes_read = file_size then eof <= '1'; else eof <= '0'; end if; end process; end Behavioral;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity lzw is generic (num_blocks : integer := 4); Port ( clk : in std_logic; rst : in std_logic; --Input character from FIFO char_in : in std_logic_vector(7 downto 0); --Input character valid? (tie to NOT fifo_empty) input_valid : in std_logic; --How many characters is the input file file_size : in std_logic_vector(15 downto 0); --FIFO read acknowledgement input_rd : out std_logic; --Output data prefix_out : out std_logic_vector(11 downto 0); --Output data is valid, tie to output FIFO wr_en output_valid : out std_logic; --Done processing current file done : out std_logic); end lzw; architecture Behavioral of lzw is type state_type is (S_RST,S_WAIT,S_READ_FIRST_CHAR,S_READ,S_SEARCH); signal state : state_type; signal current_char : std_logic_vector(7 downto 0); signal current_prefix : std_logic_vector(11 downto 0); signal output_last_prefix : std_logic; signal start_search : std_logic; signal search_entry : std_logic_vector(19 downto 0); signal dict_wr : std_logic; signal wr_entry : std_logic_vector(19 downto 0); signal match_prefix : std_logic_vector(11 downto 0); signal entry_found : std_logic; signal search_completed : std_logic; signal dictionary_full : std_logic; signal eof : std_logic; signal bytes_read : std_logic_vector(15 downto 0); begin prefix_out <= current_prefix; GEN_DICT1: if num_blocks = 1 generate U_DICTIONARY : entity work.dictionary_block port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT1; GEN_DICT2: if num_blocks = 2 generate U_DICTIONARY : entity work.dictionary_2 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT2; GEN_DICT4: if num_blocks = 4 generate U_DICTIONARY : entity work.dictionary_4 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT4; search_entry(7 downto 0) <= current_char; search_entry(19 downto 8) <= current_prefix; wr_entry <= search_entry; --State machine and synchronous outputs process(clk,rst) begin if rst = '1' then state <= S_RST; current_char <= x"00"; current_prefix <= x"000"; start_search <= '0'; input_rd <= '0'; bytes_read <= (bytes_read'range => '0'); done <= '0'; elsif rising_edge(clk) then --default values input_rd <= '0'; start_search <= '0'; case state is when S_RST => state <= S_READ_FIRST_CHAR; when S_READ_FIRST_CHAR => if input_valid = '1' then current_prefix(7 downto 0) <= char_in; input_rd <= '1'; state <= S_WAIT; bytes_read <= x"0001"; done <= '0'; end if; when S_WAIT => input_rd <= '0'; state <= S_READ; --read in another character when S_READ => if input_valid = '1' then current_char <= char_in; start_search <= '1'; input_rd <= '1'; state <= S_SEARCH; bytes_read <= std_logic_vector(unsigned(bytes_read)+to_unsigned(1,16)); end if; when S_SEARCH => if search_completed = '1' then state <= S_READ; --if its found, save the prefix, read another char and look for another string if entry_found = '1' then current_prefix <= match_prefix; --otherwise we'll be writing to the dictionary (look at asynchronous outputs below) --and clearing out our saved values else current_char <= x"00"; current_prefix(11 downto 8) <= x"0"; current_prefix(7 downto 0) <= current_char; end if; if eof = '1' then state <= S_READ_FIRST_CHAR; done <= '1'; end if; end if; end case; end if; end process; --when we force the controller to output the last prefix value --we need to delay it by one cycle or else the wrong value is marked as valid process(clk,rst) begin if rst = '1' then output_last_prefix <= '0'; elsif rising_edge(clk) then if state = S_SEARCH and search_completed = '1' and entry_found = '1' and eof = '1' then output_last_prefix <= '1'; else output_last_prefix <= '0'; end if; end if; end process; --Asynchronous outputs process(state,search_completed,entry_found,dictionary_full,bytes_read,file_size) begin output_valid <= output_last_prefix; dict_wr <= '0'; --if we finished a search and no entry was found, write new entry to the dictionary --and output the current values if state = S_SEARCH and search_completed = '1' and entry_found = '0' then output_valid <= '1'; dict_wr <= not dictionary_full; end if; if bytes_read = file_size then eof <= '1'; else eof <= '0'; end if; end process; end Behavioral;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity lzw is generic (num_blocks : integer := 4); Port ( clk : in std_logic; rst : in std_logic; --Input character from FIFO char_in : in std_logic_vector(7 downto 0); --Input character valid? (tie to NOT fifo_empty) input_valid : in std_logic; --How many characters is the input file file_size : in std_logic_vector(15 downto 0); --FIFO read acknowledgement input_rd : out std_logic; --Output data prefix_out : out std_logic_vector(11 downto 0); --Output data is valid, tie to output FIFO wr_en output_valid : out std_logic; --Done processing current file done : out std_logic); end lzw; architecture Behavioral of lzw is type state_type is (S_RST,S_WAIT,S_READ_FIRST_CHAR,S_READ,S_SEARCH); signal state : state_type; signal current_char : std_logic_vector(7 downto 0); signal current_prefix : std_logic_vector(11 downto 0); signal output_last_prefix : std_logic; signal start_search : std_logic; signal search_entry : std_logic_vector(19 downto 0); signal dict_wr : std_logic; signal wr_entry : std_logic_vector(19 downto 0); signal match_prefix : std_logic_vector(11 downto 0); signal entry_found : std_logic; signal search_completed : std_logic; signal dictionary_full : std_logic; signal eof : std_logic; signal bytes_read : std_logic_vector(15 downto 0); begin prefix_out <= current_prefix; GEN_DICT1: if num_blocks = 1 generate U_DICTIONARY : entity work.dictionary_block port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT1; GEN_DICT2: if num_blocks = 2 generate U_DICTIONARY : entity work.dictionary_2 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT2; GEN_DICT4: if num_blocks = 4 generate U_DICTIONARY : entity work.dictionary_4 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT4; search_entry(7 downto 0) <= current_char; search_entry(19 downto 8) <= current_prefix; wr_entry <= search_entry; --State machine and synchronous outputs process(clk,rst) begin if rst = '1' then state <= S_RST; current_char <= x"00"; current_prefix <= x"000"; start_search <= '0'; input_rd <= '0'; bytes_read <= (bytes_read'range => '0'); done <= '0'; elsif rising_edge(clk) then --default values input_rd <= '0'; start_search <= '0'; case state is when S_RST => state <= S_READ_FIRST_CHAR; when S_READ_FIRST_CHAR => if input_valid = '1' then current_prefix(7 downto 0) <= char_in; input_rd <= '1'; state <= S_WAIT; bytes_read <= x"0001"; done <= '0'; end if; when S_WAIT => input_rd <= '0'; state <= S_READ; --read in another character when S_READ => if input_valid = '1' then current_char <= char_in; start_search <= '1'; input_rd <= '1'; state <= S_SEARCH; bytes_read <= std_logic_vector(unsigned(bytes_read)+to_unsigned(1,16)); end if; when S_SEARCH => if search_completed = '1' then state <= S_READ; --if its found, save the prefix, read another char and look for another string if entry_found = '1' then current_prefix <= match_prefix; --otherwise we'll be writing to the dictionary (look at asynchronous outputs below) --and clearing out our saved values else current_char <= x"00"; current_prefix(11 downto 8) <= x"0"; current_prefix(7 downto 0) <= current_char; end if; if eof = '1' then state <= S_READ_FIRST_CHAR; done <= '1'; end if; end if; end case; end if; end process; --when we force the controller to output the last prefix value --we need to delay it by one cycle or else the wrong value is marked as valid process(clk,rst) begin if rst = '1' then output_last_prefix <= '0'; elsif rising_edge(clk) then if state = S_SEARCH and search_completed = '1' and entry_found = '1' and eof = '1' then output_last_prefix <= '1'; else output_last_prefix <= '0'; end if; end if; end process; --Asynchronous outputs process(state,search_completed,entry_found,dictionary_full,bytes_read,file_size) begin output_valid <= output_last_prefix; dict_wr <= '0'; --if we finished a search and no entry was found, write new entry to the dictionary --and output the current values if state = S_SEARCH and search_completed = '1' and entry_found = '0' then output_valid <= '1'; dict_wr <= not dictionary_full; end if; if bytes_read = file_size then eof <= '1'; else eof <= '0'; end if; end process; end Behavioral;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2013, 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 ------------------------------------------------------------------------------- -- Entity: pwm_check -- File: pwm_check.vhd -- Author: Jonas Ekergarn - Aeroflex Gaisler (parts are copied from -- grtestmod.vhd) -- Description: Simulation unit that examines the PWMs generated by the GRPWM -- when software/leon3/grpwm.c is run. Note that pwm_check -- requires that the system includes an I/O memory interface -- and that grtestmod.vhd is instantiated in the system testbench. -- If the subtests in software/leon3/grpwm.c is modified then the -- configuration below and the procedure verify_subtest must be -- changed as well. ------------------------------------------------------------------------------- -- pragma translate_off library ieee, grlib, gaisler; use ieee.std_logic_1164.all; use std.textio.all; use grlib.stdlib.all; use grlib.stdio.all; use grlib.devices.all; use gaisler.sim.all; entity pwm_check is port ( clk : in std_ulogic; address : in std_logic_vector(21 downto 2); data : inout std_logic_vector(31 downto 0); iosn : in std_ulogic; oen : in std_ulogic; writen : in std_ulogic; pwm : in std_logic_vector(15 downto 0) ); end; architecture sim of pwm_check is signal ior, iow : std_ulogic; signal addr : std_logic_vector(21 downto 2); signal ldata : std_logic_vector(31 downto 0); signal pwmh : std_logic_vector(1 downto 0); signal pwmh0 : integer := 0; signal pwmh1 : integer := 1; ----------------------------------------------------------------------------- -- Configuration of the PWMs that should be verified ----------------------------------------------------------------------------- -- Number of "useful" words in the waveform ram. The core will read address -- 0 - (STX_WRAMSIZE-1). constant ST3_WRAMSIZE : integer := 32; constant ST4_WRAMSIZE : integer := 32; -- Number of periods to verify for each subtest. Verification of the very -- first period after PWM is started is skipped because there is no way of -- knowing exactly when it starts. It is assumed that the first period is -- correct. If it isn't then the verification of the other periods will fail -- as well. constant ST1_NPER : integer := 10; constant ST2_NPER : integer := 10; constant ST3_NPER : integer := 2ST3_WRAMSIZE; constant ST4_NPER : integer := 2ST4_WRAMSIZE; type st1_vector is array (0 to ST1_NPER) of integer; type st2_vector is array (0 to ST2_NPER) of integer; type st3_vector is array (0 to ST3_NPER) of integer; type st4_vector is array (0 to ST4_NPER) of integer; type st1_array is array (0 to 7) of st1_vector; type st2_array is array (0 to 7) of st2_vector; type st3_array is array (0 to 7) of st3_vector; type st4_array is array (0 to 7) of st4_vector; type wram_type is array (0 to 8191) of integer; -- Polarity for each PWM in the different subtests constant ST1_POL : std_logic_vector(7 downto 0) := (others=>'1'); constant ST2_POL : std_logic_vector(7 downto 0) := (others=>'1'); constant ST3_POL : std_logic_vector(7 downto 0) := (others=>'1'); constant ST4_POL : std_logic_vector(7 downto 0) := (others=>'1'); -- Period, compare, and dead band values for each pwm period in subtest 1, -- in clock cycles constant ST1_PER : st1_array := ( 0 => (others=>200), 1 => (others=>201), 2 => (others=>202), 3 => (others=>203), 4 => (others=>204), 5 => (others=>205), 6 => (others=>206), 7 => (others=>207)); constant ST1_COMPA : st1_array := ( 0 => (others=>100), 1 => (others=>101), 2 => (others=>102), 3 => (others=>103), 4 => (others=>104), 5 => (others=>105), 6 => (others=>106), 7 => (others=>107)); constant ST1_DB : st1_array := ( 0 => (others=>10), 1 => (others=>11), 2 => (others=>12), 3 => (others=>13), 4 => (others=>14), 5 => (others=>15), 6 => (others=>16), 7 => (others=>17)); -- Period, compare, and dead band values for each pwm period in subtest 2, -- in clock cycles constant ST2_PER : st2_array := ( 0 => (others=>200), 1 => (others=>202), 2 => (others=>204), 3 => (others=>206), 4 => (others=>208), 5 => (others=>210), 6 => (others=>212), 7 => (others=>214)); constant ST2_COMPA : st2_array := ( 0 => (others=>50), 1 => (others=>51), 2 => (others=>52), 3 => (others=>53), 4 => (others=>54), 5 => (others=>55), 6 => (others=>56), 7 => (others=>57)); constant ST2_DB : st2_array := ( 0 => (others=>10), 1 => (others=>11), 2 => (others=>12), 3 => (others=>13), 4 => (others=>14), 5 => (others=>15), 6 => (others=>16), 7 => (others=>17)); -- Period, compare, and dead band values for each pwm period in subtest 3, -- in clock cycles. (Only the PWM with the highest index is active during -- subtest 3, but since we here don't know how many PWM outputs there are, -- all get the same value) constant ST3_WRAM : wram_type := ( 32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55, 56,57,58,59,60,61,62,63, others=>0); constant ST3_PER : st3_array := ( 0 => (others=>200), 1 => (others=>200), 2 => (others=>200), 3 => (others=>200), 4 => (others=>200), 5 => (others=>200), 6 => (others=>200), 7 => (others=>200)); constant ST3_DB : st3_array := ( 0 => (others=>10), 1 => (others=>10), 2 => (others=>10), 3 => (others=>10), 4 => (others=>10), 5 => (others=>10), 6 => (others=>10), 7 => (others=>10)); -- Period, compare, and dead band values for each pwm period in subtest 4, -- in clock cycles. (Only the PWM with the highest index is active during -- subtest 4, but since we here don't know how many PWM outputs there are, -- all get the same value) constant ST4_WRAM : wram_type := ( 32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55, 56,57,58,59,60,61,62,63, others=>0); constant ST4_PER : st4_array := ( 0 => (others=>200), 1 => (others=>200), 2 => (others=>200), 3 => (others=>200), 4 => (others=>200), 5 => (others=>200), 6 => (others=>200), 7 => (others=>200)); constant ST4_DB : st4_array := ( 0 => (others=>10), 1 => (others=>10), 2 => (others=>10), 3 => (others=>10), 4 => (others=>10), 5 => (others=>10), 6 => (others=>10), 7 => (others=>10)); type pwm_int_array is array (0 to 7) of integer; type pwm_bool_array is array (0 to 7) of boolean; procedure verify_subtest ( constant subtest : in integer; constant npwm : in integer range 1 to 8; signal clk : in std_ulogic; signal pwm : in std_logic_vector(15 downto 0); signal pwmh : in std_logic_vector(1 downto 0)) is variable cnt : pwm_int_array := (others=>0); variable cnt2 : pwm_int_array := (others=>0); variable pcnt : pwm_int_array := (others=>0); variable parta : pwm_bool_array := (others=>false); variable partb : pwm_bool_array := (others=>false); variable partc : pwm_bool_array := (others=>false); variable partd : pwm_bool_array := (others=>false); variable done : pwm_bool_array := (others=>false); variable ST2_COMPB : st2_array; variable ST4_COMPB : st4_array; variable addr : integer; variable il, ih : integer; begin case subtest is when 1 => ------------------------------------------------------------------------- -- Subtest 1: npwm assymmetric PWM pairs are generated, all with -- different periods, compare values, and dead band values. Verify -- periods, compare matches, and dead band times. ------------------------------------------------------------------------- for i in 0 to 7 loop if npwm < i+1 then done(i) := true; end if; -- no dead band time is inserted in the very first pwm period after -- startup parta(i) := true; end loop; while not(done(0) and done(1) and done(2) and done(3) and done(4) and done(5) and done(6) and done(7)) loop wait until rising_edge(clk); for i in 0 to npwm-1 loop cnt(i) := cnt(i)+1; end loop; wait until (pwm'event or falling_edge(clk)); if clk = '1' then for i in 0 to npwm-1 loop if (not done(i)) then if (not parta(i)) then -- pwm is in time period between period start and when paired -- output goes active (after dead band time) if pwm(2i+1) = ST1_POL(i) then parta(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST1_DB(i)(pcnt(i)) then Print("ERROR: Wrong dead band (1) detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST1_DB(i)(pcnt(i)))); end if; end if; end if; elsif (not partb(i)) then -- pwm is in time period between paired output going active and -- paired output going inactive if pwm(2i+1) = (not ST1_POL(i)) then partb(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST1_COMPA(i)(pcnt(i)) then Print("ERROR: Wrong compare match detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST1_COMPA(i)(pcnt(i)))); end if; if ST1_DB(i)(pcnt(i)) = 0 then partc(i) := true; if pwm(2i) /= ST1_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partc(i)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwm(2i) = ST1_POL(i) then partc(i) := true; if pcnt(i) /= 0 then if cnt(i) /= (ST1_COMPA(i)(pcnt(i)) + ST1_DB(i)(pcnt(i))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)-ST1_COMPA(i)(pcnt(i))) & ", should be " & tost(ST1_DB(i)(pcnt(i)))); end if; end if; end if; else -- pwm is in time period between output going active and period end -- (output going inactive) if pwm(2i) = (not ST1_POL(i)) then parta(i) := false; partb(i) := false; partc(i) := false; if pcnt(i) /= 0 then if cnt(i) /= ST1_PER(i)(pcnt(i)) then Print("ERROR: Wrong PWM period detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST1_PER(i)(pcnt(i)))); end if; end if; if pcnt(i) = ST1_NPER then done(i) := true; end if; pcnt(i) := pcnt(i)+1; cnt(i) := 0; if pcnt(i) < ST1_NPER then if ST1_DB(i)(pcnt(i)) = 0 then parta(i) := true; if pwm(2i+1) /= ST1_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; end if; end if; end loop; end if; end loop; when 2 => ------------------------------------------------------------------------- -- Subtest 2: npwm symmetric PWM pairs are generated, all with -- different periods, compare values, and dead band values. Verify -- periods, compare matches, and dead band times ------------------------------------------------------------------------- for i in 0 to 7 loop for j in 0 to ST2_NPER loop ST2_COMPB(i)(j) := ST2_PER(i)(j)-ST2_COMPA(i)(j); end loop; if npwm < i+1 then done(i) := true; end if; end loop; while not(done(0) and done(1) and done(2) and done(3) and done(4) and done(5) and done(6) and done(7)) loop wait until rising_edge(clk); for i in 0 to npwm-1 loop cnt(i) := cnt(i)+1; cnt2(i) := cnt2(i)+1; end loop; wait until (pwm'event or falling_edge(clk)); if clk = '1' then for i in 0 to npwm-1 loop if (not done(i)) then if (not parta(i)) then -- pwm is in time period between period start and when paired -- output goes inactive if pwm(2i+1) = (not ST2_POL(i)) then parta(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST2_COMPA(i)(pcnt(i)) then Print("ERROR: Wrong compare match 1 detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST2_COMPA(i)(pcnt(i)))); end if; if ST2_DB(i)(pcnt(i)) = 0 then partb(i) := true; if pwm(2i) /= ST2_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partb(i)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwm(2i) = ST2_POL(i) then partb(i) := true; if pcnt(i) /= 0 then if cnt(i) /= (ST2_COMPA(i)(pcnt(i)) + ST2_DB(i)(pcnt(i))) then Print("ERROR: Wrong dead band (1) time detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)-ST2_COMPA(i)(pcnt(i))) & ", should be " & tost(ST2_DB(i)(pcnt(i)))); end if; end if; end if; elsif (not partc(i)) then -- pwm is in time period between output going active and -- output going inactive if pwm(2i) = (not ST2_POL(i)) then partc(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST2_COMPB(i)(pcnt(i)) then Print("ERROR: Wrong compare match (2) detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST2_COMPB(i)(pcnt(i)))); end if; if ST2_DB(i)(pcnt(i)) = 0 then partd(i) := true; if pwm(2i+1) /= ST2_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; else if ST2_DB(i)(0) = 0 then cnt2(i) := 0; partd(i) := true; end if; end if; end if; elsif (not partd(i)) then -- pwm is in time period between output going inactive and -- paired output going active (after dead band time) if pwm(2i+1) = ST2_POL(i) then partd(i) := true; if pcnt(i) /= 0 then if cnt(i) /= (ST2_COMPB(i)(pcnt(i)) + ST2_DB(i)(pcnt(i))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)-ST2_COMPB(i)(pcnt(i))) & ", should be " & tost(ST2_DB(i)(pcnt(i)))); end if; else cnt2(i) := 0; end if; end if; end if; end if; end loop; end if; for i in 0 to npwm-1 loop if (not done(i)) then if partd(i) then -- pwm is in time period between paired output going active -- and period end if pcnt(i) /= 0 then if cnt(i) = ST2_PER(i)(pcnt(i)) then parta(i) := false; partb(i) := false; partc(i) := false; partd(i) := false; pcnt(i) := pcnt(i)+1; cnt(i) := 0; end if; else if (cnt2(i)+ST2_COMPB(i)(0)+ST2_DB(i)(0)) = ST2_PER(i)(0) then parta(i) := false; partb(i) := false; partc(i) := false; partd(i) := false; pcnt(i) := pcnt(i)+1; cnt(i) := 0; end if; end if; if pcnt(i) = ST2_NPER then done(i) := true; end if; end if; end if; end loop; end loop; when 3 => ------------------------------------------------------------------------- -- Subtest 3: One asymmetric waveform PWM is generated. Verify period, -- compare matches and dead band time ------------------------------------------------------------------------- parta(npwm-1) := true; while not done(npwm-1) loop wait until rising_edge(clk); cnt(npwm-1) := cnt(npwm-1)+1; wait until (pwmh'event or falling_edge(clk)); if clk = '1' then addr := pcnt(npwm-1) - (pcnt(npwm-1)/ST3_WRAMSIZE)ST3_WRAMSIZE; if (not parta(npwm-1)) then -- pwm is in time period between period start and when paired -- output goes active (after dead band time) if pwmh(1) = ST3_POL(npwm-1) then parta(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST3_DB(npwm-1)(pcnt(npwm-1)) then Print("ERROR: Wrong dead band (1) detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST3_DB(npwm-1)(pcnt(npwm-1)))); end if; end if; end if; elsif (not partb(npwm-1)) then -- pwm is in time period between paired output going active and -- paired output going inactive if pwmh(1) = (not ST3_POL(npwm-1)) then partb(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST3_WRAM(addr) then Print("ERROR: Wrong compare match detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST3_WRAM(addr))); end if; if ST3_DB(npwm-1)(pcnt(npwm-1)) = 0 then partc(npwm-1) := true; if pwmh(0) /= ST3_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partc(npwm-1)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwmh(0) = ST3_POL(npwm-1) then partc(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= (ST3_WRAM(addr) + ST3_DB(npwm-1)(pcnt(npwm-1))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)-ST3_WRAM(addr)) & ", should be " & tost(ST3_DB(npwm-1)(pcnt(npwm-1)))); end if; end if; end if; else -- pwm is in time period between output going active and period end -- (output going inactive) if pwmh(0) = (not ST3_POL(npwm-1)) then parta(npwm-1) := false; partb(npwm-1) := false; partc(npwm-1) := false; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST3_PER(npwm-1)(pcnt(npwm-1)) then Print("ERROR: Wrong PWM period detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST3_PER(npwm-1)(pcnt(npwm-1)))); end if; end if; if pcnt(npwm-1) = ST3_NPER then done(npwm-1) := true; end if; pcnt(npwm-1) := pcnt(npwm-1)+1; cnt(npwm-1) := 0; if pcnt(npwm-1) < ST3_NPER then if ST3_DB(npwm-1)(pcnt(npwm-1)) = 0 then parta(npwm-1) := true; if pwmh(1) /= ST3_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; end if; end if; end loop; when 4 => ------------------------------------------------------------------------- -- Subtest 4: One symmetric waveform PWM is generated. Verify period, -- compare matches, and dead band time ------------------------------------------------------------------------- for j in 0 to ST4_NPER loop addr := j - (j/ST4_WRAMSIZE)ST4_WRAMSIZE; ST4_COMPB(npwm-1)(j) := ST4_PER(npwm-1)(j)-ST4_WRAM(addr); end loop; while not done(npwm-1) loop wait until rising_edge(clk); cnt(npwm-1) := cnt(npwm-1)+1; cnt2(npwm-1) := cnt2(npwm-1)+1; wait until (pwmh'event or falling_edge(clk)); if clk = '1' then addr := pcnt(npwm-1) - (pcnt(npwm-1)/ST4_WRAMSIZE)ST4_WRAMSIZE; if (not parta(npwm-1)) then -- pwm is in time period between period start and when paired -- output goes inactive if pwmh(1) = (not ST4_POL(npwm-1)) then parta(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST4_WRAM(addr) then Print("ERROR: Wrong compare match 1 detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST4_WRAM(addr))); end if; if ST4_DB(npwm-1)(pcnt(npwm-1)) = 0 then partb(npwm-1) := true; if pwmh(0) /= ST4_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partb(npwm-1)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwmh(0) = ST4_POL(npwm-1) then partb(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= (ST4_WRAM(addr) + ST4_DB(npwm-1)(pcnt(npwm-1))) then Print("ERROR: Wrong dead band (1) time detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)-ST4_WRAM(addr)) & ", should be " & tost(ST4_DB(npwm-1)(pcnt(npwm-1)))); end if; end if; end if; elsif (not partc(npwm-1)) then -- pwm is in time period between output going active and -- output going inactive if pwmh(0) = (not ST4_POL(npwm-1)) then partc(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST4_COMPB(npwm-1)(pcnt(npwm-1)) then Print("ERROR: Wrong compare match (2) detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST4_COMPB(npwm-1)(pcnt(npwm-1)))); end if; if ST4_DB(npwm-1)(pcnt(npwm-1)) = 0 then partd(npwm-1) := true; if pwmh(1) /= ST4_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; else if ST4_DB(npwm-1)(0) = 0 then cnt2(npwm-1) := 0; partd(npwm-1) := true; end if; end if; end if; elsif (not partd(npwm-1)) then -- pwm is in time period between output going inactive and -- paired output going active (after dead band time) if pwmh(1) = ST4_POL(npwm-1) then partd(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= (ST4_COMPB(npwm-1)(pcnt(npwm-1)) + ST4_DB(npwm-1)(pcnt(npwm-1))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)-ST4_COMPB(npwm-1)(pcnt(npwm-1))) & ", should be " & tost(ST4_DB(npwm-1)(pcnt(npwm-1)))); end if; else cnt2(npwm-1) := 0; end if; end if; end if; end if; if partd(npwm-1) then -- pwm is in time period between paired output going active -- and period end if pcnt(npwm-1) /= 0 then if cnt(npwm-1) = ST4_PER(npwm-1)(pcnt(npwm-1)) then parta(npwm-1) := false; partb(npwm-1) := false; partc(npwm-1) := false; partd(npwm-1) := false; pcnt(npwm-1) := pcnt(npwm-1)+1; cnt(npwm-1) := 0; end if; else if (cnt2(npwm-1)+ST4_COMPB(npwm-1)(0)+ST4_DB(npwm-1)(0)) = ST4_PER(npwm-1)(0) then parta(npwm-1) := false; partb(npwm-1) := false; partc(npwm-1) := false; partd(npwm-1) := false; pcnt(npwm-1) := pcnt(npwm-1)+1; cnt(npwm-1) := 0; end if; end if; if pcnt(npwm-1) = ST4_NPER then done(npwm-1) := true; end if; end if; end loop; when others => null; end case; end verify_subtest; begin ior <= iosn or oen; iow <= iosn or writen; data <= (others => 'Z'); addr <= to_X01(address) when rising_edge(clk) else addr; ldata <= to_X01(data) when rising_edge(clk) else ldata; pwmh <= pwm(pwmh1 downto pwmh0); process variable vid, did, subtest : integer; variable npwm : integer := 8; begin pwmh0 <= 2(npwm-1); pwmh1 <= 2*(npwm-1)+1; wait until ((rising_edge(ior) nor falling_edge(ior)) and rising_edge(iow)); case addr(7 downto 2) is when "000000" => vid := conv_integer(ldata(31 downto 24)); did := conv_integer(ldata(23 downto 12)); when "000010" => subtest := conv_integer(ldata(7 downto 0)); if vid = VENDOR_GAISLER and did = GAISLER_PWM then if subtest > 246 then -- set npwm npwm := 255 - subtest; else verify_subtest(subtest, npwm, clk, pwm, pwmh); end if; end if; when others => end case; end process; end sim; -- pragma translate_on
-- 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: tc2869.vhd,v 1.2 2001-10-26 16:30:23 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s01b00x00p03n01i02869ent IS END c02s01b00x00p03n01i02869ent; ARCHITECTURE c02s01b00x00p03n01i02869arch OF c02s01b00x00p03n01i02869ent IS procedure (I1:Bit); --Failure here BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s01b00x00p03n01i02869 - Missing designator." severity ERROR; wait; END PROCESS TESTING; END c02s01b00x00p03n01i02869arch;
-- 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: tc2869.vhd,v 1.2 2001-10-26 16:30:23 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s01b00x00p03n01i02869ent IS END c02s01b00x00p03n01i02869ent; ARCHITECTURE c02s01b00x00p03n01i02869arch OF c02s01b00x00p03n01i02869ent IS procedure (I1:Bit); --Failure here BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s01b00x00p03n01i02869 - Missing designator." severity ERROR; wait; END PROCESS TESTING; END c02s01b00x00p03n01i02869arch;
-- 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: tc2869.vhd,v 1.2 2001-10-26 16:30:23 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s01b00x00p03n01i02869ent IS END c02s01b00x00p03n01i02869ent; ARCHITECTURE c02s01b00x00p03n01i02869arch OF c02s01b00x00p03n01i02869ent IS procedure (I1:Bit); --Failure here BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s01b00x00p03n01i02869 - Missing designator." severity ERROR; wait; END PROCESS TESTING; END c02s01b00x00p03n01i02869arch;
library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.NUMERIC_STD.all; use IEEE.MATH_REAL.ALL; entity Arbiter_checkers is port ( Req_N, Req_E, Req_W, Req_S, Req_L :in std_logic; DCTS: in std_logic; Grant_N, Grant_E, Grant_W, Grant_S, Grant_L: in std_logic; Xbar_sel : in std_logic_vector(4 downto 0); state: in std_logic_vector (5 downto 0); state_in: in std_logic_vector (5 downto 0); next_state_out: in std_logic_vector (5 downto 0); RTS_FF: in std_logic; RTS_FF_in: in std_logic; -- Checker outputs err_state_IDLE_xbar, err_state_not_IDLE_xbar, err_state_IDLE_RTS_FF_in, err_state_not_IDLE_RTS_FF_RTS_FF_in, err_state_not_IDLE_DCTS_RTS_FF_RTS_FF_in, err_state_not_IDLE_not_DCTS_RTS_FF_RTS_FF_in, err_RTS_FF_not_DCTS_state_state_in, err_not_RTS_FF_state_in_next_state, err_RTS_FF_DCTS_state_in_next_state, err_not_DCTS_Grants, err_DCTS_not_RTS_FF_Grants, err_DCTS_RTS_FF_IDLE_Grants, err_DCTS_RTS_FF_not_IDLE_Grants_onehot, err_Requests_next_state_IDLE, err_IDLE_Req_L, err_Local_Req_L, err_North_Req_N, err_East_Req_E, err_West_Req_W, err_South_Req_S, err_IDLE_Req_N, err_Local_Req_N, err_North_Req_E, err_East_Req_W, err_West_Req_S, err_South_Req_L, err_IDLE_Req_E, err_Local_Req_E, err_North_Req_W, err_East_Req_S, err_West_Req_L, err_South_Req_N, err_IDLE_Req_W, err_Local_Req_W, err_North_Req_S, err_East_Req_L, err_West_Req_N, err_South_Req_E, err_IDLE_Req_S, err_Local_Req_S, err_North_Req_L, err_East_Req_N, err_West_Req_E, err_South_Req_W, err_next_state_onehot, err_state_in_onehot, err_DCTS_RTS_FF_state_Grant_L, err_DCTS_RTS_FF_state_Grant_N, err_DCTS_RTS_FF_state_Grant_E, err_DCTS_RTS_FF_state_Grant_W, err_DCTS_RTS_FF_state_Grant_S, err_state_north_xbar_sel, err_state_east_xbar_sel, err_state_west_xbar_sel, err_state_south_xbar_sel, err_state_local_xbar_sel : out std_logic ); end Arbiter_checkers; architecture behavior of Arbiter_checkers is CONSTANT IDLE: std_logic_vector (5 downto 0) := "000001"; CONSTANT Local: std_logic_vector (5 downto 0) := "000010"; CONSTANT North: std_logic_vector (5 downto 0) := "000100"; CONSTANT East: std_logic_vector (5 downto 0) := "001000"; CONSTANT West: std_logic_vector (5 downto 0) := "010000"; CONSTANT South: std_logic_vector (5 downto 0) := "100000"; SIGNAL Requests: std_logic_vector (4 downto 0); SIGNAL Grants: std_logic_vector (4 downto 0); begin Requests <= Req_N & Req_E & Req_W & Req_S & Req_L; Grants <= Grant_N & Grant_E & Grant_W & Grant_S & Grant_L; -- Checkers --checked process (Xbar_sel, state) begin if (state = IDLE and Xbar_sel /= "00000") then err_state_IDLE_xbar <= '1'; else err_state_IDLE_xbar <= '0'; end if; end process; --checked process (state, Xbar_sel) begin if ( state /= IDLE and Xbar_sel /= "00001" and Xbar_sel /= "00010" and Xbar_sel /= "00100" and Xbar_sel /= "01000" and Xbar_sel /= "10000") then err_state_not_IDLE_xbar <= '1'; else err_state_not_IDLE_xbar <= '0'; end if; end process; --checked process (state, RTS_FF_in) begin if (state = IDLE and RTS_FF_in = '1') then err_state_IDLE_RTS_FF_in <= '1'; else err_state_IDLE_RTS_FF_in <= '0'; end if; end process; --checked process (state, RTS_FF, RTS_FF_in) begin if ( (state = North or state = East or state = West or state = South or state = Local) and RTS_FF = '0' and RTS_FF = '0' and RTS_FF_in = '0') then err_state_not_IDLE_RTS_FF_RTS_FF_in <= '1'; else err_state_not_IDLE_RTS_FF_RTS_FF_in <= '0'; end if; end process; --checked process (state, DCTS, RTS_FF, RTS_FF_in) begin if ( (state = North or state = East or state = West or state = South or state = Local) and RTS_FF = '1' and DCTS = '1' and RTS_FF_in = '1') then err_state_not_IDLE_DCTS_RTS_FF_RTS_FF_in <= '1'; else err_state_not_IDLE_DCTS_RTS_FF_RTS_FF_in <= '0'; end if; end process; --checked process (state, DCTS, RTS_FF, RTS_FF_in) begin if ( (state = North or state = East or state = West or state = South or state = Local) and RTS_FF = '1' and DCTS = '0' and RTS_FF_in = '0') then err_state_not_IDLE_not_DCTS_RTS_FF_RTS_FF_in <= '1'; else err_state_not_IDLE_not_DCTS_RTS_FF_RTS_FF_in <= '0'; end if; end process; --checked process (RTS_FF, DCTS, state, state_in) begin if (RTS_FF = '1' and DCTS = '0' and state /= state_in) then err_RTS_FF_not_DCTS_state_state_in <= '1'; else err_RTS_FF_not_DCTS_state_state_in <= '0'; end if; end process; --checked process (RTS_FF, state_in, next_state_out) begin if (RTS_FF = '0' and state_in /= next_state_out) then err_not_RTS_FF_state_in_next_state <= '1'; else err_not_RTS_FF_state_in_next_state <= '0'; end if; end process; --checked process (RTS_FF, DCTS, state_in, next_state_out) begin if (RTS_FF = '1' and DCTS = '1' and state_in /= next_state_out) then err_RTS_FF_DCTS_state_in_next_state <= '1'; else err_RTS_FF_DCTS_state_in_next_state <= '0'; end if; end process; --checked process (RTS_FF, Grants) begin if (RTS_FF = '0' and Grants /= "00000") then err_not_DCTS_Grants <= '1'; else err_not_DCTS_Grants <= '0'; end if; end process; --checked process (DCTS, RTS_FF, Grants) begin if (RTS_FF = '1' and DCTS = '0' and Grants /= "00000") then err_DCTS_not_RTS_FF_Grants <= '1'; else err_DCTS_not_RTS_FF_Grants <= '0'; end if; end process; --checked process (DCTS, RTS_FF, state, Grants) begin if (DCTS = '1' and RTS_FF = '1' and state = IDLE and Grants /= "00000") then err_DCTS_RTS_FF_IDLE_Grants <= '1'; else err_DCTS_RTS_FF_IDLE_Grants <= '0'; end if; end process; --checked process (DCTS, RTS_FF, state, Grants) begin if (DCTS = '1' and RTS_FF = '1' and state /= IDLE and Grants /= "00001" and Grants /= "00010" and Grants /= "00100" and Grants /= "01000" and Grants /= "10000") then err_DCTS_RTS_FF_not_IDLE_Grants_onehot <= '1'; else err_DCTS_RTS_FF_not_IDLE_Grants_onehot <= '0'; end if; end process; --checked process (state, Requests, next_state_out) begin if ( (state = North or state = East or state = West or state = South or state = Local or state = IDLE) and Requests = "00000" and next_state_out /= IDLE ) then err_Requests_next_state_IDLE <= '1'; else err_Requests_next_state_IDLE <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 1 --checked process (state, Req_L, next_state_out) begin if ( state = IDLE and Req_L = '1' and next_state_out /= Local) then err_IDLE_Req_L <= '1'; else err_IDLE_Req_L <= '0'; end if; end process; process (state, Req_L, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /= West and state /= South and Req_L = '1' and next_state_out /= Local) then err_Local_Req_L <= '1'; else err_Local_Req_L <= '0'; end if; end process; --checked process (state, Req_N, next_state_out) begin if (state = North and Req_N = '1' and next_state_out /= North) then err_North_Req_N <= '1'; else err_North_Req_N <= '0'; end if; end process; ----checked process (state, Req_E, next_state_out) begin if (state = East and Req_E = '1' and next_state_out /= East) then err_East_Req_E <= '1'; else err_East_Req_E <= '0'; end if; end process; ----checked process (state, Req_W, next_state_out) begin if (state = West and Req_W = '1' and next_state_out /= West) then err_West_Req_W <= '1'; else err_West_Req_W <= '0'; end if; end process; ----checked process (state, Req_S, next_state_out) begin if (state = South and Req_S = '1' and next_state_out /= South) then err_South_Req_S <= '1'; else err_South_Req_S <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 2 --checked process (state, Req_L, Req_N, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_IDLE_Req_N <= '1'; else err_IDLE_Req_N <= '0'; end if; end process; process (state, Req_L, Req_N, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_Local_Req_N <= '1'; else err_Local_Req_N <= '0'; end if; end process; ----checked process (state, Req_N, Req_E, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_North_Req_E <= '1'; else err_North_Req_E <= '0'; end if; end process; process (state, Req_E, Req_W, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_East_Req_W <= '1'; else err_East_Req_W <= '0'; end if; end process; process (state, Req_W, Req_S, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_West_Req_S <= '1'; else err_West_Req_S <= '0'; end if; end process; process (state, Req_S, Req_L, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_South_Req_L <= '1'; else err_South_Req_L <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 3 process (state, Req_L, Req_N, Req_E, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_IDLE_Req_E <= '1'; else err_IDLE_Req_E <= '0'; end if; end process; process (state, Req_L, Req_N, Req_E, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_Local_Req_E <= '1'; else err_Local_Req_E <= '0'; end if; end process; process (state, Req_N, Req_E, Req_W, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_North_Req_W <= '1'; else err_North_Req_W <= '0'; end if; end process; process (state, Req_E, Req_W, Req_S, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_East_Req_S <= '1'; else err_East_Req_S <= '0'; end if; end process; process (state, Req_W, Req_S, Req_L, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_West_Req_L <= '1'; else err_West_Req_L <= '0'; end if; end process; process (state, Req_S, Req_L, Req_N, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_South_Req_N <= '1'; else err_South_Req_N <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 4 process (state, Req_L, Req_N, Req_E, Req_W, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_IDLE_Req_W <= '1'; else err_IDLE_Req_W <= '0'; end if; end process; process (state, Req_L, Req_N, Req_E, Req_W, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_Local_Req_W <= '1'; else err_Local_Req_W <= '0'; end if; end process; process (state, Req_N, Req_E, Req_W, Req_S, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_North_Req_S <= '1'; else err_North_Req_S <= '0'; end if; end process; process (state, Req_E, Req_W, Req_S, Req_L, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '0' and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_East_Req_L <= '1'; else err_East_Req_L <= '0'; end if; end process; process (state, Req_W, Req_S, Req_L, Req_N, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '0' and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_West_Req_N <= '1'; else err_West_Req_N <= '0'; end if; end process; process (state, Req_S, Req_L, Req_N, Req_E, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_South_Req_E <= '1'; else err_South_Req_E <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 5 process (state, Req_L, Req_N, Req_E, Req_W, Req_S, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_IDLE_Req_S <= '1'; else err_IDLE_Req_S <= '0'; end if; end process; process (state, Req_L, Req_N, Req_E, Req_W, Req_S, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_Local_Req_S <= '1'; else err_Local_Req_S <= '0'; end if; end process; process (state, Req_N, Req_E, Req_W, Req_S, Req_L, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_North_Req_L <= '1'; else err_North_Req_L <= '0'; end if; end process; process (state, Req_E, Req_W, Req_S, Req_L, Req_N, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '0' and Req_S = '0' and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_East_Req_N <= '1'; else err_East_Req_N <= '0'; end if; end process; process (state, Req_W, Req_S, Req_L, Req_N, Req_E, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '0' and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_West_Req_E <= '1'; else err_West_Req_E <= '0'; end if; end process; process (state, Req_S, Req_L, Req_N, Req_E, Req_W, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_South_Req_W <= '1'; else err_South_Req_W <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- process (next_state_out) begin if (next_state_out /= IDLE and next_state_out /= North and next_state_out /= East and next_state_out /= West and next_state_out /= South and next_state_out /= Local) then err_next_state_onehot <= '1'; else err_next_state_onehot <= '0'; end if; end process; process (state_in) begin if (state_in /= IDLE and state_in /= North and state_in /= East and state_in /= West and state_in /= South and state_in /= Local) then err_state_in_onehot <= '1'; else err_state_in_onehot <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_L) begin if (DCTS = '1' and RTS_FF = '1' and state /= IDLE and state /= North and state /=East and state /=West and state /= South and Grant_L = '0' ) then err_DCTS_RTS_FF_state_Grant_L <= '1'; else err_DCTS_RTS_FF_state_Grant_L <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_N) begin if (DCTS = '1' and RTS_FF = '1' and state = North and Grant_N = '0' ) then err_DCTS_RTS_FF_state_Grant_N <= '1'; else err_DCTS_RTS_FF_state_Grant_N <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_E) begin if (DCTS = '1' and RTS_FF = '1' and state = East and Grant_E = '0' ) then err_DCTS_RTS_FF_state_Grant_E <= '1'; else err_DCTS_RTS_FF_state_Grant_E <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_W) begin if (DCTS = '1' and RTS_FF = '1' and state = West and Grant_W = '0' ) then err_DCTS_RTS_FF_state_Grant_W <= '1'; else err_DCTS_RTS_FF_state_Grant_W <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_S) begin if (DCTS = '1' and RTS_FF = '1' and state = South and Grant_S = '0' ) then err_DCTS_RTS_FF_state_Grant_S <= '1'; else err_DCTS_RTS_FF_state_Grant_S <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = North and Xbar_sel /= "00001" ) then err_state_north_xbar_sel <= '1'; else err_state_north_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = East and Xbar_sel /= "00010" ) then err_state_east_xbar_sel <= '1'; else err_state_east_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = West and Xbar_sel /= "00100" ) then err_state_west_xbar_sel <= '1'; else err_state_west_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = South and Xbar_sel /= "01000" ) then err_state_south_xbar_sel <= '1'; else err_state_south_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state /= IDLE and state /= North and state /= East and state /= West and state /= South and Xbar_sel /= "10000" ) then err_state_local_xbar_sel <= '1'; else err_state_local_xbar_sel <= '0'; end if; end process; end behavior;
-- rgbctl_gen.vhd -- Jan Viktorin <xvikto03@stud.fit.vutbr.cz> -- Copyright (C) 2011, 2012 Jan Viktorin library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; library proc_common_v3_00_a; use proc_common_v3_00_a.proc_common_pkg.log2; entity rgbctl_gen is generic ( HBP : integer := 48; HDP : integer := 640; HFP : integer := 16; VBP : integer := 33; VDP : integer := 480; VFP : integer := 10; HPULSE : integer := 96; VPULSE : integer := 2 ); port ( CLK : in std_logic; RST : in std_logic; HS : out std_logic; VS : out std_logic; DE : out std_logic ); end entity; architecture full of rgbctl_gen is constant HPIXELS : integer := HPULSE + HBP + HDP + HFP; constant VLINES : integer := VPULSE + VBP + VDP + VFP; signal cnt_horiz : std_logic_vector(log2(HPIXELS) - 1 downto 0); signal cnt_horiz_ce : std_logic; signal cnt_horiz_o : std_logic; signal cnt_vert : std_logic_vector(log2(VLINES) - 1 downto 0); signal cnt_vert_ce : std_logic; signal cnt_vert_clr : std_logic; signal hdp_active : std_logic; signal vdp_active : std_logic; signal hpulse_active : std_logic; signal vpulse_active : std_logic; begin hdp_active <= '1' when cnt_horiz >= HPULSE + HBP and cnt_horiz < HPULSE + HBP + HDP else '0'; vdp_active <= '1' when cnt_vert >= VPULSE + VBP and cnt_vert < VPULSE + VBP + VDP else '0'; hpulse_active <= '1' when cnt_horiz < HPULSE else '0'; vpulse_active <= '1' when cnt_vert < VPULSE else '0'; DE <= hdp_active and vdp_active; -- negative logic: HS <= not hpulse_active; VS <= not vpulse_active; -------------------- cnt_horiz_ce <= '1'; cnt_vert_ce <= cnt_horiz_o; -------------------- cnt_horizp : process(CLK, RST, cnt_horiz_ce) begin if rising_edge(CLK) then if RST = '1' then cnt_horiz <= (others => '0'); elsif cnt_horiz_ce = '1' then if cnt_horiz = HPIXELS - 1 then cnt_horiz <= (others => '0'); else cnt_horiz <= cnt_horiz + 1; end if; end if; end if; end process; cnt_horiz_o <= '1' when cnt_horiz = HPIXELS - 1 else '0'; -------------------- cnt_vertp : process(CLK, RST, cnt_vert_ce) begin if rising_edge(CLK) then if RST = '1' then cnt_vert <= (others => '0'); elsif cnt_vert_ce = '1' then if cnt_vert = VLINES - 1 then cnt_vert <= (others => '0'); else cnt_vert <= cnt_vert + 1; end if; end if; end if; end process; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.mem_bus_pkg.all; use work.tl_flat_memory_model_pkg.all; entity mem_bus_32_slave_bfm is generic ( g_name : string; g_latency : positive := 2 ); port ( clock : in std_logic; req : in t_mem_req_32; resp : out t_mem_resp_32 ); end mem_bus_32_slave_bfm; architecture bfm of mem_bus_32_slave_bfm is shared variable mem : h_mem_object; signal bound : boolean := false; signal pipe : t_mem_req_32_array(0 to g_latency-1) := (others => c_mem_req_32_init); begin -- this process registers this instance of the bfm to the server package bind: process begin register_mem_model(mem_bus_32_slave_bfm'path_name, g_name, mem); bound <= true; wait; end process; resp.rack <= '1' when bound and req.request='1' else '0'; resp.rack_tag <= req.tag when bound and req.request='1' else (others => '0'); process(clock) variable data : std_logic_vector(31 downto 0); variable word_addr : unsigned(31 downto 2); variable byte_addr : unsigned(1 downto 0); begin if rising_edge(clock) then pipe(0 to g_latency-2) <= pipe(1 to g_latency-1); pipe(g_latency-1) <= req; resp.dack_tag <= (others => '0'); resp.data <= (others => '0'); if bound then if pipe(0).request='1' then if pipe(0).read_writen='1' then resp.dack_tag <= pipe(0).tag; data := read_memory_32(mem, "000000" & std_logic_vector(pipe(0).address)); if pipe(0).address(1 downto 0) = "00" then resp.data <= data; elsif pipe(0).address(1 downto 0) = "01" then resp.data <= data(7 downto 0) & data(31 downto 8); elsif pipe(0).address(1 downto 0) = "10" then resp.data <= data(15 downto 0) & data(31 downto 16); else resp.data <= data(23 downto 0) & data(31 downto 24); end if; else word_addr := "000000" & pipe(0).address(25 downto 2); byte_addr := pipe(0).address(1 downto 0); for i in 0 to 3 loop if pipe(0).byte_en(i) = '1' then write_memory_8(mem, std_logic_vector(word_addr) & std_logic_vector(byte_addr), pipe(0).data(7+8i downto 8i)); end if; byte_addr := byte_addr + 1; end loop; end if; end if; end if; end if; end process; end bfm;
------------------------------------------------------------------------------ -- 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 - 2016, 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 ----------------------------------------------------------------------------- -- Package: libfpu -- File: libfpu.vhd -- Author: Jiri Gaisler, Gaisler Research -- Description: LEON3 FPU interface types and components ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; library gaisler; use gaisler.leon3.all; library techmap; use techmap.gencomp.all; package libfpu is type fp_rf_in_type is record rd1addr : std_logic_vector(3 downto 0); -- read address 1 rd2addr : std_logic_vector(3 downto 0); -- read address 2 wraddr : std_logic_vector(3 downto 0); -- write address wrdata : std_logic_vector(31 downto 0); -- write data ren1 : std_ulogic; -- read 1 enable ren2 : std_ulogic; -- read 2 enable wren : std_ulogic; -- write enable end record; type fp_rf_out_type is record data1 : std_logic_vector(31 downto 0); -- read data 1 data2 : std_logic_vector(31 downto 0); -- read data 2 end record; type fpc_pipeline_control_type is record pc : std_logic_vector(31 downto 0); inst : std_logic_vector(31 downto 0); cnt : std_logic_vector(1 downto 0); trap : std_ulogic; annul : std_ulogic; pv : std_ulogic; end record; type fpc_debug_in_type is record enable : std_ulogic; write : std_ulogic; fsr : std_ulogic; -- FSR access addr : std_logic_vector(4 downto 0); data : std_logic_vector(31 downto 0); end record; type fpc_debug_out_type is record data : std_logic_vector(31 downto 0); end record; constant fpc_debug_none : fpc_debug_out_type := (data => X"00000000" ); type fpc_in_type is record flush : std_ulogic; -- pipeline flush exack : std_ulogic; -- FP exception acknowledge a_rs1 : std_logic_vector(4 downto 0); d : fpc_pipeline_control_type; a : fpc_pipeline_control_type; e : fpc_pipeline_control_type; m : fpc_pipeline_control_type; x : fpc_pipeline_control_type; lddata : std_logic_vector(31 downto 0); -- load data dbg : fpc_debug_in_type; -- debug signals end record; type fpc_out_type is record data : std_logic_vector(31 downto 0); -- store data exc : std_logic; -- FP exception cc : std_logic_vector(1 downto 0); -- FP condition codes ccv : std_ulogic; -- FP condition codes valid ldlock : std_logic; -- FP pipeline hold holdn : std_ulogic; dbg : fpc_debug_out_type; -- FP debug signals end record; constant fpc_out_none : fpc_out_type := (X"00000000", '0', "00", '1', '0', '1', fpc_debug_none); component grfpwxsh generic ( tech : integer range 0 to NTECH := 0; pclow : integer range 0 to 2 := 2; dsu : integer range 0 to 1 := 0; disas : integer range 0 to 2 := 0; id : integer range 0 to 7 := 0; scantest : integer := 0 ); port ( rst : in std_ulogic; -- Reset clk : in std_ulogic; holdn : in std_ulogic; -- pipeline hold cpi : in fpc_in_type; cpo : out fpc_out_type; fpui : out grfpu_in_type; fpuo : in grfpu_out_type; testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; end;
-- 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 ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : gear_rv_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Gear Model (ROTATIONAL_V/ROTATIONAL domains) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/10/10 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity gear_rv_r is generic( ratio : real := 1.0); -- Gear ratio (Revs of shaft2 for 1 rev of shaft1) -- Note: can be negative, if shaft polarity changes port ( terminal rotv1 : rotational_v; terminal rot2 : rotational); end entity gear_rv_r; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of gear_rv_r is quantity w1 across torq_vel through rotv1 to rotational_v_ref; -- quantity w2 across torq2 through rotv2 to rotational_v_ref; quantity theta across torq_ang through rot2 to rotational_ref; begin -- w2 == w1ratio; theta == ratiow1'integ; torq_vel == -1.0torq_angratio; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Rotational to Electrical Converter -- ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity rot2v is generic ( k : real := 1.0); -- optional gain port ( terminal input : rotational; -- input terminal terminal output : electrical); -- output terminal end entity rot2v ; architecture bhv of rot2v is quantity rot_in across input to rotational_ref; -- Converter's input branch quantity v_out across out_i through output to electrical_ref;-- Converter's output branch begin -- bhv v_out == krot_in; end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- tran = Rsin(rot) -- -- Where pos = output translational position, -- R = horn radius, -- theta = input rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_r2t is generic ( R : real := 1.0); -- horn radius port ( terminal theta : ROTATIONAL; -- input angular position port terminal pos : TRANSLATIONAL); -- output translational position port end entity horn_r2t; architecture bhv of horn_r2t is QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; begin -- bhv tran == Rsin(rot); -- Convert angle in to translational out tran_frc == -rot_tq/R; -- Convert torque in to force out end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- theta = arcsin(pos/R) -- -- Where pos = input translational position, -- R = horn radius, -- theta = output rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_t2r is generic ( R : real := 1.0); -- Rudder horn radius port ( terminal pos : translational; -- input translational position port terminal theta : rotational); -- output angular position port end entity horn_t2r ; architecture bhv of horn_t2r is QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; begin -- bhv rot == arcsin(tran/R); -- Convert translational to angle rot_tq == -tran_frcR; -- Convert force to torque end bhv; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : DC_Motor.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Basic DC Motor ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity DC_Motor is generic ( r_wind : resistance; -- Motor winding resistance [Ohm] kt : real; -- Torque coefficient [Nm/Amp] l : inductance; -- Winding inductance [Henrys] d : real; -- Damping coefficient [Nm/(rad/sec)] j : mmoment_i); -- Moment of inertia [kgmeter2] port (terminal p1, p2 : electrical; terminal shaft_rotv : rotational_v); end entity DC_Motor; ------------------------------------------------------------------------------- -- Basic Architecture -- Motor equations: V = KtW + IRwind + LdI/dt -- T = -KtI + DW + JdW/dt ------------------------------------------------------------------------------- architecture basic of DC_Motor is quantity v across i through p1 to p2; quantity w across torq through shaft_rotv to rotational_v_ref; begin torq == -1.0kti + dw + jw'dot; v == ktw + ir_wind + li'dot; end architecture basic; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : stop_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Mechanical Hard Stop (ROTATIONAL domain) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- library IEEE; -- use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.MECHANICAL_SYSTEMS.all; entity stop_r is generic ( k_stop : real; -- ang_max : angle; -- ang_min : angle := 0.0; ang_max : real; ang_min : real := 0.0; damp_stop : real := 0.000000001 ); port ( terminal ang1, ang2 : rotational); end entity stop_r; architecture ideal of stop_r is quantity velocity : velocity; quantity ang across trq through ang1 to ang2; begin velocity == ang'dot; if ang > ang_max use trq == k_stop * (ang - ang_max) + (damp_stop * velocity); elsif ang > ang_min use trq == 0.0; else trq == k_stop * (ang - ang_min) + (damp_stop * velocity); end use; break on ang'above(ang_min), ang'above(ang_max); end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity tran_linkage is port ( terminal p1, p2 : translational ); begin end tran_linkage; architecture a1 of tran_linkage is QUANTITY pos_1 across frc_1 through p1 TO translational_ref; QUANTITY pos_2 across frc_2 through p2 TO translational_ref; begin pos_2 == pos_1; -- Pass position frc_2 == -frc_1; -- Pass force end; -- ------------------------------------------------------------------------------- -- Rudder Model (Rotational Spring) -- -- Transfer Function: -- -- torq = -k(theta - theta_0) -- -- Where theta = input rotational angle, -- torq = output rotational angle, -- theta_0 = reference angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity rudder is generic ( k : real := 1.0; -- Spring constant theta_0 : real := 0.0); port ( terminal rot : rotational); -- input rotational angle end entity rudder; architecture bhv of rudder is QUANTITY theta across torq through rot TO ROTATIONAL_REF; begin -- bhv torq == k(theta - theta_0); -- Convert force to torque end bhv; -- library IEEE; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity sum2_e is generic (k1, k2: real := 1.0); -- Gain multipliers port ( terminal in1, in2: electrical; terminal output: electrical); end entity sum2_e; architecture simple of sum2_e is QUANTITY vin1 ACROSS in1 TO ELECTRICAL_REF; QUANTITY vin2 ACROSS in2 TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == k1vin1 + k2vin2; end architecture simple; -- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity gain_e is generic ( k: REAL := 1.0); -- Gain multiplier port ( terminal input : electrical; terminal output: electrical); end entity gain_e; architecture simple of gain_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == kvin; end architecture simple; -- ------------------------------------------------------------------------------- -- S-Domain Limiter Model -- ------------------------------------------------------------------------------- library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity limiter_2_e is generic ( limit_high : real := 4.8; -- upper limit limit_low : real := -4.8); -- lower limit port ( terminal input: electrical; terminal output: electrical); end entity limiter_2_e; architecture simple of limiter_2_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; constant slope : real := 1.0e-4; begin if vin > limit_high use -- Upper limit exceeded, so limit input signal vout == limit_high + slope(vin - limit_high); elsif vin < limit_low use -- Lower limit exceeded, so limit input signal vout == limit_low + slope(vin - limit_low); else -- No limit exceeded, so pass input signal as is vout == vin; end use; break on vin'above(limit_high), vin'above(limit_low); end architecture simple; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : clock.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Digital clock with 50% duty cycle ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity clock is generic ( period : time); -- Clock period port ( clk_out : out std_logic); end entity clock; architecture ideal of clock is begin CreateClock: process begin clk_out <= '0'; wait for period/2; clk_out <= '1'; wait for period/2; end process CreateClock; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Z-domain Lead Lag Filter -- -- Z-Domain Transfer Function: -- -- Y(z) a0(z) - a1(z-1) -- ---- = k --------------- -- X(z) b0(z) - b1(z-1) -- -- Normalizing Gain = k -- -- Difference Equation: -- -- Y(K) = AX(k) - BX(k-1) + CY(k-1) ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity lead_lag_diff is port ( signal clk : in std_logic; -- clock terminal input: electrical; terminal output: electrical); end entity lead_lag_diff; architecture bhv of lead_lag_diff is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; CONSTANT k : real := 400.0; -- Normalize gain signal z_out : real := 0.0; begin proc : process (clk) variable zi_dly1 : real := 0.0; -- Input delayed 1 clk cycle variable zo_dly1 : real := 0.0; -- Output delayed 1 clk cycle variable z_new : real := 0.0; -- New output value this clk cycle begin -- proc zo_dly1 := z_out; -- Store previous output value z_new := 0.6163507vin - 0.6144184zi_dly1 + 0.2307692zo_dly1; zi_dly1 := vin; -- Store previous input value z_out <= z_new; end process; vout == kz_out'ramp(100.0e-9); -- Ensure continuous transitions on output end bhv; -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity rudder_servo_z is port( terminal servo_in : electrical; terminal pos_fb : electrical; terminal servo_out : electrical ); end rudder_servo_z; architecture rudder_servo_z of rudder_servo_z is -- Component declarations -- Signal declarations signal clk : std_logic; terminal error : electrical; terminal limit_in : electrical; terminal ll_in : electrical; terminal summer_fb : electrical; begin -- Signal assignments -- Component instances summer : entity work.sum2_e(simple) port map( in1 => servo_in, in2 => summer_fb, output => error ); forward_gain : entity work.gain_e(simple) generic map( k => 100.0 ) port map( input => error, output => ll_in ); fb_gain : entity work.gain_e(simple) generic map( k => -4.57 ) port map( input => pos_fb, output => summer_fb ); XCMP21 : entity work.limiter_2_e(simple) generic map( limit_high => 4.8, limit_low => -4.8 ) port map( input => limit_in, output => servo_out ); clock1 : entity work.clock(ideal) generic map( period => 200us ) port map( CLK_OUT => clk ); XCMP23 : entity work.lead_lag_diff(bhv) port map( input => ll_in, output => limit_in, clk => clk ); end rudder_servo_z; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : v_sine.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/07/03 ------------------------------------------------------------------------------- -- Description: Electrical sinusoidal voltage source -- Includes frequency domain settings ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created -- 2001/07/03 1.1 Mentor Graphics Changed generics from real to -- voltage. ------------------------------------------------------------------------------- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity v_sine is generic ( freq : real; -- frequency [Hertz] amplitude : voltage; -- amplitude [Volts] phase : real := 0.0; -- initial phase [Degrees] offset : voltage := 0.0; -- DC value [Volts] df : real := 0.0; -- damping factor [1/second] ac_mag : voltage := 1.0; -- AC magnitude [Volts] ac_phase : real := 0.0); -- AC phase [Degrees] port ( terminal pos, neg : electrical); end entity v_sine; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of v_sine is -- Declare Branch Quantities quantity v across i through pos to neg; -- Declare Quantity for Phase in radians (calculated below) quantity phase_rad : real; -- Declare Quantity in frequency domain for AC analysis quantity ac_spec : real spectrum ac_mag, math_2_piac_phase/360.0; begin -- Convert phase to radians phase_rad == math_2_pi (freq * NOW + phase / 360.0); if domain = quiescent_domain or domain = time_domain use v == offset + amplitude * sin(phase_rad) * EXP(-NOW * df); else v == ac_spec; -- used for Frequency (AC) analysis end use; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity TB_CS2_Z_Domain_Diff is end TB_CS2_Z_Domain_Diff; architecture TB_CS2_Z_Domain_Diff of TB_CS2_Z_Domain_Diff is -- Component declarations -- Signal declarations terminal ctl_horn_in : rotational; terminal fb_rot2v : electrical; terminal gear_in : rotational_v; terminal link_in : translational; terminal link_out : translational; terminal mot_in : electrical; terminal rudder : rotational; terminal src_in : electrical; begin -- Signal assignments -- Component instances gear1 : entity work.gear_rv_r(ideal) generic map( ratio => 0.01 ) port map( rotv1 => gear_in, rot2 => ctl_horn_in ); gain_fb : entity work.rot2v(bhv) generic map( k => 1.0 ) port map( output => fb_rot2v, input => ctl_horn_in ); gear_horn : entity work.horn_r2t(bhv) port map( theta => ctl_horn_in, pos => link_in ); rudder_horn : entity work.horn_t2r(bhv) port map( theta => rudder, pos => link_out ); motor1 : entity work.DC_Motor(basic) generic map( r_wind => 2.2, kt => 3.43e-3, l => 2.03e-3, d => 5.63e-6, j => 168.0e-9 ) port map( p1 => mot_in, p2 => ELECTRICAL_REF, shaft_rotv => gear_in ); stop1 : entity work.stop_r(ideal) generic map( damp_stop => 1.0e2, k_stop => 1.0e6, ang_max => 1.05, ang_min => -1.05 ) port map( ang1 => ctl_horn_in, ang2 => ROTATIONAL_REF ); \Linkage\ : entity work.tran_linkage(a1) port map( p2 => link_out, p1 => link_in ); XCMP5 : entity work.rudder(bhv) generic map( k => 0.2 ) port map( rot => rudder ); rudder_servo_z1 : entity work.rudder_servo_z port map( servo_out => mot_in, servo_in => src_in, pos_fb => fb_rot2v ); v3 : entity work.v_sine(ideal) generic map( freq => 1.0, amplitude => 4.8 ) port map( pos => src_in, neg => ELECTRICAL_REF ); end TB_CS2_Z_Domain_Diff; --
-- 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 ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : gear_rv_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Gear Model (ROTATIONAL_V/ROTATIONAL domains) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/10/10 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity gear_rv_r is generic( ratio : real := 1.0); -- Gear ratio (Revs of shaft2 for 1 rev of shaft1) -- Note: can be negative, if shaft polarity changes port ( terminal rotv1 : rotational_v; terminal rot2 : rotational); end entity gear_rv_r; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of gear_rv_r is quantity w1 across torq_vel through rotv1 to rotational_v_ref; -- quantity w2 across torq2 through rotv2 to rotational_v_ref; quantity theta across torq_ang through rot2 to rotational_ref; begin -- w2 == w1ratio; theta == ratiow1'integ; torq_vel == -1.0torq_angratio; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Rotational to Electrical Converter -- ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity rot2v is generic ( k : real := 1.0); -- optional gain port ( terminal input : rotational; -- input terminal terminal output : electrical); -- output terminal end entity rot2v ; architecture bhv of rot2v is quantity rot_in across input to rotational_ref; -- Converter's input branch quantity v_out across out_i through output to electrical_ref;-- Converter's output branch begin -- bhv v_out == krot_in; end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- tran = Rsin(rot) -- -- Where pos = output translational position, -- R = horn radius, -- theta = input rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_r2t is generic ( R : real := 1.0); -- horn radius port ( terminal theta : ROTATIONAL; -- input angular position port terminal pos : TRANSLATIONAL); -- output translational position port end entity horn_r2t; architecture bhv of horn_r2t is QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; begin -- bhv tran == Rsin(rot); -- Convert angle in to translational out tran_frc == -rot_tq/R; -- Convert torque in to force out end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- theta = arcsin(pos/R) -- -- Where pos = input translational position, -- R = horn radius, -- theta = output rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_t2r is generic ( R : real := 1.0); -- Rudder horn radius port ( terminal pos : translational; -- input translational position port terminal theta : rotational); -- output angular position port end entity horn_t2r ; architecture bhv of horn_t2r is QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; begin -- bhv rot == arcsin(tran/R); -- Convert translational to angle rot_tq == -tran_frcR; -- Convert force to torque end bhv; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : DC_Motor.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Basic DC Motor ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity DC_Motor is generic ( r_wind : resistance; -- Motor winding resistance [Ohm] kt : real; -- Torque coefficient [Nm/Amp] l : inductance; -- Winding inductance [Henrys] d : real; -- Damping coefficient [Nm/(rad/sec)] j : mmoment_i); -- Moment of inertia [kgmeter2] port (terminal p1, p2 : electrical; terminal shaft_rotv : rotational_v); end entity DC_Motor; ------------------------------------------------------------------------------- -- Basic Architecture -- Motor equations: V = KtW + IRwind + LdI/dt -- T = -KtI + DW + JdW/dt ------------------------------------------------------------------------------- architecture basic of DC_Motor is quantity v across i through p1 to p2; quantity w across torq through shaft_rotv to rotational_v_ref; begin torq == -1.0kti + dw + jw'dot; v == ktw + ir_wind + li'dot; end architecture basic; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : stop_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Mechanical Hard Stop (ROTATIONAL domain) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- library IEEE; -- use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.MECHANICAL_SYSTEMS.all; entity stop_r is generic ( k_stop : real; -- ang_max : angle; -- ang_min : angle := 0.0; ang_max : real; ang_min : real := 0.0; damp_stop : real := 0.000000001 ); port ( terminal ang1, ang2 : rotational); end entity stop_r; architecture ideal of stop_r is quantity velocity : velocity; quantity ang across trq through ang1 to ang2; begin velocity == ang'dot; if ang > ang_max use trq == k_stop * (ang - ang_max) + (damp_stop * velocity); elsif ang > ang_min use trq == 0.0; else trq == k_stop * (ang - ang_min) + (damp_stop * velocity); end use; break on ang'above(ang_min), ang'above(ang_max); end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity tran_linkage is port ( terminal p1, p2 : translational ); begin end tran_linkage; architecture a1 of tran_linkage is QUANTITY pos_1 across frc_1 through p1 TO translational_ref; QUANTITY pos_2 across frc_2 through p2 TO translational_ref; begin pos_2 == pos_1; -- Pass position frc_2 == -frc_1; -- Pass force end; -- ------------------------------------------------------------------------------- -- Rudder Model (Rotational Spring) -- -- Transfer Function: -- -- torq = -k(theta - theta_0) -- -- Where theta = input rotational angle, -- torq = output rotational angle, -- theta_0 = reference angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity rudder is generic ( k : real := 1.0; -- Spring constant theta_0 : real := 0.0); port ( terminal rot : rotational); -- input rotational angle end entity rudder; architecture bhv of rudder is QUANTITY theta across torq through rot TO ROTATIONAL_REF; begin -- bhv torq == k(theta - theta_0); -- Convert force to torque end bhv; -- library IEEE; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity sum2_e is generic (k1, k2: real := 1.0); -- Gain multipliers port ( terminal in1, in2: electrical; terminal output: electrical); end entity sum2_e; architecture simple of sum2_e is QUANTITY vin1 ACROSS in1 TO ELECTRICAL_REF; QUANTITY vin2 ACROSS in2 TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == k1vin1 + k2vin2; end architecture simple; -- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity gain_e is generic ( k: REAL := 1.0); -- Gain multiplier port ( terminal input : electrical; terminal output: electrical); end entity gain_e; architecture simple of gain_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == kvin; end architecture simple; -- ------------------------------------------------------------------------------- -- S-Domain Limiter Model -- ------------------------------------------------------------------------------- library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity limiter_2_e is generic ( limit_high : real := 4.8; -- upper limit limit_low : real := -4.8); -- lower limit port ( terminal input: electrical; terminal output: electrical); end entity limiter_2_e; architecture simple of limiter_2_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; constant slope : real := 1.0e-4; begin if vin > limit_high use -- Upper limit exceeded, so limit input signal vout == limit_high + slope(vin - limit_high); elsif vin < limit_low use -- Lower limit exceeded, so limit input signal vout == limit_low + slope(vin - limit_low); else -- No limit exceeded, so pass input signal as is vout == vin; end use; break on vin'above(limit_high), vin'above(limit_low); end architecture simple; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : clock.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Digital clock with 50% duty cycle ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity clock is generic ( period : time); -- Clock period port ( clk_out : out std_logic); end entity clock; architecture ideal of clock is begin CreateClock: process begin clk_out <= '0'; wait for period/2; clk_out <= '1'; wait for period/2; end process CreateClock; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Z-domain Lead Lag Filter -- -- Z-Domain Transfer Function: -- -- Y(z) a0(z) - a1(z-1) -- ---- = k --------------- -- X(z) b0(z) - b1(z-1) -- -- Normalizing Gain = k -- -- Difference Equation: -- -- Y(K) = AX(k) - BX(k-1) + CY(k-1) ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity lead_lag_diff is port ( signal clk : in std_logic; -- clock terminal input: electrical; terminal output: electrical); end entity lead_lag_diff; architecture bhv of lead_lag_diff is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; CONSTANT k : real := 400.0; -- Normalize gain signal z_out : real := 0.0; begin proc : process (clk) variable zi_dly1 : real := 0.0; -- Input delayed 1 clk cycle variable zo_dly1 : real := 0.0; -- Output delayed 1 clk cycle variable z_new : real := 0.0; -- New output value this clk cycle begin -- proc zo_dly1 := z_out; -- Store previous output value z_new := 0.6163507vin - 0.6144184zi_dly1 + 0.2307692zo_dly1; zi_dly1 := vin; -- Store previous input value z_out <= z_new; end process; vout == kz_out'ramp(100.0e-9); -- Ensure continuous transitions on output end bhv; -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity rudder_servo_z is port( terminal servo_in : electrical; terminal pos_fb : electrical; terminal servo_out : electrical ); end rudder_servo_z; architecture rudder_servo_z of rudder_servo_z is -- Component declarations -- Signal declarations signal clk : std_logic; terminal error : electrical; terminal limit_in : electrical; terminal ll_in : electrical; terminal summer_fb : electrical; begin -- Signal assignments -- Component instances summer : entity work.sum2_e(simple) port map( in1 => servo_in, in2 => summer_fb, output => error ); forward_gain : entity work.gain_e(simple) generic map( k => 100.0 ) port map( input => error, output => ll_in ); fb_gain : entity work.gain_e(simple) generic map( k => -4.57 ) port map( input => pos_fb, output => summer_fb ); XCMP21 : entity work.limiter_2_e(simple) generic map( limit_high => 4.8, limit_low => -4.8 ) port map( input => limit_in, output => servo_out ); clock1 : entity work.clock(ideal) generic map( period => 200us ) port map( CLK_OUT => clk ); XCMP23 : entity work.lead_lag_diff(bhv) port map( input => ll_in, output => limit_in, clk => clk ); end rudder_servo_z; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : v_sine.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/07/03 ------------------------------------------------------------------------------- -- Description: Electrical sinusoidal voltage source -- Includes frequency domain settings ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created -- 2001/07/03 1.1 Mentor Graphics Changed generics from real to -- voltage. ------------------------------------------------------------------------------- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity v_sine is generic ( freq : real; -- frequency [Hertz] amplitude : voltage; -- amplitude [Volts] phase : real := 0.0; -- initial phase [Degrees] offset : voltage := 0.0; -- DC value [Volts] df : real := 0.0; -- damping factor [1/second] ac_mag : voltage := 1.0; -- AC magnitude [Volts] ac_phase : real := 0.0); -- AC phase [Degrees] port ( terminal pos, neg : electrical); end entity v_sine; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of v_sine is -- Declare Branch Quantities quantity v across i through pos to neg; -- Declare Quantity for Phase in radians (calculated below) quantity phase_rad : real; -- Declare Quantity in frequency domain for AC analysis quantity ac_spec : real spectrum ac_mag, math_2_piac_phase/360.0; begin -- Convert phase to radians phase_rad == math_2_pi (freq * NOW + phase / 360.0); if domain = quiescent_domain or domain = time_domain use v == offset + amplitude * sin(phase_rad) * EXP(-NOW * df); else v == ac_spec; -- used for Frequency (AC) analysis end use; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity TB_CS2_Z_Domain_Diff is end TB_CS2_Z_Domain_Diff; architecture TB_CS2_Z_Domain_Diff of TB_CS2_Z_Domain_Diff is -- Component declarations -- Signal declarations terminal ctl_horn_in : rotational; terminal fb_rot2v : electrical; terminal gear_in : rotational_v; terminal link_in : translational; terminal link_out : translational; terminal mot_in : electrical; terminal rudder : rotational; terminal src_in : electrical; begin -- Signal assignments -- Component instances gear1 : entity work.gear_rv_r(ideal) generic map( ratio => 0.01 ) port map( rotv1 => gear_in, rot2 => ctl_horn_in ); gain_fb : entity work.rot2v(bhv) generic map( k => 1.0 ) port map( output => fb_rot2v, input => ctl_horn_in ); gear_horn : entity work.horn_r2t(bhv) port map( theta => ctl_horn_in, pos => link_in ); rudder_horn : entity work.horn_t2r(bhv) port map( theta => rudder, pos => link_out ); motor1 : entity work.DC_Motor(basic) generic map( r_wind => 2.2, kt => 3.43e-3, l => 2.03e-3, d => 5.63e-6, j => 168.0e-9 ) port map( p1 => mot_in, p2 => ELECTRICAL_REF, shaft_rotv => gear_in ); stop1 : entity work.stop_r(ideal) generic map( damp_stop => 1.0e2, k_stop => 1.0e6, ang_max => 1.05, ang_min => -1.05 ) port map( ang1 => ctl_horn_in, ang2 => ROTATIONAL_REF ); \Linkage\ : entity work.tran_linkage(a1) port map( p2 => link_out, p1 => link_in ); XCMP5 : entity work.rudder(bhv) generic map( k => 0.2 ) port map( rot => rudder ); rudder_servo_z1 : entity work.rudder_servo_z port map( servo_out => mot_in, servo_in => src_in, pos_fb => fb_rot2v ); v3 : entity work.v_sine(ideal) generic map( freq => 1.0, amplitude => 4.8 ) port map( pos => src_in, neg => ELECTRICAL_REF ); end TB_CS2_Z_Domain_Diff; --
-- 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 ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : gear_rv_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Gear Model (ROTATIONAL_V/ROTATIONAL domains) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/10/10 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity gear_rv_r is generic( ratio : real := 1.0); -- Gear ratio (Revs of shaft2 for 1 rev of shaft1) -- Note: can be negative, if shaft polarity changes port ( terminal rotv1 : rotational_v; terminal rot2 : rotational); end entity gear_rv_r; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of gear_rv_r is quantity w1 across torq_vel through rotv1 to rotational_v_ref; -- quantity w2 across torq2 through rotv2 to rotational_v_ref; quantity theta across torq_ang through rot2 to rotational_ref; begin -- w2 == w1ratio; theta == ratiow1'integ; torq_vel == -1.0torq_angratio; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Rotational to Electrical Converter -- ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity rot2v is generic ( k : real := 1.0); -- optional gain port ( terminal input : rotational; -- input terminal terminal output : electrical); -- output terminal end entity rot2v ; architecture bhv of rot2v is quantity rot_in across input to rotational_ref; -- Converter's input branch quantity v_out across out_i through output to electrical_ref;-- Converter's output branch begin -- bhv v_out == krot_in; end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- tran = Rsin(rot) -- -- Where pos = output translational position, -- R = horn radius, -- theta = input rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_r2t is generic ( R : real := 1.0); -- horn radius port ( terminal theta : ROTATIONAL; -- input angular position port terminal pos : TRANSLATIONAL); -- output translational position port end entity horn_r2t; architecture bhv of horn_r2t is QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; begin -- bhv tran == Rsin(rot); -- Convert angle in to translational out tran_frc == -rot_tq/R; -- Convert torque in to force out end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- theta = arcsin(pos/R) -- -- Where pos = input translational position, -- R = horn radius, -- theta = output rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_t2r is generic ( R : real := 1.0); -- Rudder horn radius port ( terminal pos : translational; -- input translational position port terminal theta : rotational); -- output angular position port end entity horn_t2r ; architecture bhv of horn_t2r is QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; begin -- bhv rot == arcsin(tran/R); -- Convert translational to angle rot_tq == -tran_frcR; -- Convert force to torque end bhv; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : DC_Motor.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Basic DC Motor ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity DC_Motor is generic ( r_wind : resistance; -- Motor winding resistance [Ohm] kt : real; -- Torque coefficient [Nm/Amp] l : inductance; -- Winding inductance [Henrys] d : real; -- Damping coefficient [Nm/(rad/sec)] j : mmoment_i); -- Moment of inertia [kgmeter2] port (terminal p1, p2 : electrical; terminal shaft_rotv : rotational_v); end entity DC_Motor; ------------------------------------------------------------------------------- -- Basic Architecture -- Motor equations: V = KtW + IRwind + LdI/dt -- T = -KtI + DW + JdW/dt ------------------------------------------------------------------------------- architecture basic of DC_Motor is quantity v across i through p1 to p2; quantity w across torq through shaft_rotv to rotational_v_ref; begin torq == -1.0kti + dw + jw'dot; v == ktw + ir_wind + li'dot; end architecture basic; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : stop_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Mechanical Hard Stop (ROTATIONAL domain) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- library IEEE; -- use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.MECHANICAL_SYSTEMS.all; entity stop_r is generic ( k_stop : real; -- ang_max : angle; -- ang_min : angle := 0.0; ang_max : real; ang_min : real := 0.0; damp_stop : real := 0.000000001 ); port ( terminal ang1, ang2 : rotational); end entity stop_r; architecture ideal of stop_r is quantity velocity : velocity; quantity ang across trq through ang1 to ang2; begin velocity == ang'dot; if ang > ang_max use trq == k_stop * (ang - ang_max) + (damp_stop * velocity); elsif ang > ang_min use trq == 0.0; else trq == k_stop * (ang - ang_min) + (damp_stop * velocity); end use; break on ang'above(ang_min), ang'above(ang_max); end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity tran_linkage is port ( terminal p1, p2 : translational ); begin end tran_linkage; architecture a1 of tran_linkage is QUANTITY pos_1 across frc_1 through p1 TO translational_ref; QUANTITY pos_2 across frc_2 through p2 TO translational_ref; begin pos_2 == pos_1; -- Pass position frc_2 == -frc_1; -- Pass force end; -- ------------------------------------------------------------------------------- -- Rudder Model (Rotational Spring) -- -- Transfer Function: -- -- torq = -k(theta - theta_0) -- -- Where theta = input rotational angle, -- torq = output rotational angle, -- theta_0 = reference angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity rudder is generic ( k : real := 1.0; -- Spring constant theta_0 : real := 0.0); port ( terminal rot : rotational); -- input rotational angle end entity rudder; architecture bhv of rudder is QUANTITY theta across torq through rot TO ROTATIONAL_REF; begin -- bhv torq == k(theta - theta_0); -- Convert force to torque end bhv; -- library IEEE; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity sum2_e is generic (k1, k2: real := 1.0); -- Gain multipliers port ( terminal in1, in2: electrical; terminal output: electrical); end entity sum2_e; architecture simple of sum2_e is QUANTITY vin1 ACROSS in1 TO ELECTRICAL_REF; QUANTITY vin2 ACROSS in2 TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == k1vin1 + k2vin2; end architecture simple; -- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity gain_e is generic ( k: REAL := 1.0); -- Gain multiplier port ( terminal input : electrical; terminal output: electrical); end entity gain_e; architecture simple of gain_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == kvin; end architecture simple; -- ------------------------------------------------------------------------------- -- S-Domain Limiter Model -- ------------------------------------------------------------------------------- library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity limiter_2_e is generic ( limit_high : real := 4.8; -- upper limit limit_low : real := -4.8); -- lower limit port ( terminal input: electrical; terminal output: electrical); end entity limiter_2_e; architecture simple of limiter_2_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; constant slope : real := 1.0e-4; begin if vin > limit_high use -- Upper limit exceeded, so limit input signal vout == limit_high + slope(vin - limit_high); elsif vin < limit_low use -- Lower limit exceeded, so limit input signal vout == limit_low + slope(vin - limit_low); else -- No limit exceeded, so pass input signal as is vout == vin; end use; break on vin'above(limit_high), vin'above(limit_low); end architecture simple; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : clock.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Digital clock with 50% duty cycle ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity clock is generic ( period : time); -- Clock period port ( clk_out : out std_logic); end entity clock; architecture ideal of clock is begin CreateClock: process begin clk_out <= '0'; wait for period/2; clk_out <= '1'; wait for period/2; end process CreateClock; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Z-domain Lead Lag Filter -- -- Z-Domain Transfer Function: -- -- Y(z) a0(z) - a1(z-1) -- ---- = k --------------- -- X(z) b0(z) - b1(z-1) -- -- Normalizing Gain = k -- -- Difference Equation: -- -- Y(K) = AX(k) - BX(k-1) + CY(k-1) ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity lead_lag_diff is port ( signal clk : in std_logic; -- clock terminal input: electrical; terminal output: electrical); end entity lead_lag_diff; architecture bhv of lead_lag_diff is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; CONSTANT k : real := 400.0; -- Normalize gain signal z_out : real := 0.0; begin proc : process (clk) variable zi_dly1 : real := 0.0; -- Input delayed 1 clk cycle variable zo_dly1 : real := 0.0; -- Output delayed 1 clk cycle variable z_new : real := 0.0; -- New output value this clk cycle begin -- proc zo_dly1 := z_out; -- Store previous output value z_new := 0.6163507vin - 0.6144184zi_dly1 + 0.2307692zo_dly1; zi_dly1 := vin; -- Store previous input value z_out <= z_new; end process; vout == kz_out'ramp(100.0e-9); -- Ensure continuous transitions on output end bhv; -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity rudder_servo_z is port( terminal servo_in : electrical; terminal pos_fb : electrical; terminal servo_out : electrical ); end rudder_servo_z; architecture rudder_servo_z of rudder_servo_z is -- Component declarations -- Signal declarations signal clk : std_logic; terminal error : electrical; terminal limit_in : electrical; terminal ll_in : electrical; terminal summer_fb : electrical; begin -- Signal assignments -- Component instances summer : entity work.sum2_e(simple) port map( in1 => servo_in, in2 => summer_fb, output => error ); forward_gain : entity work.gain_e(simple) generic map( k => 100.0 ) port map( input => error, output => ll_in ); fb_gain : entity work.gain_e(simple) generic map( k => -4.57 ) port map( input => pos_fb, output => summer_fb ); XCMP21 : entity work.limiter_2_e(simple) generic map( limit_high => 4.8, limit_low => -4.8 ) port map( input => limit_in, output => servo_out ); clock1 : entity work.clock(ideal) generic map( period => 200us ) port map( CLK_OUT => clk ); XCMP23 : entity work.lead_lag_diff(bhv) port map( input => ll_in, output => limit_in, clk => clk ); end rudder_servo_z; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : v_sine.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/07/03 ------------------------------------------------------------------------------- -- Description: Electrical sinusoidal voltage source -- Includes frequency domain settings ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created -- 2001/07/03 1.1 Mentor Graphics Changed generics from real to -- voltage. ------------------------------------------------------------------------------- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity v_sine is generic ( freq : real; -- frequency [Hertz] amplitude : voltage; -- amplitude [Volts] phase : real := 0.0; -- initial phase [Degrees] offset : voltage := 0.0; -- DC value [Volts] df : real := 0.0; -- damping factor [1/second] ac_mag : voltage := 1.0; -- AC magnitude [Volts] ac_phase : real := 0.0); -- AC phase [Degrees] port ( terminal pos, neg : electrical); end entity v_sine; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of v_sine is -- Declare Branch Quantities quantity v across i through pos to neg; -- Declare Quantity for Phase in radians (calculated below) quantity phase_rad : real; -- Declare Quantity in frequency domain for AC analysis quantity ac_spec : real spectrum ac_mag, math_2_piac_phase/360.0; begin -- Convert phase to radians phase_rad == math_2_pi (freq * NOW + phase / 360.0); if domain = quiescent_domain or domain = time_domain use v == offset + amplitude * sin(phase_rad) * EXP(-NOW * df); else v == ac_spec; -- used for Frequency (AC) analysis end use; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity TB_CS2_Z_Domain_Diff is end TB_CS2_Z_Domain_Diff; architecture TB_CS2_Z_Domain_Diff of TB_CS2_Z_Domain_Diff is -- Component declarations -- Signal declarations terminal ctl_horn_in : rotational; terminal fb_rot2v : electrical; terminal gear_in : rotational_v; terminal link_in : translational; terminal link_out : translational; terminal mot_in : electrical; terminal rudder : rotational; terminal src_in : electrical; begin -- Signal assignments -- Component instances gear1 : entity work.gear_rv_r(ideal) generic map( ratio => 0.01 ) port map( rotv1 => gear_in, rot2 => ctl_horn_in ); gain_fb : entity work.rot2v(bhv) generic map( k => 1.0 ) port map( output => fb_rot2v, input => ctl_horn_in ); gear_horn : entity work.horn_r2t(bhv) port map( theta => ctl_horn_in, pos => link_in ); rudder_horn : entity work.horn_t2r(bhv) port map( theta => rudder, pos => link_out ); motor1 : entity work.DC_Motor(basic) generic map( r_wind => 2.2, kt => 3.43e-3, l => 2.03e-3, d => 5.63e-6, j => 168.0e-9 ) port map( p1 => mot_in, p2 => ELECTRICAL_REF, shaft_rotv => gear_in ); stop1 : entity work.stop_r(ideal) generic map( damp_stop => 1.0e2, k_stop => 1.0e6, ang_max => 1.05, ang_min => -1.05 ) port map( ang1 => ctl_horn_in, ang2 => ROTATIONAL_REF ); \Linkage\ : entity work.tran_linkage(a1) port map( p2 => link_out, p1 => link_in ); XCMP5 : entity work.rudder(bhv) generic map( k => 0.2 ) port map( rot => rudder ); rudder_servo_z1 : entity work.rudder_servo_z port map( servo_out => mot_in, servo_in => src_in, pos_fb => fb_rot2v ); v3 : entity work.v_sine(ideal) generic map( freq => 1.0, amplitude => 4.8 ) port map( pos => src_in, neg => ELECTRICAL_REF ); end TB_CS2_Z_Domain_Diff; --
---------------------------------------------------------------------------------- -- Company: OHO-Elektronik -- Engineer: Michael Randelzhofer mr@oho-elektronik.de +491776116444 -- -- Create Date: 10.11.2008 -- Design Name: -- Module Name: OhoPack.vhd -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 1.00 - File Created -- Revision 1.01 - Brightness support -- Revision 1.02 - Added display test -- Revision 1.03 - display update support, new interface signal names -- Additional Comments: -- package for OHO_DY1 display module ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL ; USE IEEE.NUMERIC_STD.ALL ; package OhoPack is type y2d_type is array(14 downto 0) of std_logic_vector(8 downto 0) ; -- OHO_DY1 hex decodes for positions (7 downto 0) -> edgacpbf constant seg_a: std_logic_vector(7 downto 0) := X"10" ; constant seg_b: std_logic_vector(7 downto 0) := X"02" ; constant seg_c: std_logic_vector(7 downto 0) := X"08" ; constant seg_d: std_logic_vector(7 downto 0) := X"40" ; constant seg_e: std_logic_vector(7 downto 0) := X"80" ; constant seg_f: std_logic_vector(7 downto 0) := X"01" ; constant seg_g: std_logic_vector(7 downto 0) := X"20" ; constant seg_dp: std_logic_vector(7 downto 0) := X"04" ; -- hex decoder shift values constant H0x0: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f ; constant H0x1: std_logic_vector(7 downto 0) := seg_b or seg_c ; constant H0x2: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_g or seg_e or seg_d ; constant H0x3: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_g ; constant H0x4: std_logic_vector(7 downto 0) := seg_f or seg_g or seg_b or seg_c ; constant H0x5: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d ; constant H0x6: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d or seg_e ; constant H0x7: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c ; constant H0x8: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f or seg_g ; constant H0x9: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_f or seg_g ; constant H0xa: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_e or seg_f or seg_g ; constant H0xb: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_f or seg_g ; constant H0xc: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_e or seg_d ; constant H0xd: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_g ; constant H0xe: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e or seg_d ; constant H0xf: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e ; constant L_a: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_e or seg_f or seg_g ; constant L_b: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_f or seg_g ; constant L_c: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_e or seg_d ; constant L_d: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_g ; constant L_e: std_logic_vector(7 downto 0) := seg_a or seg_g or seg_d or seg_e or seg_f ; constant L_f: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e ; constant L_g: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_f or seg_g ; constant L_h: std_logic_vector(7 downto 0) := seg_c or seg_e or seg_g or seg_f ; constant L_hh: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_e or seg_f or seg_g ; constant L_i: std_logic_vector(7 downto 0) := seg_b or seg_c ; constant L_j: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d ; constant L_l: std_logic_vector(7 downto 0) := seg_d or seg_e or seg_f ; constant L_n: std_logic_vector(7 downto 0) := seg_c or seg_e or seg_g ; constant L_o: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_g ; constant L_oo: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f ; constant L_p: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_g or seg_f or seg_e ; constant L_r: std_logic_vector(7 downto 0) := seg_e or seg_g ; constant L_s: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d ; constant L_t: std_logic_vector(7 downto 0) := seg_f or seg_e or seg_g or seg_d ; constant L_u: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_f ; constant L_v: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e ; constant L_x: std_logic_vector(7 downto 0) := seg_c or seg_f or seg_g ; constant L_y: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_g or seg_f ; constant hex: std_logic := '1' ; constant raw: std_logic := '0' ; constant DupVal: std_logic_vector(11 DOWNTO 0) := X"001" ; FUNCTION Rise(sig:std_logic; sigq:std_logic) return boolean ; FUNCTION Fall(sig:std_logic; sigq:std_logic) return boolean ; FUNCTION ShiftBit(bitshift:std_logic_vector(2 downto 0); shiftval:std_logic_vector(7 downto 0)) return std_logic ; FUNCTION SerialHexDecode(bitpos:std_logic_vector(2 downto 0); ledcode:std_logic_vector(8 downto 0)) return std_logic ; FUNCTION Mirror(slv:std_logic_vector) return std_logic_vector ; end OhoPack ; package body OhoPack is -- generate one clock pulse on rising edge of signal sig FUNCTION Rise(sig:std_logic; sigq:std_logic) return boolean is VARIABLE Z : boolean ; BEGIN if (sig and not sigq) = '1' then Z := true ; else Z := false ; end if ; RETURN Z ; END Rise ; -- generate one clock pulse on falling edge of signal sig FUNCTION Fall(sig:std_logic; sigq:std_logic) return boolean is VARIABLE Z : boolean ; BEGIN if (not sig and sigq) = '1' then Z := true ; else Z := false ; end if ; RETURN Z ; END Fall ; -- serial bit decoder for bit positions -- bitshiftposition=0 -> result=shiftval(7) -- bitshiftposition=1 -> result=shiftval(6) -- bitshiftposition=2 -> result=shiftval(5) -- bitshiftposition=3 -> result=shiftval(4) -- bitshiftposition=4 -> result=shiftval(3) -- bitshiftposition=5 -> result=shiftval(2) -- bitshiftposition=6 -> result=shiftval(1) -- bitshiftposition=7 -> result=shiftval(0) FUNCTION ShiftBit(bitshift:std_logic_vector(2 downto 0); shiftval:std_logic_vector(7 downto 0)) return std_logic is VARIABLE Z : std_logic ; VARIABLE mv : std_logic_vector(7 downto 0) ; BEGIN mv := Mirror(shiftval) ; Z := mv(to_integer(unsigned(bitshift))) ; RETURN Z ; END ShiftBit ; -- lookup table driven hex decoder, needs binary up counter on bitpos -- input digit data is 9bits: ledcode(8 downto 0) -- ledcode(8)=0 -> ledcode(7 downto 0)=LED raw data; use led constants defined in this package -- ledcode(8)=1 -> ledcode(3 downto 0)=display hex nibble; ledcode(7)=decimal point FUNCTION SerialHexDecode(bitpos:std_logic_vector(2 downto 0); ledcode:std_logic_vector(8 downto 0)) return std_logic is VARIABLE Z : std_logic ; VARIABLE hexval : std_logic_vector(3 downto 0) ; VARIABLE dp : std_logic_vector(7 downto 0) ; BEGIN hexval := ledcode(3 downto 0) ; if (ledcode(7)='0') then dp := (others => '0') ; else dp := seg_dp ; end if ; if (ledcode(8)='0') then Z := ShiftBit(bitpos,ledcode(7 downto 0)) ; else case hexval is when X"0" => Z := ShiftBit(bitpos,H0x0 or dp) ; when X"1" => Z := ShiftBit(bitpos,H0x1 or dp) ; when X"2" => Z := ShiftBit(bitpos,H0x2 or dp) ; when X"3" => Z := ShiftBit(bitpos,H0x3 or dp) ; when X"4" => Z := ShiftBit(bitpos,H0x4 or dp) ; when X"5" => Z := ShiftBit(bitpos,H0x5 or dp) ; when X"6" => Z := ShiftBit(bitpos,H0x6 or dp) ; when X"7" => Z := ShiftBit(bitpos,H0x7 or dp) ; when X"8" => Z := ShiftBit(bitpos,H0x8 or dp) ; when X"9" => Z := ShiftBit(bitpos,H0x9 or dp) ; when X"a" => Z := ShiftBit(bitpos,H0xa or dp) ; when X"b" => Z := ShiftBit(bitpos,H0xb or dp) ; when X"c" => Z := ShiftBit(bitpos,H0xc or dp) ; when X"d" => Z := ShiftBit(bitpos,H0xd or dp) ; when X"e" => Z := ShiftBit(bitpos,H0xe or dp) ; when X"f" => Z := ShiftBit(bitpos,H0xf or dp) ; when others => end case ; end if ; RETURN Z ; END SerialHexDecode ; --this function mirrors all the bits of the input vector FUNCTION Mirror(slv:std_logic_vector) return std_logic_vector is VARIABLE MIR : std_logic_vector(slv'high downto slv'low); BEGIN FOR i IN (slv'low) to slv'high LOOP MIR(i) := (slv(slv'high-i)) ; END LOOP ; RETURN MIR ; END Mirror ; end OHOPack ;
---------------------------------------------------------------------------------- -- Company: OHO-Elektronik -- Engineer: Michael Randelzhofer mr@oho-elektronik.de +491776116444 -- -- Create Date: 10.11.2008 -- Design Name: -- Module Name: OhoPack.vhd -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 1.00 - File Created -- Revision 1.01 - Brightness support -- Revision 1.02 - Added display test -- Revision 1.03 - display update support, new interface signal names -- Additional Comments: -- package for OHO_DY1 display module ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL ; USE IEEE.NUMERIC_STD.ALL ; package OhoPack is type y2d_type is array(14 downto 0) of std_logic_vector(8 downto 0) ; -- OHO_DY1 hex decodes for positions (7 downto 0) -> edgacpbf constant seg_a: std_logic_vector(7 downto 0) := X"10" ; constant seg_b: std_logic_vector(7 downto 0) := X"02" ; constant seg_c: std_logic_vector(7 downto 0) := X"08" ; constant seg_d: std_logic_vector(7 downto 0) := X"40" ; constant seg_e: std_logic_vector(7 downto 0) := X"80" ; constant seg_f: std_logic_vector(7 downto 0) := X"01" ; constant seg_g: std_logic_vector(7 downto 0) := X"20" ; constant seg_dp: std_logic_vector(7 downto 0) := X"04" ; -- hex decoder shift values constant H0x0: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f ; constant H0x1: std_logic_vector(7 downto 0) := seg_b or seg_c ; constant H0x2: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_g or seg_e or seg_d ; constant H0x3: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_g ; constant H0x4: std_logic_vector(7 downto 0) := seg_f or seg_g or seg_b or seg_c ; constant H0x5: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d ; constant H0x6: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d or seg_e ; constant H0x7: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c ; constant H0x8: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f or seg_g ; constant H0x9: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_f or seg_g ; constant H0xa: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_e or seg_f or seg_g ; constant H0xb: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_f or seg_g ; constant H0xc: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_e or seg_d ; constant H0xd: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_g ; constant H0xe: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e or seg_d ; constant H0xf: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e ; constant L_a: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_e or seg_f or seg_g ; constant L_b: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_f or seg_g ; constant L_c: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_e or seg_d ; constant L_d: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_g ; constant L_e: std_logic_vector(7 downto 0) := seg_a or seg_g or seg_d or seg_e or seg_f ; constant L_f: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e ; constant L_g: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_f or seg_g ; constant L_h: std_logic_vector(7 downto 0) := seg_c or seg_e or seg_g or seg_f ; constant L_hh: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_e or seg_f or seg_g ; constant L_i: std_logic_vector(7 downto 0) := seg_b or seg_c ; constant L_j: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d ; constant L_l: std_logic_vector(7 downto 0) := seg_d or seg_e or seg_f ; constant L_n: std_logic_vector(7 downto 0) := seg_c or seg_e or seg_g ; constant L_o: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_g ; constant L_oo: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f ; constant L_p: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_g or seg_f or seg_e ; constant L_r: std_logic_vector(7 downto 0) := seg_e or seg_g ; constant L_s: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d ; constant L_t: std_logic_vector(7 downto 0) := seg_f or seg_e or seg_g or seg_d ; constant L_u: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_f ; constant L_v: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e ; constant L_x: std_logic_vector(7 downto 0) := seg_c or seg_f or seg_g ; constant L_y: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_g or seg_f ; constant hex: std_logic := '1' ; constant raw: std_logic := '0' ; constant DupVal: std_logic_vector(11 DOWNTO 0) := X"001" ; FUNCTION Rise(sig:std_logic; sigq:std_logic) return boolean ; FUNCTION Fall(sig:std_logic; sigq:std_logic) return boolean ; FUNCTION ShiftBit(bitshift:std_logic_vector(2 downto 0); shiftval:std_logic_vector(7 downto 0)) return std_logic ; FUNCTION SerialHexDecode(bitpos:std_logic_vector(2 downto 0); ledcode:std_logic_vector(8 downto 0)) return std_logic ; FUNCTION Mirror(slv:std_logic_vector) return std_logic_vector ; end OhoPack ; package body OhoPack is -- generate one clock pulse on rising edge of signal sig FUNCTION Rise(sig:std_logic; sigq:std_logic) return boolean is VARIABLE Z : boolean ; BEGIN if (sig and not sigq) = '1' then Z := true ; else Z := false ; end if ; RETURN Z ; END Rise ; -- generate one clock pulse on falling edge of signal sig FUNCTION Fall(sig:std_logic; sigq:std_logic) return boolean is VARIABLE Z : boolean ; BEGIN if (not sig and sigq) = '1' then Z := true ; else Z := false ; end if ; RETURN Z ; END Fall ; -- serial bit decoder for bit positions -- bitshiftposition=0 -> result=shiftval(7) -- bitshiftposition=1 -> result=shiftval(6) -- bitshiftposition=2 -> result=shiftval(5) -- bitshiftposition=3 -> result=shiftval(4) -- bitshiftposition=4 -> result=shiftval(3) -- bitshiftposition=5 -> result=shiftval(2) -- bitshiftposition=6 -> result=shiftval(1) -- bitshiftposition=7 -> result=shiftval(0) FUNCTION ShiftBit(bitshift:std_logic_vector(2 downto 0); shiftval:std_logic_vector(7 downto 0)) return std_logic is VARIABLE Z : std_logic ; VARIABLE mv : std_logic_vector(7 downto 0) ; BEGIN mv := Mirror(shiftval) ; Z := mv(to_integer(unsigned(bitshift))) ; RETURN Z ; END ShiftBit ; -- lookup table driven hex decoder, needs binary up counter on bitpos -- input digit data is 9bits: ledcode(8 downto 0) -- ledcode(8)=0 -> ledcode(7 downto 0)=LED raw data; use led constants defined in this package -- ledcode(8)=1 -> ledcode(3 downto 0)=display hex nibble; ledcode(7)=decimal point FUNCTION SerialHexDecode(bitpos:std_logic_vector(2 downto 0); ledcode:std_logic_vector(8 downto 0)) return std_logic is VARIABLE Z : std_logic ; VARIABLE hexval : std_logic_vector(3 downto 0) ; VARIABLE dp : std_logic_vector(7 downto 0) ; BEGIN hexval := ledcode(3 downto 0) ; if (ledcode(7)='0') then dp := (others => '0') ; else dp := seg_dp ; end if ; if (ledcode(8)='0') then Z := ShiftBit(bitpos,ledcode(7 downto 0)) ; else case hexval is when X"0" => Z := ShiftBit(bitpos,H0x0 or dp) ; when X"1" => Z := ShiftBit(bitpos,H0x1 or dp) ; when X"2" => Z := ShiftBit(bitpos,H0x2 or dp) ; when X"3" => Z := ShiftBit(bitpos,H0x3 or dp) ; when X"4" => Z := ShiftBit(bitpos,H0x4 or dp) ; when X"5" => Z := ShiftBit(bitpos,H0x5 or dp) ; when X"6" => Z := ShiftBit(bitpos,H0x6 or dp) ; when X"7" => Z := ShiftBit(bitpos,H0x7 or dp) ; when X"8" => Z := ShiftBit(bitpos,H0x8 or dp) ; when X"9" => Z := ShiftBit(bitpos,H0x9 or dp) ; when X"a" => Z := ShiftBit(bitpos,H0xa or dp) ; when X"b" => Z := ShiftBit(bitpos,H0xb or dp) ; when X"c" => Z := ShiftBit(bitpos,H0xc or dp) ; when X"d" => Z := ShiftBit(bitpos,H0xd or dp) ; when X"e" => Z := ShiftBit(bitpos,H0xe or dp) ; when X"f" => Z := ShiftBit(bitpos,H0xf or dp) ; when others => end case ; end if ; RETURN Z ; END SerialHexDecode ; --this function mirrors all the bits of the input vector FUNCTION Mirror(slv:std_logic_vector) return std_logic_vector is VARIABLE MIR : std_logic_vector(slv'high downto slv'low); BEGIN FOR i IN (slv'low) to slv'high LOOP MIR(i) := (slv(slv'high-i)) ; END LOOP ; RETURN MIR ; END Mirror ; end OHOPack ;
-------------------------------------------------------------------------------- -------------------------------------------------------------------------------- -- Description: -- -- This components takes two inputs ,x and y, and outputs their signed -- -- product on the output s. This component also allows width-scaling of the -- -- output in any direction and size. This sclaling may leed to overflow in -- -- the output. In that case, the output is saturated. -- -- -- -- Generics: -- -- X_WIDTH - Bitwidth of the input x -- -- X_FRACTION - Fractional width of the input x -- -- Y_WIDTH - Bitwidth of the input y -- -- Y_FRACTION - Fractional width of the input y -- -- S_WIDTH - Bitwidth of the output s -- -- S_FRACTION - Fractional width of the output s -- -- -- -- Input/Output: -- -- x - First term. -- -- y - Second term -- -- overflow - Overflow indicator -- -- s - Product -- -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- entity Multiplier_Saturate is generic (X_WIDTH : natural := 16; X_FRACTION : natural := 15; Y_WIDTH : natural := 16; Y_FRACTION : natural := 15; S_WIDTH : natural := 16; S_FRACTION : natural := 15); port(x : in std_logic_vector(X_WIDTH-1 downto 0); y : in std_logic_vector(Y_WIDTH-1 downto 0); overflow : out std_logic; s : out std_logic_vector(S_WIDTH-1 downto 0)); end Multiplier_Saturate; -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- architecture behaviour of Multiplier_Saturate is -- Constants constant RESULT_WIDTH : integer := X_WIDTH+Y_WIDTH; constant LSB : integer := X_FRACTION+Y_FRACTION-S_FRACTION; constant MSB : integer := X_FRACTION+Y_FRACTION-S_FRACTION+S_WIDTH; -- Signal Declarations signal overflow_copy : std_logic; signal s_product : std_logic_vector(RESULT_WIDTH-1 downto 0); signal s_output : std_logic_vector(S_WIDTH-1 downto 0); -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- begin -- Calculate product s_product <= std_logic_vector(signed(x) * signed(y)); -- Map to output gen_mapping : for i in 0 to S_WIDTH-1 generate if_inside : if(((LSB+i) <= (RESULT_WIDTH-1)) and ((LSB+i) >= (0))) generate s_output(i) <= s_product(LSB+i); end generate; if_above: if((LSB+i) > (RESULT_WIDTH-1)) generate s_output(i) <= s_product(RESULT_WIDTH-1); end generate; if_under: if((LSB+i) < (0)) generate s_output(i) <= '0'; end generate; end generate; -- Check for overflow gen_overflow: if(MSB < RESULT_WIDTH) generate process(s_product) constant ones : std_logic_vector(RESULT_WIDTH downto MSB) := (others => '1'); constant zeroes : std_logic_vector(RESULT_WIDTH downto MSB) := (others => '0'); begin if((s_product(RESULT_WIDTH-1 downto MSB-1) = zeroes) or (s_product(RESULT_WIDTH-1 downto MSB-1) = ones)) then overflow_copy <= '0'; else overflow_copy <= '1'; end if; end process; end generate; gen_no_overflow: if(MSB >= RESULT_WIDTH) generate overflow_copy <= '0'; end generate; overflow <= overflow_copy; -- Saturate output process(s_product, overflow_copy, s_output) begin if(overflow_copy = '1') then if(s_product(RESULT_WIDTH-1) = '1') then s <= (others => '0'); s(S_WIDTH-1) <= '1'; else s <= (others => '1'); s(S_WIDTH-1) <= '0'; end if; else s <= s_output; end if; end process; end behaviour; -------------------------------------------------------------------------------- --------------------------------------------------------------------------------
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 14:42:09 02/09/2013 -- Design Name: -- Module Name: Top - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.NUMERIC_STD.all; use IEEE.STD_LOGIC_UNSIGNED.all; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity Top is port ( -- Standard 6847 signals -- -- expept DA which is now input only -- except nRP which re-purposed as a nWR CLK : in std_logic; DD : inout std_logic_vector (7 downto 0); DA : in std_logic_vector (12 downto 0); CHB : out std_logic; OA : out std_logic; OB : out std_logic; nMS : in std_logic; CSS : in std_logic; nHS : out std_logic; nFS : out std_logic; nWR : in std_logic; -- Was nRP AG : in std_logic; AS : in std_logic; INV : in std_logic; INTEXT : in std_logic; GM : in std_logic_vector (2 downto 0); Y : out std_logic; -- 5 bit VGA Output R : out std_logic_vector (0 downto 0); G : out std_logic_vector (1 downto 0); B : out std_logic_vector (0 downto 0); HSYNC : out std_logic; VSYNC : out std_logic; -- 1 bit AUDIO Output AUDIO : out std_logic; -- Other GODIL specific pins clock49 : in std_logic; nRST : in std_logic; nBXXX : in std_logic; -- Jumpers -- Enables VGA Signals on PL4 nPL4 : in std_logic; -- Moves SID from 9FE0 to BDC0 nSIDD : in std_logic; -- Active low version of the SID Select Signal for disabling the external bus buffers -- nSIDSEL : out std_logic; -- PS/2 Mouse PS2_CLK : inout std_logic; PS2_DATA : inout std_logic; -- UART uart_TxD : out std_logic; uart_RxD : in std_logic ); end Top; architecture BEHAVIORAL of Top is -- clock32 is the main clock signal clock32 : std_logic; -- clock25 is a full speed VGA clock signal clock25 : std_logic; -- clock15 is just used between two DCMs signal clock15 : std_logic; -- Reset signal (active high) signal reset : std_logic; -- Reset signal to 6847 (active high), not currently used signal reset_vid : std_logic; -- pipelined versions of the address/data/write signals signal nWR1 : std_logic; signal nWR2 : std_logic; signal nMS1 : std_logic; signal nMS2 : std_logic; signal nWRMS1 : std_logic; signal nWRMS2 : std_logic; signal nBXXX1 : std_logic; signal nBXXX2 : std_logic; signal DA1 : std_logic_vector (12 downto 0); signal DA2 : std_logic_vector (12 downto 0); signal DD1 : std_logic_vector (7 downto 0); signal DD2 : std_logic_vector (7 downto 0); signal DD3 : std_logic_vector (7 downto 0); signal ram_we : std_logic; signal addr : std_logic_vector (12 downto 0); signal din : std_logic_vector (7 downto 0); -- Dout back to the Atom, that is either VRAM or SID signal dout : std_logic_vector (7 downto 0); -- SID sigmals signal sid_cs : std_logic; signal sid_we : std_logic; signal sid_audio : std_logic; -- UART sigmals signal uart_cs : std_logic; signal uart_we : std_logic; -- Atom extension register signals signal reg_cs : std_logic; signal reg_we : std_logic; signal final_red : std_logic; signal final_green1 : std_logic; signal final_green0 : std_logic; signal final_blue : std_logic; signal final_vsync : std_logic; signal final_hsync : std_logic; signal final_char_a : std_logic_vector (10 downto 0); component DCM0 port( CLKIN_IN : in std_logic; CLK0_OUT : out std_logic; CLK0_OUT1 : out std_logic; CLK2X_OUT : out std_logic ); end component; component DCMSID0 port( CLKIN_IN : in std_logic; CLK0_OUT : out std_logic; CLK0_OUT1 : out std_logic; CLK2X_OUT : out std_logic ); end component; component DCMSID1 port( CLKIN_IN : in std_logic; CLK0_OUT : out std_logic; CLK0_OUT1 : out std_logic; CLK2X_OUT : out std_logic ); end component; component AtomGodilVideo generic ( CImplGraphicsExt : boolean; CImplSoftChar : boolean; CImplSID : boolean; CImplVGA80x40 : boolean; CImplHWScrolling : boolean; CImplMouse : boolean; CImplUart : boolean; MainClockSpeed : integer; DefaultBaud : integer ); port ( -- clock_vga is a full speed VGA clock (25MHz ish) clock_vga : in std_logic; -- clock_main is the main clock clock_main : in std_logic; -- A fixed 32MHz clock for the SID clock_sid_32MHz : in std_logic; -- As fast a clock as possible for the SID DAC clock_sid_dac : in std_logic; -- Reset signal (active high) reset : in std_logic; -- Reset signal to 6847 (active high), not currently used reset_vid : in std_logic; -- Main Address / Data Bus din : in std_logic_vector (7 downto 0); dout : out std_logic_vector (7 downto 0); addr : in std_logic_vector (12 downto 0); -- 6847 Control Signals CSS : in std_logic; AG : in std_logic; GM : in std_logic_vector (2 downto 0); nFS : out std_logic; -- RAM signals ram_we : in std_logic; -- SID signals reg_cs : in std_logic; reg_we : in std_logic; -- SID signals sid_cs : in std_logic; sid_we : in std_logic; sid_audio : out std_logic; -- PS/2 Mouse PS2_CLK : inout std_logic; PS2_DATA : inout std_logic; -- UART signals uart_cs : in std_logic; uart_we : in std_logic; uart_RxD : in std_logic; uart_TxD : out std_logic; uart_escape : out std_logic; uart_break : out std_logic; -- VGA Signals final_red : out std_logic; final_green1 : out std_logic; final_green0 : out std_logic; final_blue : out std_logic; final_vsync : out std_logic; final_hsync : out std_logic ); end component; begin reset <= not nRST; reset_vid <= '0'; -- Currently set at 49.152 * 8 / 31 = 12.684MHz -- half VGA should be 25.175 / 2 = 12. 5875 -- we could get closer with to cascaded multipliers Inst_DCM0 : DCM0 port map ( CLKIN_IN => clock49, CLK0_OUT => clock25, CLK0_OUT1 => open, CLK2X_OUT => open ); Inst_DCMSID0 : DCMSID0 port map ( CLKIN_IN => clock49, CLK0_OUT => clock15, CLK0_OUT1 => open, CLK2X_OUT => open ); Inst_DCMSID1 : DCMSID1 port map ( CLKIN_IN => clock15, CLK0_OUT => clock32, CLK0_OUT1 => open, CLK2X_OUT => open ); Inst_AtomGodilVideo : AtomGodilVideo generic map ( CImplGraphicsExt => true, CImplSoftChar => true, CImplSID => true, CImplVGA80x40 => true, CImplHWScrolling => true, CImplMouse => true, CImplUart => true, MainClockSpeed => 32000000, DefaultBaud => 115200 ) port map ( clock_vga => clock25, clock_main => clock32, clock_sid_32Mhz => clock32, clock_sid_dac => clock49, reset => reset, reset_vid => reset_vid, din => din, dout => dout, addr => addr, CSS => CSS, AG => AG, GM => GM, nFS => nFS, ram_we => ram_we, reg_cs => reg_cs, reg_we => reg_we, sid_cs => sid_cs, sid_we => sid_we, sid_audio => sid_audio, PS2_CLK => PS2_CLK, PS2_DATA => PS2_DATA, uart_cs => uart_cs, uart_we => uart_we, uart_RxD => uart_RxD, uart_TxD => uart_TxD, uart_escape => open, uart_break => open, final_red => final_red, final_green1 => final_green1, final_green0 => final_green0, final_blue => final_blue, final_vsync => final_vsync, final_hsync => final_hsync ); -- Pipelined version of address/data/write signals process (clock32) begin if rising_edge(clock32) then nBXXX2 <= nBXXX1; nBXXX1 <= nBXXX; nMS2 <= nMS1; nMS1 <= nMS; nWRMS2 <= nWRMS1; nWRMS1 <= nWR or nMS; nWR2 <= nWR1; nWR1 <= nWR; DD3 <= DD2; DD2 <= DD1; DD1 <= DD; DA2 <= DA1; DA1 <= DA; end if; end process; -- Signals driving the VRAM -- Write just before the rising edge of nWR ram_we <= '1' when (nWRMS1 = '1' and nWRMS2 = '0' and nBXXX2 = '1') else '0'; din <= DD3; addr <= DA2; -- Signals driving the internal registers -- When nSIDD=0 the registers are mapped to BDE0-BDFF -- When nSIDD=1 the registers are mapped to 9FE0-9FFF reg_cs <= '1' when (nSIDD = '1' and nMS2 = '0' and DA2(12 downto 5) = "11111111") or (nSIDD = '0' and nBXXX2 = '0' and DA2(11 downto 5) = "1101111") else '0'; reg_we <= '1' when (nSIDD = '1' and nWRMS1 = '1' and nWRMS2 = '0') or (nSIDD = '0' and nWR1 = '1' and nWR2 = '0') else '0'; -- Signals driving the SID -- When nSIDD=0 the SID is mapped to BDC0-BDDF -- When nSIDD=1 the SID is mapped to 9FC0-9FDF sid_cs <= '1' when (nSIDD = '1' and nMS2 = '0' and DA2(12 downto 5) = "11111110") or (nSIDD = '0' and nBXXX2 = '0' and DA2(11 downto 5) = "1101110") else '0'; sid_we <= '1' when (nSIDD = '1' and nWRMS1 = '1' and nWRMS2 = '0') or (nSIDD = '0' and nWR1 = '1' and nWR2 = '0') else '0'; -- Signals driving the UART -- When nSIDD=0 the UART is mapped to BDB0-BDBF -- When nSIDD=1 the UART is mapped to 9FB0-9FBF uart_cs <= '1' when (nSIDD = '1' and nMS2 = '0' and DA2(12 downto 4) = "111111011") or (nSIDD = '0' and nBXXX2 = '0' and DA2(11 downto 4) = "11011011") else '0'; uart_we <= '1' when (nSIDD = '1' and nWRMS1 = '1' and nWRMS2 = '0') or (nSIDD = '0' and nWR1 = '1' and nWR2 = '0') else '0'; AUDIO <= sid_audio; -- Output the SID Select Signal so it can be used to disable the bus buffers -- TODO: this looks incorrect -- nSIDSEL <= not sid_cs; -- Tri-state data back to the Atom DD <= dout when (nMS = '0' and nWR = '1') else (others => 'Z'); -- 1/1/1 Bit RGB Video to PL4 Connectors OA <= final_red when nPL4 = '0' else '0'; CHB <= final_green1 when nPL4 = '0' else '0'; OB <= final_blue when nPL4 = '0' else '0'; nHS <= final_hsync when nPL4 = '0' else '0'; Y <= final_vsync when nPL4 = '0' else '0'; -- 1/2/1 Bit RGB Video to GODIL Test Connector R(0) <= final_red; G(1) <= final_green1; G(0) <= final_green0; B(0) <= final_blue; VSYNC <= final_vsync; HSYNC <= final_hsync; end BEHAVIORAL;
LIBRARY ieee; USE ieee.std_logic_1164.all; ENTITY fa IS PORT( a,b,Cin : IN std_logic; S,Cout : OUT std_logic ); END ENTITY; ARCHITECTURE behavior OF fa IS BEGIN S <= a XOR b XOR Cin; Cout <= (a AND b) OR ((a XOR b) AND Cin); END ARCHITECTURE behavior;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.std_logic_unsigned.ALL; use IEEE.numeric_std.all; use work.MurmurHashUtils.ALL; entity BinarySearchBRAM is generic( DATA_WIDTH : integer := 32; ADDR_WIDTH : integer := 10 ); port( clk : in std_logic;-- un solo reloj para ambos puertos de la BRAM --Puerto de escritura en el cual se vana grabar los datos en la tabla porta_wr : in std_logic; porta_waddr : in std_logic_vector( (ADDR_WIDTH-1) downto 0); porta_din : in std_logic_vector( (DATA_WIDTH-1) downto 0); porta_rd : in std_logic; porta_raddr : in std_logic_vector( (ADDR_WIDTH-1) downto 0); porta_dout : out std_logic_vector( (DATA_WIDTH-1) downto 0); --puerto de lectura, desde el cual se van a leer los 0 --datos para la comparación portb_rd : in std_logic; portb_addr : in std_logic_vector( (ADDR_WIDTH-1) downto 0); portb_dout : out std_logic_vector( (DATA_WIDTH-1) downto 0) ); end entity BinarySearchBRAM; architecture Inferral of BinarySearchBRAM is type mem_type is array ( (2**ADDR_WIDTH)-1 downto 0 ) of std_logic_vector(DATA_WIDTH-1 downto 0); shared variable mem : mem_type; begin portA:process (clk, porta_wr, porta_waddr, porta_raddr, porta_din, porta_rd) begin if rising_edge(clk) then if ( porta_wr = '1' ) then mem(conv_integer(porta_waddr)) := porta_din; elsif ( porta_rd = '1' ) then porta_dout <= mem(conv_integer(porta_raddr)); end if; end if; end process portA; portB:process (clk, portb_rd, portb_addr) begin if rising_edge(clk) then if ( portb_rd = '1' ) then portb_dout <= mem(conv_integer(portb_addr)); end if; end if; end process portB; end architecture Inferral;
-- ============================================================== -- File generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC -- Version: 2015.3 -- Copyright (C) 2015 Xilinx Inc. All rights reserved. -- -- ============================================================== -- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity my_video_filter_line_buffers_val_1_ram is generic( mem_type : string := "block"; dwidth : integer := 8; awidth : integer := 13; mem_size : integer := 5760 ); port ( addr0 : in std_logic_vector(awidth-1 downto 0); ce0 : in std_logic; d0 : in std_logic_vector(dwidth-1 downto 0); we0 : in std_logic; q0 : out std_logic_vector(dwidth-1 downto 0); addr1 : in std_logic_vector(awidth-1 downto 0); ce1 : in std_logic; d1 : in std_logic_vector(dwidth-1 downto 0); we1 : in std_logic; q1 : out std_logic_vector(dwidth-1 downto 0); clk : in std_logic ); end entity; architecture rtl of my_video_filter_line_buffers_val_1_ram is signal addr0_tmp : std_logic_vector(awidth-1 downto 0); signal addr1_tmp : std_logic_vector(awidth-1 downto 0); type mem_array is array (0 to mem_size-1) of std_logic_vector (dwidth-1 downto 0); shared variable ram : mem_array; attribute syn_ramstyle : string; attribute syn_ramstyle of ram : variable is "block_ram"; attribute ram_style : string; attribute ram_style of ram : variable is mem_type; attribute EQUIVALENT_REGISTER_REMOVAL : string; begin memory_access_guard_0: process (addr0) begin addr0_tmp <= addr0; --synthesis translate_off if (CONV_INTEGER(addr0) > mem_size-1) then addr0_tmp <= (others => '0'); else addr0_tmp <= addr0; end if; --synthesis translate_on end process; p_memory_access_0: process (clk) begin if (clk'event and clk = '1') then if (ce0 = '1') then if (we0 = '1') then ram(CONV_INTEGER(addr0_tmp)) := d0; end if; q0 <= ram(CONV_INTEGER(addr0_tmp)); end if; end if; end process; memory_access_guard_1: process (addr1) begin addr1_tmp <= addr1; --synthesis translate_off if (CONV_INTEGER(addr1) > mem_size-1) then addr1_tmp <= (others => '0'); else addr1_tmp <= addr1; end if; --synthesis translate_on end process; p_memory_access_1: process (clk) begin if (clk'event and clk = '1') then if (ce1 = '1') then if (we1 = '1') then ram(CONV_INTEGER(addr1_tmp)) := d1; end if; q1 <= ram(CONV_INTEGER(addr1_tmp)); end if; end if; end process; end rtl; Library IEEE; use IEEE.std_logic_1164.all; entity my_video_filter_line_buffers_val_1 is generic ( DataWidth : INTEGER := 8; AddressRange : INTEGER := 5760; AddressWidth : INTEGER := 13); port ( reset : IN STD_LOGIC; clk : IN STD_LOGIC; address0 : IN STD_LOGIC_VECTOR(AddressWidth - 1 DOWNTO 0); ce0 : IN STD_LOGIC; we0 : IN STD_LOGIC; d0 : IN STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); q0 : OUT STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); address1 : IN STD_LOGIC_VECTOR(AddressWidth - 1 DOWNTO 0); ce1 : IN STD_LOGIC; we1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); q1 : OUT STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0)); end entity; architecture arch of my_video_filter_line_buffers_val_1 is component my_video_filter_line_buffers_val_1_ram is port ( clk : IN STD_LOGIC; addr0 : IN STD_LOGIC_VECTOR; ce0 : IN STD_LOGIC; d0 : IN STD_LOGIC_VECTOR; we0 : IN STD_LOGIC; q0 : OUT STD_LOGIC_VECTOR; addr1 : IN STD_LOGIC_VECTOR; ce1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR; we1 : IN STD_LOGIC; q1 : OUT STD_LOGIC_VECTOR); end component; begin my_video_filter_line_buffers_val_1_ram_U : component my_video_filter_line_buffers_val_1_ram port map ( clk => clk, addr0 => address0, ce0 => ce0, d0 => d0, we0 => we0, q0 => q0, addr1 => address1, ce1 => ce1, d1 => d1, we1 => we1, q1 => q1); end architecture;
-- ============================================================== -- File generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC -- Version: 2015.3 -- Copyright (C) 2015 Xilinx Inc. All rights reserved. -- -- ============================================================== -- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity my_video_filter_line_buffers_val_1_ram is generic( mem_type : string := "block"; dwidth : integer := 8; awidth : integer := 13; mem_size : integer := 5760 ); port ( addr0 : in std_logic_vector(awidth-1 downto 0); ce0 : in std_logic; d0 : in std_logic_vector(dwidth-1 downto 0); we0 : in std_logic; q0 : out std_logic_vector(dwidth-1 downto 0); addr1 : in std_logic_vector(awidth-1 downto 0); ce1 : in std_logic; d1 : in std_logic_vector(dwidth-1 downto 0); we1 : in std_logic; q1 : out std_logic_vector(dwidth-1 downto 0); clk : in std_logic ); end entity; architecture rtl of my_video_filter_line_buffers_val_1_ram is signal addr0_tmp : std_logic_vector(awidth-1 downto 0); signal addr1_tmp : std_logic_vector(awidth-1 downto 0); type mem_array is array (0 to mem_size-1) of std_logic_vector (dwidth-1 downto 0); shared variable ram : mem_array; attribute syn_ramstyle : string; attribute syn_ramstyle of ram : variable is "block_ram"; attribute ram_style : string; attribute ram_style of ram : variable is mem_type; attribute EQUIVALENT_REGISTER_REMOVAL : string; begin memory_access_guard_0: process (addr0) begin addr0_tmp <= addr0; --synthesis translate_off if (CONV_INTEGER(addr0) > mem_size-1) then addr0_tmp <= (others => '0'); else addr0_tmp <= addr0; end if; --synthesis translate_on end process; p_memory_access_0: process (clk) begin if (clk'event and clk = '1') then if (ce0 = '1') then if (we0 = '1') then ram(CONV_INTEGER(addr0_tmp)) := d0; end if; q0 <= ram(CONV_INTEGER(addr0_tmp)); end if; end if; end process; memory_access_guard_1: process (addr1) begin addr1_tmp <= addr1; --synthesis translate_off if (CONV_INTEGER(addr1) > mem_size-1) then addr1_tmp <= (others => '0'); else addr1_tmp <= addr1; end if; --synthesis translate_on end process; p_memory_access_1: process (clk) begin if (clk'event and clk = '1') then if (ce1 = '1') then if (we1 = '1') then ram(CONV_INTEGER(addr1_tmp)) := d1; end if; q1 <= ram(CONV_INTEGER(addr1_tmp)); end if; end if; end process; end rtl; Library IEEE; use IEEE.std_logic_1164.all; entity my_video_filter_line_buffers_val_1 is generic ( DataWidth : INTEGER := 8; AddressRange : INTEGER := 5760; AddressWidth : INTEGER := 13); port ( reset : IN STD_LOGIC; clk : IN STD_LOGIC; address0 : IN STD_LOGIC_VECTOR(AddressWidth - 1 DOWNTO 0); ce0 : IN STD_LOGIC; we0 : IN STD_LOGIC; d0 : IN STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); q0 : OUT STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); address1 : IN STD_LOGIC_VECTOR(AddressWidth - 1 DOWNTO 0); ce1 : IN STD_LOGIC; we1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); q1 : OUT STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0)); end entity; architecture arch of my_video_filter_line_buffers_val_1 is component my_video_filter_line_buffers_val_1_ram is port ( clk : IN STD_LOGIC; addr0 : IN STD_LOGIC_VECTOR; ce0 : IN STD_LOGIC; d0 : IN STD_LOGIC_VECTOR; we0 : IN STD_LOGIC; q0 : OUT STD_LOGIC_VECTOR; addr1 : IN STD_LOGIC_VECTOR; ce1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR; we1 : IN STD_LOGIC; q1 : OUT STD_LOGIC_VECTOR); end component; begin my_video_filter_line_buffers_val_1_ram_U : component my_video_filter_line_buffers_val_1_ram port map ( clk => clk, addr0 => address0, ce0 => ce0, d0 => d0, we0 => we0, q0 => q0, addr1 => address1, ce1 => ce1, d1 => d1, we1 => we1, q1 => q1); end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.usb_pkg.all; use work.io_bus_pkg.all; use work.mem_bus_pkg.all; library unisim; use unisim.vcomponents.all; entity usb_controller is generic ( g_tag : std_logic_vector(7 downto 0) := X"55" ); port ( ulpi_clock : in std_logic; ulpi_reset : in std_logic; -- ULPI Interface ULPI_DATA : inout std_logic_vector(7 downto 0); ULPI_DIR : in std_logic; ULPI_NXT : in std_logic; ULPI_STP : out std_logic; -- LED interface usb_busy : out std_logic; -- register interface bus sys_clock : in std_logic; sys_reset : in std_logic; sys_mem_req : out t_mem_req; sys_mem_resp: in t_mem_resp; sys_io_req : in t_io_req; sys_io_resp : out t_io_resp ); end usb_controller; architecture wrap of usb_controller is signal nano_addr : unsigned(7 downto 0); signal nano_write : std_logic; signal nano_read : std_logic; signal nano_wdata : std_logic_vector(15 downto 0); signal nano_rdata : std_logic_vector(15 downto 0); signal stall : std_logic := '0'; signal rx_pid : std_logic_vector(3 downto 0) := X"0"; signal rx_token : std_logic_vector(10 downto 0) := (others => '0'); signal rx_valid_token : std_logic := '0'; signal rx_valid_handsh : std_logic := '0'; signal rx_valid_packet : std_logic := '0'; signal rx_error : std_logic := '0'; signal rx_user_valid : std_logic := '0'; signal rx_user_start : std_logic := '0'; signal rx_user_data : std_logic_vector(7 downto 0) := X"12"; signal tx_busy : std_logic; signal tx_ack : std_logic; signal tx_send_token : std_logic; signal tx_send_handsh : std_logic; signal tx_pid : std_logic_vector(3 downto 0); signal tx_token : std_logic_vector(10 downto 0); signal tx_send_data : std_logic; signal tx_no_data : std_logic; signal tx_user_data : std_logic_vector(7 downto 0); signal tx_user_last : std_logic; signal tx_user_next : std_logic; signal tx_length : unsigned(10 downto 0); signal transferred : unsigned(10 downto 0); -- cmd interface signal cmd_addr : std_logic_vector(3 downto 0); signal cmd_valid : std_logic; signal cmd_write : std_logic; signal cmd_wdata : std_logic_vector(15 downto 0); signal cmd_ack : std_logic; signal cmd_ready : std_logic; signal sys_buf_addr : std_logic_vector(10 downto 0); signal sys_buf_en : std_logic; signal sys_buf_we : std_logic; signal sys_buf_wdata : std_logic_vector(7 downto 0); signal sys_buf_rdata : std_logic_vector(7 downto 0); signal ulpi_buf_addr : std_logic_vector(10 downto 0); signal ulpi_buf_en : std_logic; signal ulpi_buf_we : std_logic; signal ulpi_buf_wdata : std_logic_vector(7 downto 0); signal ulpi_buf_rdata : std_logic_vector(7 downto 0); -- low level signal tx_data : std_logic_vector(7 downto 0) := X"00"; signal tx_last : std_logic := '0'; signal tx_valid : std_logic := '0'; signal tx_start : std_logic := '0'; signal tx_next : std_logic := '0'; signal tx_chirp_start : std_logic; signal tx_chirp_level : std_logic; signal tx_chirp_end : std_logic; signal rx_data : std_logic_vector(7 downto 0); signal status : std_logic_vector(7 downto 0); signal rx_last : std_logic; signal rx_valid : std_logic; signal rx_store : std_logic; signal rx_register : std_logic; signal reg_read : std_logic := '0'; signal reg_write : std_logic := '0'; signal reg_ack : std_logic; signal reg_addr : std_logic_vector(5 downto 0); signal reg_wdata : std_logic_vector(7 downto 0); signal speed : std_logic_vector(1 downto 0) := "10"; -- TODO! begin i_nano: entity work.nano port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_write => nano_write, io_read => nano_read, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- system interface (to write code into the nano) sys_clock => sys_clock, sys_reset => sys_reset, sys_io_req => sys_io_req, sys_io_resp => sys_io_resp ); i_regs: entity work.usb_io_bank port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_read => nano_read, io_write => nano_write, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- memory controller mem_ready => cmd_ready, transferred => transferred, -- Register access reg_addr => reg_addr, reg_read => reg_read, reg_write => reg_write, reg_ack => reg_ack, reg_wdata => reg_wdata, reg_rdata => rx_data, status => status, -- I/O pins from RX rx_pid => rx_pid, rx_token => rx_token, rx_valid_token => rx_valid_token, rx_valid_handsh => rx_valid_handsh, rx_valid_packet => rx_valid_packet, rx_error => rx_error, -- I/O pins to TX tx_pid => tx_pid, tx_token => tx_token, tx_send_token => tx_send_token, tx_send_handsh => tx_send_handsh, tx_send_data => tx_send_data, tx_length => tx_length, tx_no_data => tx_no_data, tx_ack => tx_ack, tx_chirp_start => tx_chirp_start, tx_chirp_end => tx_chirp_end, tx_chirp_level => tx_chirp_level ); i_bridge_to_mem_ctrl: entity work.bridge_to_mem_ctrl port map ( ulpi_clock => ulpi_clock, ulpi_reset => ulpi_reset, nano_addr => nano_addr, nano_write => nano_write, nano_wdata => nano_wdata, sys_clock => sys_clock, sys_reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack ); i_memctrl: entity work.usb_memory_ctrl generic map ( g_tag => g_tag ) port map ( clock => sys_clock, reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack, cmd_ready => cmd_ready, -- BRAM interface ram_addr => sys_buf_addr, ram_en => sys_buf_en, ram_we => sys_buf_we, ram_wdata => sys_buf_wdata, ram_rdata => sys_buf_rdata, -- memory interface mem_req => sys_mem_req, mem_resp => sys_mem_resp ); i_buf_ram: RAMB16_S9_S9 port map ( CLKA => sys_clock, SSRA => sys_reset, ENA => sys_buf_en, WEA => sys_buf_we, ADDRA => sys_buf_addr, DIA => sys_buf_wdata, DIPA => "0", DOA => sys_buf_rdata, CLKB => ulpi_clock, SSRB => ulpi_reset, ENB => ulpi_buf_en, WEB => ulpi_buf_we, ADDRB => ulpi_buf_addr, DIB => ulpi_buf_wdata, DIPB => "0", DOB => ulpi_buf_rdata ); i_buf_ctrl: entity work.rxtx_to_buf port map ( clock => ulpi_clock, reset => ulpi_reset, -- transferred length transferred => transferred, -- bram interface ram_addr => ulpi_buf_addr, ram_wdata => ulpi_buf_wdata, ram_rdata => ulpi_buf_rdata, ram_we => ulpi_buf_we, ram_en => ulpi_buf_en, -- Interface from RX user_rx_valid => rx_user_valid, user_rx_start => rx_user_start, user_rx_data => rx_user_data, user_rx_last => rx_last, -- Interface to TX send_data => tx_send_data, last_addr => tx_length, no_data => tx_no_data, user_tx_data => tx_user_data, user_tx_last => tx_user_last, user_tx_next => tx_user_next ); i_tx: entity work.ulpi_tx port map ( clock => ulpi_clock, reset => ulpi_reset, -- Bus Interface tx_start => tx_start, tx_last => tx_last, tx_valid => tx_valid, tx_next => tx_next, tx_data => tx_data, -- Status speed => speed, status => status, busy => tx_busy, tx_ack => tx_ack, -- Interface to send tokens send_token => tx_send_token, send_handsh => tx_send_handsh, pid => tx_pid, token => tx_token, -- Interface to send data packets send_data => tx_send_data, no_data => tx_no_data, user_data => tx_user_data, user_last => tx_user_last, user_next => tx_user_next, -- Interface to read/write registers and reset packets send_reset_data => tx_chirp_start, reset_data => tx_chirp_level, reset_last => tx_chirp_end ); i_rx: entity work.ulpi_rx generic map ( g_allow_token => false ) port map ( clock => ulpi_clock, reset => ulpi_reset, rx_data => rx_data, rx_last => rx_last, rx_valid => rx_valid, rx_store => rx_store, pid => rx_pid, token => rx_token, valid_token => rx_valid_token, valid_handsh => rx_valid_handsh, valid_packet => rx_valid_packet, data_out => rx_user_data, data_valid => rx_user_valid, data_start => rx_user_start, error => rx_error ); i_bus: entity work.ulpi_bus port map ( clock => ulpi_clock, reset => ulpi_reset, ULPI_DATA => ULPI_DATA, ULPI_DIR => ULPI_DIR, ULPI_NXT => ULPI_NXT, ULPI_STP => ULPI_STP, status => status, -- register interface reg_read => reg_read, reg_write => reg_write, reg_address => reg_addr, reg_wdata => reg_wdata, reg_ack => reg_ack, -- stream interface tx_data => tx_data, tx_last => tx_last, tx_valid => tx_valid, tx_start => tx_start, tx_next => tx_next, rx_data => rx_data, rx_last => rx_last, rx_register => rx_register, rx_store => rx_store, rx_valid => rx_valid ); end wrap;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.usb_pkg.all; use work.io_bus_pkg.all; use work.mem_bus_pkg.all; library unisim; use unisim.vcomponents.all; entity usb_controller is generic ( g_tag : std_logic_vector(7 downto 0) := X"55" ); port ( ulpi_clock : in std_logic; ulpi_reset : in std_logic; -- ULPI Interface ULPI_DATA : inout std_logic_vector(7 downto 0); ULPI_DIR : in std_logic; ULPI_NXT : in std_logic; ULPI_STP : out std_logic; -- LED interface usb_busy : out std_logic; -- register interface bus sys_clock : in std_logic; sys_reset : in std_logic; sys_mem_req : out t_mem_req; sys_mem_resp: in t_mem_resp; sys_io_req : in t_io_req; sys_io_resp : out t_io_resp ); end usb_controller; architecture wrap of usb_controller is signal nano_addr : unsigned(7 downto 0); signal nano_write : std_logic; signal nano_read : std_logic; signal nano_wdata : std_logic_vector(15 downto 0); signal nano_rdata : std_logic_vector(15 downto 0); signal stall : std_logic := '0'; signal rx_pid : std_logic_vector(3 downto 0) := X"0"; signal rx_token : std_logic_vector(10 downto 0) := (others => '0'); signal rx_valid_token : std_logic := '0'; signal rx_valid_handsh : std_logic := '0'; signal rx_valid_packet : std_logic := '0'; signal rx_error : std_logic := '0'; signal rx_user_valid : std_logic := '0'; signal rx_user_start : std_logic := '0'; signal rx_user_data : std_logic_vector(7 downto 0) := X"12"; signal tx_busy : std_logic; signal tx_ack : std_logic; signal tx_send_token : std_logic; signal tx_send_handsh : std_logic; signal tx_pid : std_logic_vector(3 downto 0); signal tx_token : std_logic_vector(10 downto 0); signal tx_send_data : std_logic; signal tx_no_data : std_logic; signal tx_user_data : std_logic_vector(7 downto 0); signal tx_user_last : std_logic; signal tx_user_next : std_logic; signal tx_length : unsigned(10 downto 0); signal transferred : unsigned(10 downto 0); -- cmd interface signal cmd_addr : std_logic_vector(3 downto 0); signal cmd_valid : std_logic; signal cmd_write : std_logic; signal cmd_wdata : std_logic_vector(15 downto 0); signal cmd_ack : std_logic; signal cmd_ready : std_logic; signal sys_buf_addr : std_logic_vector(10 downto 0); signal sys_buf_en : std_logic; signal sys_buf_we : std_logic; signal sys_buf_wdata : std_logic_vector(7 downto 0); signal sys_buf_rdata : std_logic_vector(7 downto 0); signal ulpi_buf_addr : std_logic_vector(10 downto 0); signal ulpi_buf_en : std_logic; signal ulpi_buf_we : std_logic; signal ulpi_buf_wdata : std_logic_vector(7 downto 0); signal ulpi_buf_rdata : std_logic_vector(7 downto 0); -- low level signal tx_data : std_logic_vector(7 downto 0) := X"00"; signal tx_last : std_logic := '0'; signal tx_valid : std_logic := '0'; signal tx_start : std_logic := '0'; signal tx_next : std_logic := '0'; signal tx_chirp_start : std_logic; signal tx_chirp_level : std_logic; signal tx_chirp_end : std_logic; signal rx_data : std_logic_vector(7 downto 0); signal status : std_logic_vector(7 downto 0); signal rx_last : std_logic; signal rx_valid : std_logic; signal rx_store : std_logic; signal rx_register : std_logic; signal reg_read : std_logic := '0'; signal reg_write : std_logic := '0'; signal reg_ack : std_logic; signal reg_addr : std_logic_vector(5 downto 0); signal reg_wdata : std_logic_vector(7 downto 0); signal speed : std_logic_vector(1 downto 0) := "10"; -- TODO! begin i_nano: entity work.nano port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_write => nano_write, io_read => nano_read, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- system interface (to write code into the nano) sys_clock => sys_clock, sys_reset => sys_reset, sys_io_req => sys_io_req, sys_io_resp => sys_io_resp ); i_regs: entity work.usb_io_bank port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_read => nano_read, io_write => nano_write, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- memory controller mem_ready => cmd_ready, transferred => transferred, -- Register access reg_addr => reg_addr, reg_read => reg_read, reg_write => reg_write, reg_ack => reg_ack, reg_wdata => reg_wdata, reg_rdata => rx_data, status => status, -- I/O pins from RX rx_pid => rx_pid, rx_token => rx_token, rx_valid_token => rx_valid_token, rx_valid_handsh => rx_valid_handsh, rx_valid_packet => rx_valid_packet, rx_error => rx_error, -- I/O pins to TX tx_pid => tx_pid, tx_token => tx_token, tx_send_token => tx_send_token, tx_send_handsh => tx_send_handsh, tx_send_data => tx_send_data, tx_length => tx_length, tx_no_data => tx_no_data, tx_ack => tx_ack, tx_chirp_start => tx_chirp_start, tx_chirp_end => tx_chirp_end, tx_chirp_level => tx_chirp_level ); i_bridge_to_mem_ctrl: entity work.bridge_to_mem_ctrl port map ( ulpi_clock => ulpi_clock, ulpi_reset => ulpi_reset, nano_addr => nano_addr, nano_write => nano_write, nano_wdata => nano_wdata, sys_clock => sys_clock, sys_reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack ); i_memctrl: entity work.usb_memory_ctrl generic map ( g_tag => g_tag ) port map ( clock => sys_clock, reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack, cmd_ready => cmd_ready, -- BRAM interface ram_addr => sys_buf_addr, ram_en => sys_buf_en, ram_we => sys_buf_we, ram_wdata => sys_buf_wdata, ram_rdata => sys_buf_rdata, -- memory interface mem_req => sys_mem_req, mem_resp => sys_mem_resp ); i_buf_ram: RAMB16_S9_S9 port map ( CLKA => sys_clock, SSRA => sys_reset, ENA => sys_buf_en, WEA => sys_buf_we, ADDRA => sys_buf_addr, DIA => sys_buf_wdata, DIPA => "0", DOA => sys_buf_rdata, CLKB => ulpi_clock, SSRB => ulpi_reset, ENB => ulpi_buf_en, WEB => ulpi_buf_we, ADDRB => ulpi_buf_addr, DIB => ulpi_buf_wdata, DIPB => "0", DOB => ulpi_buf_rdata ); i_buf_ctrl: entity work.rxtx_to_buf port map ( clock => ulpi_clock, reset => ulpi_reset, -- transferred length transferred => transferred, -- bram interface ram_addr => ulpi_buf_addr, ram_wdata => ulpi_buf_wdata, ram_rdata => ulpi_buf_rdata, ram_we => ulpi_buf_we, ram_en => ulpi_buf_en, -- Interface from RX user_rx_valid => rx_user_valid, user_rx_start => rx_user_start, user_rx_data => rx_user_data, user_rx_last => rx_last, -- Interface to TX send_data => tx_send_data, last_addr => tx_length, no_data => tx_no_data, user_tx_data => tx_user_data, user_tx_last => tx_user_last, user_tx_next => tx_user_next ); i_tx: entity work.ulpi_tx port map ( clock => ulpi_clock, reset => ulpi_reset, -- Bus Interface tx_start => tx_start, tx_last => tx_last, tx_valid => tx_valid, tx_next => tx_next, tx_data => tx_data, -- Status speed => speed, status => status, busy => tx_busy, tx_ack => tx_ack, -- Interface to send tokens send_token => tx_send_token, send_handsh => tx_send_handsh, pid => tx_pid, token => tx_token, -- Interface to send data packets send_data => tx_send_data, no_data => tx_no_data, user_data => tx_user_data, user_last => tx_user_last, user_next => tx_user_next, -- Interface to read/write registers and reset packets send_reset_data => tx_chirp_start, reset_data => tx_chirp_level, reset_last => tx_chirp_end ); i_rx: entity work.ulpi_rx generic map ( g_allow_token => false ) port map ( clock => ulpi_clock, reset => ulpi_reset, rx_data => rx_data, rx_last => rx_last, rx_valid => rx_valid, rx_store => rx_store, pid => rx_pid, token => rx_token, valid_token => rx_valid_token, valid_handsh => rx_valid_handsh, valid_packet => rx_valid_packet, data_out => rx_user_data, data_valid => rx_user_valid, data_start => rx_user_start, error => rx_error ); i_bus: entity work.ulpi_bus port map ( clock => ulpi_clock, reset => ulpi_reset, ULPI_DATA => ULPI_DATA, ULPI_DIR => ULPI_DIR, ULPI_NXT => ULPI_NXT, ULPI_STP => ULPI_STP, status => status, -- register interface reg_read => reg_read, reg_write => reg_write, reg_address => reg_addr, reg_wdata => reg_wdata, reg_ack => reg_ack, -- stream interface tx_data => tx_data, tx_last => tx_last, tx_valid => tx_valid, tx_start => tx_start, tx_next => tx_next, rx_data => rx_data, rx_last => rx_last, rx_register => rx_register, rx_store => rx_store, rx_valid => rx_valid ); end wrap;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.usb_pkg.all; use work.io_bus_pkg.all; use work.mem_bus_pkg.all; library unisim; use unisim.vcomponents.all; entity usb_controller is generic ( g_tag : std_logic_vector(7 downto 0) := X"55" ); port ( ulpi_clock : in std_logic; ulpi_reset : in std_logic; -- ULPI Interface ULPI_DATA : inout std_logic_vector(7 downto 0); ULPI_DIR : in std_logic; ULPI_NXT : in std_logic; ULPI_STP : out std_logic; -- LED interface usb_busy : out std_logic; -- register interface bus sys_clock : in std_logic; sys_reset : in std_logic; sys_mem_req : out t_mem_req; sys_mem_resp: in t_mem_resp; sys_io_req : in t_io_req; sys_io_resp : out t_io_resp ); end usb_controller; architecture wrap of usb_controller is signal nano_addr : unsigned(7 downto 0); signal nano_write : std_logic; signal nano_read : std_logic; signal nano_wdata : std_logic_vector(15 downto 0); signal nano_rdata : std_logic_vector(15 downto 0); signal stall : std_logic := '0'; signal rx_pid : std_logic_vector(3 downto 0) := X"0"; signal rx_token : std_logic_vector(10 downto 0) := (others => '0'); signal rx_valid_token : std_logic := '0'; signal rx_valid_handsh : std_logic := '0'; signal rx_valid_packet : std_logic := '0'; signal rx_error : std_logic := '0'; signal rx_user_valid : std_logic := '0'; signal rx_user_start : std_logic := '0'; signal rx_user_data : std_logic_vector(7 downto 0) := X"12"; signal tx_busy : std_logic; signal tx_ack : std_logic; signal tx_send_token : std_logic; signal tx_send_handsh : std_logic; signal tx_pid : std_logic_vector(3 downto 0); signal tx_token : std_logic_vector(10 downto 0); signal tx_send_data : std_logic; signal tx_no_data : std_logic; signal tx_user_data : std_logic_vector(7 downto 0); signal tx_user_last : std_logic; signal tx_user_next : std_logic; signal tx_length : unsigned(10 downto 0); signal transferred : unsigned(10 downto 0); -- cmd interface signal cmd_addr : std_logic_vector(3 downto 0); signal cmd_valid : std_logic; signal cmd_write : std_logic; signal cmd_wdata : std_logic_vector(15 downto 0); signal cmd_ack : std_logic; signal cmd_ready : std_logic; signal sys_buf_addr : std_logic_vector(10 downto 0); signal sys_buf_en : std_logic; signal sys_buf_we : std_logic; signal sys_buf_wdata : std_logic_vector(7 downto 0); signal sys_buf_rdata : std_logic_vector(7 downto 0); signal ulpi_buf_addr : std_logic_vector(10 downto 0); signal ulpi_buf_en : std_logic; signal ulpi_buf_we : std_logic; signal ulpi_buf_wdata : std_logic_vector(7 downto 0); signal ulpi_buf_rdata : std_logic_vector(7 downto 0); -- low level signal tx_data : std_logic_vector(7 downto 0) := X"00"; signal tx_last : std_logic := '0'; signal tx_valid : std_logic := '0'; signal tx_start : std_logic := '0'; signal tx_next : std_logic := '0'; signal tx_chirp_start : std_logic; signal tx_chirp_level : std_logic; signal tx_chirp_end : std_logic; signal rx_data : std_logic_vector(7 downto 0); signal status : std_logic_vector(7 downto 0); signal rx_last : std_logic; signal rx_valid : std_logic; signal rx_store : std_logic; signal rx_register : std_logic; signal reg_read : std_logic := '0'; signal reg_write : std_logic := '0'; signal reg_ack : std_logic; signal reg_addr : std_logic_vector(5 downto 0); signal reg_wdata : std_logic_vector(7 downto 0); signal speed : std_logic_vector(1 downto 0) := "10"; -- TODO! begin i_nano: entity work.nano port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_write => nano_write, io_read => nano_read, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- system interface (to write code into the nano) sys_clock => sys_clock, sys_reset => sys_reset, sys_io_req => sys_io_req, sys_io_resp => sys_io_resp ); i_regs: entity work.usb_io_bank port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_read => nano_read, io_write => nano_write, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- memory controller mem_ready => cmd_ready, transferred => transferred, -- Register access reg_addr => reg_addr, reg_read => reg_read, reg_write => reg_write, reg_ack => reg_ack, reg_wdata => reg_wdata, reg_rdata => rx_data, status => status, -- I/O pins from RX rx_pid => rx_pid, rx_token => rx_token, rx_valid_token => rx_valid_token, rx_valid_handsh => rx_valid_handsh, rx_valid_packet => rx_valid_packet, rx_error => rx_error, -- I/O pins to TX tx_pid => tx_pid, tx_token => tx_token, tx_send_token => tx_send_token, tx_send_handsh => tx_send_handsh, tx_send_data => tx_send_data, tx_length => tx_length, tx_no_data => tx_no_data, tx_ack => tx_ack, tx_chirp_start => tx_chirp_start, tx_chirp_end => tx_chirp_end, tx_chirp_level => tx_chirp_level ); i_bridge_to_mem_ctrl: entity work.bridge_to_mem_ctrl port map ( ulpi_clock => ulpi_clock, ulpi_reset => ulpi_reset, nano_addr => nano_addr, nano_write => nano_write, nano_wdata => nano_wdata, sys_clock => sys_clock, sys_reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack ); i_memctrl: entity work.usb_memory_ctrl generic map ( g_tag => g_tag ) port map ( clock => sys_clock, reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack, cmd_ready => cmd_ready, -- BRAM interface ram_addr => sys_buf_addr, ram_en => sys_buf_en, ram_we => sys_buf_we, ram_wdata => sys_buf_wdata, ram_rdata => sys_buf_rdata, -- memory interface mem_req => sys_mem_req, mem_resp => sys_mem_resp ); i_buf_ram: RAMB16_S9_S9 port map ( CLKA => sys_clock, SSRA => sys_reset, ENA => sys_buf_en, WEA => sys_buf_we, ADDRA => sys_buf_addr, DIA => sys_buf_wdata, DIPA => "0", DOA => sys_buf_rdata, CLKB => ulpi_clock, SSRB => ulpi_reset, ENB => ulpi_buf_en, WEB => ulpi_buf_we, ADDRB => ulpi_buf_addr, DIB => ulpi_buf_wdata, DIPB => "0", DOB => ulpi_buf_rdata ); i_buf_ctrl: entity work.rxtx_to_buf port map ( clock => ulpi_clock, reset => ulpi_reset, -- transferred length transferred => transferred, -- bram interface ram_addr => ulpi_buf_addr, ram_wdata => ulpi_buf_wdata, ram_rdata => ulpi_buf_rdata, ram_we => ulpi_buf_we, ram_en => ulpi_buf_en, -- Interface from RX user_rx_valid => rx_user_valid, user_rx_start => rx_user_start, user_rx_data => rx_user_data, user_rx_last => rx_last, -- Interface to TX send_data => tx_send_data, last_addr => tx_length, no_data => tx_no_data, user_tx_data => tx_user_data, user_tx_last => tx_user_last, user_tx_next => tx_user_next ); i_tx: entity work.ulpi_tx port map ( clock => ulpi_clock, reset => ulpi_reset, -- Bus Interface tx_start => tx_start, tx_last => tx_last, tx_valid => tx_valid, tx_next => tx_next, tx_data => tx_data, -- Status speed => speed, status => status, busy => tx_busy, tx_ack => tx_ack, -- Interface to send tokens send_token => tx_send_token, send_handsh => tx_send_handsh, pid => tx_pid, token => tx_token, -- Interface to send data packets send_data => tx_send_data, no_data => tx_no_data, user_data => tx_user_data, user_last => tx_user_last, user_next => tx_user_next, -- Interface to read/write registers and reset packets send_reset_data => tx_chirp_start, reset_data => tx_chirp_level, reset_last => tx_chirp_end ); i_rx: entity work.ulpi_rx generic map ( g_allow_token => false ) port map ( clock => ulpi_clock, reset => ulpi_reset, rx_data => rx_data, rx_last => rx_last, rx_valid => rx_valid, rx_store => rx_store, pid => rx_pid, token => rx_token, valid_token => rx_valid_token, valid_handsh => rx_valid_handsh, valid_packet => rx_valid_packet, data_out => rx_user_data, data_valid => rx_user_valid, data_start => rx_user_start, error => rx_error ); i_bus: entity work.ulpi_bus port map ( clock => ulpi_clock, reset => ulpi_reset, ULPI_DATA => ULPI_DATA, ULPI_DIR => ULPI_DIR, ULPI_NXT => ULPI_NXT, ULPI_STP => ULPI_STP, status => status, -- register interface reg_read => reg_read, reg_write => reg_write, reg_address => reg_addr, reg_wdata => reg_wdata, reg_ack => reg_ack, -- stream interface tx_data => tx_data, tx_last => tx_last, tx_valid => tx_valid, tx_start => tx_start, tx_next => tx_next, rx_data => rx_data, rx_last => rx_last, rx_register => rx_register, rx_store => rx_store, rx_valid => rx_valid ); end wrap;
-- Copyright 1986-2017 Xilinx, Inc. All Rights Reserved. -- -------------------------------------------------------------------------------- -- Tool Version: Vivado v.2017.2 (win64) Build 1909853 Thu Jun 15 18:39:09 MDT 2017 -- Date : Tue Sep 19 09:38:22 2017 -- Host : DarkCube running 64-bit major release (build 9200) -- Command : write_vhdl -force -mode synth_stub -- c:/Users/markb/Source/Repos/FPGA_Sandbox/RecComp/Lab1/embedded_lab_2/embedded_lab_2.srcs/sources_1/bd/zynq_design_1/ip/zynq_design_1_rst_ps7_0_100M_0/zynq_design_1_rst_ps7_0_100M_0_stub.vhdl -- Design : zynq_design_1_rst_ps7_0_100M_0 -- Purpose : Stub declaration of top-level module interface -- Device : xc7z020clg484-1 -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; entity zynq_design_1_rst_ps7_0_100M_0 is Port ( slowest_sync_clk : in STD_LOGIC; ext_reset_in : in STD_LOGIC; aux_reset_in : in STD_LOGIC; mb_debug_sys_rst : in STD_LOGIC; dcm_locked : in STD_LOGIC; mb_reset : out STD_LOGIC; bus_struct_reset : out STD_LOGIC_VECTOR ( 0 to 0 ); peripheral_reset : out STD_LOGIC_VECTOR ( 0 to 0 ); interconnect_aresetn : out STD_LOGIC_VECTOR ( 0 to 0 ); peripheral_aresetn : out STD_LOGIC_VECTOR ( 0 to 0 ) ); end zynq_design_1_rst_ps7_0_100M_0; architecture stub of zynq_design_1_rst_ps7_0_100M_0 is attribute syn_black_box : boolean; attribute black_box_pad_pin : string; attribute syn_black_box of stub : architecture is true; attribute black_box_pad_pin of stub : architecture is "slowest_sync_clk,ext_reset_in,aux_reset_in,mb_debug_sys_rst,dcm_locked,mb_reset,bus_struct_reset[0:0],peripheral_reset[0:0],interconnect_aresetn[0:0],peripheral_aresetn[0:0]"; attribute x_core_info : string; attribute x_core_info of stub : architecture is "proc_sys_reset,Vivado 2017.2"; begin end;
-- 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: tc3141.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c05s02b02x00p10n01i03141ent_a IS generic ( g1 : real := 22.0 ); END c05s02b02x00p10n01i03141ent_a; ARCHITECTURE c05s02b02x00p10n01i03141arch_a OF c05s02b02x00p10n01i03141ent_a IS BEGIN TESTING: PROCESS BEGIN assert NOT( g1 = 22.0 ) report "*PASSED TEST: c05s02b02x00p10n01i03141" severity NOTE; assert ( g1 = 22.0 ) report "*FAILED TEST: c05s02b02x00p10n01i03141 - The formal generics take on implicit OPENs." severity ERROR; wait; END PROCESS TESTING; END c05s02b02x00p10n01i03141arch_a; -- ENTITY c05s02b02x00p10n01i03141ent IS END c05s02b02x00p10n01i03141ent; ARCHITECTURE c05s02b02x00p10n01i03141arch OF c05s02b02x00p10n01i03141ent IS component c05s02b02x00p10n01i03141ent_a end component; for comp1 : c05s02b02x00p10n01i03141ent_a use entity work.c05s02b02x00p10n01i03141ent_a(c05s02b02x00p10n01i03141arch_a); BEGIN comp1 : c05s02b02x00p10n01i03141ent_a; END c05s02b02x00p10n01i03141arch; configuration c05s02b02x00p10n01i03141_cfg of c05s02b02x00p10n01i03141ent is for c05s02b02x00p10n01i03141arch end for; end c05s02b02x00p10n01i03141_cfg;
-- 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: tc3141.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c05s02b02x00p10n01i03141ent_a IS generic ( g1 : real := 22.0 ); END c05s02b02x00p10n01i03141ent_a; ARCHITECTURE c05s02b02x00p10n01i03141arch_a OF c05s02b02x00p10n01i03141ent_a IS BEGIN TESTING: PROCESS BEGIN assert NOT( g1 = 22.0 ) report "*PASSED TEST: c05s02b02x00p10n01i03141" severity NOTE; assert ( g1 = 22.0 ) report "*FAILED TEST: c05s02b02x00p10n01i03141 - The formal generics take on implicit OPENs." severity ERROR; wait; END PROCESS TESTING; END c05s02b02x00p10n01i03141arch_a; -- ENTITY c05s02b02x00p10n01i03141ent IS END c05s02b02x00p10n01i03141ent; ARCHITECTURE c05s02b02x00p10n01i03141arch OF c05s02b02x00p10n01i03141ent IS component c05s02b02x00p10n01i03141ent_a end component; for comp1 : c05s02b02x00p10n01i03141ent_a use entity work.c05s02b02x00p10n01i03141ent_a(c05s02b02x00p10n01i03141arch_a); BEGIN comp1 : c05s02b02x00p10n01i03141ent_a; END c05s02b02x00p10n01i03141arch; configuration c05s02b02x00p10n01i03141_cfg of c05s02b02x00p10n01i03141ent is for c05s02b02x00p10n01i03141arch end for; end c05s02b02x00p10n01i03141_cfg;
-- 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: tc3141.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c05s02b02x00p10n01i03141ent_a IS generic ( g1 : real := 22.0 ); END c05s02b02x00p10n01i03141ent_a; ARCHITECTURE c05s02b02x00p10n01i03141arch_a OF c05s02b02x00p10n01i03141ent_a IS BEGIN TESTING: PROCESS BEGIN assert NOT( g1 = 22.0 ) report "*PASSED TEST: c05s02b02x00p10n01i03141" severity NOTE; assert ( g1 = 22.0 ) report "*FAILED TEST: c05s02b02x00p10n01i03141 - The formal generics take on implicit OPENs." severity ERROR; wait; END PROCESS TESTING; END c05s02b02x00p10n01i03141arch_a; -- ENTITY c05s02b02x00p10n01i03141ent IS END c05s02b02x00p10n01i03141ent; ARCHITECTURE c05s02b02x00p10n01i03141arch OF c05s02b02x00p10n01i03141ent IS component c05s02b02x00p10n01i03141ent_a end component; for comp1 : c05s02b02x00p10n01i03141ent_a use entity work.c05s02b02x00p10n01i03141ent_a(c05s02b02x00p10n01i03141arch_a); BEGIN comp1 : c05s02b02x00p10n01i03141ent_a; END c05s02b02x00p10n01i03141arch; configuration c05s02b02x00p10n01i03141_cfg of c05s02b02x00p10n01i03141ent is for c05s02b02x00p10n01i03141arch end for; end c05s02b02x00p10n01i03141_cfg;
-- This testbench fails with GHDL 0.29 and with GHDL svn_2013-02-13. library ieee; use ieee.std_logic_1164.all; entity clkgen is -- NOTE: Removing the default value makes the testbench work as expected. port ( b: out std_ulogic := '0' ); end entity; architecture arch of clkgen is signal a: std_ulogic; begin a <= '0', '1' after 10 ns, '0' after 20 ns; b <= a; end architecture; library ieee; use ieee.std_logic_1164.all; entity tb is end entity; architecture arch of tb is -- NOTE: Declaring C as std_ulogic makes the testbench work as expected. signal c: std_logic; begin u0: entity work.clkgen port map ( b => c ); process begin wait for 1 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait until c = '1' for 50 ns; -- This is ok with GHDL 0.29. assert c = '1' severity failure; wait until c = '0' for 50 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait; end process; end architecture;
-- This testbench fails with GHDL 0.29 and with GHDL svn_2013-02-13. library ieee; use ieee.std_logic_1164.all; entity clkgen is -- NOTE: Removing the default value makes the testbench work as expected. port ( b: out std_ulogic := '0' ); end entity; architecture arch of clkgen is signal a: std_ulogic; begin a <= '0', '1' after 10 ns, '0' after 20 ns; b <= a; end architecture; library ieee; use ieee.std_logic_1164.all; entity tb is end entity; architecture arch of tb is -- NOTE: Declaring C as std_ulogic makes the testbench work as expected. signal c: std_logic; begin u0: entity work.clkgen port map ( b => c ); process begin wait for 1 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait until c = '1' for 50 ns; -- This is ok with GHDL 0.29. assert c = '1' severity failure; wait until c = '0' for 50 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait; end process; end architecture;
-- This testbench fails with GHDL 0.29 and with GHDL svn_2013-02-13. library ieee; use ieee.std_logic_1164.all; entity clkgen is -- NOTE: Removing the default value makes the testbench work as expected. port ( b: out std_ulogic := '0' ); end entity; architecture arch of clkgen is signal a: std_ulogic; begin a <= '0', '1' after 10 ns, '0' after 20 ns; b <= a; end architecture; library ieee; use ieee.std_logic_1164.all; entity tb is end entity; architecture arch of tb is -- NOTE: Declaring C as std_ulogic makes the testbench work as expected. signal c: std_logic; begin u0: entity work.clkgen port map ( b => c ); process begin wait for 1 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait until c = '1' for 50 ns; -- This is ok with GHDL 0.29. assert c = '1' severity failure; wait until c = '0' for 50 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait; end process; end architecture;
library ieee; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; entity edge_extender is generic ( NUM_CYCLES : integer := 32 ); port ( clk : in std_logic; reset : in std_logic; interrupt_in : in std_logic; interrupt_out : out std_logic ); end entity edge_extender; architecture rtl of edge_extender is signal register_bank : std_logic_vector(NUM_CYCLES-1 downto 0); begin gen_reg_bank : for i in 1 to NUM_CYCLES-1 generate process(clk) begin if rising_edge(clk) then if reset = '1' then register_bank(i) <= '0'; else register_bank(i) <= register_bank(i-1); end if; end if; end process; end generate gen_reg_bank; process(clk) begin if rising_edge(clk) then if reset = '1' then register_bank(0) <= '0'; else register_bank(0) <= interrupt_in; end if; end if; end process; interrupt_out <= '1' when register_bank /= std_logic_vector(to_unsigned(0, NUM_CYCLES)) else '0'; end architecture rtl;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity mem32k is generic ( simulation : boolean := false ); port ( clock : in std_logic; reset : in std_logic; address : in std_logic_vector(26 downto 0); request : in std_logic; mwrite : in std_logic; wdata : in std_logic_vector(7 downto 0); rdata : out std_logic_vector(7 downto 0); rack : out std_logic; dack : out std_logic; claimed : out std_logic ); attribute keep_hierarchy : string; attribute keep_hierarchy of mem32k : entity is "yes"; end mem32k; architecture gideon of mem32k is subtype t_byte is std_logic_vector(7 downto 0); type t_byte_array is array(natural range <>) of t_byte; signal my_mem : t_byte_array(0 to 32767); signal claimed_i : std_logic; signal do_write : std_logic; attribute ram_style : string; attribute ram_style of my_mem : signal is "block"; begin claimed_i <= '1' when address(26 downto 15) = "000000000000" else '0'; claimed <= claimed_i; rack <= claimed_i and request; do_write <= claimed_i and request and mwrite; -- synthesis translate_off model: if simulation generate mram: entity work.bram_model_8sp generic map("intram", 15) -- 32k port map ( CLK => clock, SSR => reset, EN => request, WE => do_write, ADDR => address(14 downto 0), DI => wdata, DO => rdata ); end generate; -- synthesis translate_on process(clock) begin if rising_edge(clock) then if not simulation then rdata <= my_mem(to_integer(unsigned(address(14 downto 0)))); else rdata <= (others => 'Z'); end if; dack <= claimed_i and request; if do_write='1' then my_mem(to_integer(unsigned(address(14 downto 0)))) <= wdata; end if; end if; end process; end gideon;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity mem32k is generic ( simulation : boolean := false ); port ( clock : in std_logic; reset : in std_logic; address : in std_logic_vector(26 downto 0); request : in std_logic; mwrite : in std_logic; wdata : in std_logic_vector(7 downto 0); rdata : out std_logic_vector(7 downto 0); rack : out std_logic; dack : out std_logic; claimed : out std_logic ); attribute keep_hierarchy : string; attribute keep_hierarchy of mem32k : entity is "yes"; end mem32k; architecture gideon of mem32k is subtype t_byte is std_logic_vector(7 downto 0); type t_byte_array is array(natural range <>) of t_byte; signal my_mem : t_byte_array(0 to 32767); signal claimed_i : std_logic; signal do_write : std_logic; attribute ram_style : string; attribute ram_style of my_mem : signal is "block"; begin claimed_i <= '1' when address(26 downto 15) = "000000000000" else '0'; claimed <= claimed_i; rack <= claimed_i and request; do_write <= claimed_i and request and mwrite; -- synthesis translate_off model: if simulation generate mram: entity work.bram_model_8sp generic map("intram", 15) -- 32k port map ( CLK => clock, SSR => reset, EN => request, WE => do_write, ADDR => address(14 downto 0), DI => wdata, DO => rdata ); end generate; -- synthesis translate_on process(clock) begin if rising_edge(clock) then if not simulation then rdata <= my_mem(to_integer(unsigned(address(14 downto 0)))); else rdata <= (others => 'Z'); end if; dack <= claimed_i and request; if do_write='1' then my_mem(to_integer(unsigned(address(14 downto 0)))) <= wdata; end if; end if; end process; end gideon;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity mem32k is generic ( simulation : boolean := false ); port ( clock : in std_logic; reset : in std_logic; address : in std_logic_vector(26 downto 0); request : in std_logic; mwrite : in std_logic; wdata : in std_logic_vector(7 downto 0); rdata : out std_logic_vector(7 downto 0); rack : out std_logic; dack : out std_logic; claimed : out std_logic ); attribute keep_hierarchy : string; attribute keep_hierarchy of mem32k : entity is "yes"; end mem32k; architecture gideon of mem32k is subtype t_byte is std_logic_vector(7 downto 0); type t_byte_array is array(natural range <>) of t_byte; signal my_mem : t_byte_array(0 to 32767); signal claimed_i : std_logic; signal do_write : std_logic; attribute ram_style : string; attribute ram_style of my_mem : signal is "block"; begin claimed_i <= '1' when address(26 downto 15) = "000000000000" else '0'; claimed <= claimed_i; rack <= claimed_i and request; do_write <= claimed_i and request and mwrite; -- synthesis translate_off model: if simulation generate mram: entity work.bram_model_8sp generic map("intram", 15) -- 32k port map ( CLK => clock, SSR => reset, EN => request, WE => do_write, ADDR => address(14 downto 0), DI => wdata, DO => rdata ); end generate; -- synthesis translate_on process(clock) begin if rising_edge(clock) then if not simulation then rdata <= my_mem(to_integer(unsigned(address(14 downto 0)))); else rdata <= (others => 'Z'); end if; dack <= claimed_i and request; if do_write='1' then my_mem(to_integer(unsigned(address(14 downto 0)))) <= wdata; end if; end if; end process; end gideon;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity mem32k is generic ( simulation : boolean := false ); port ( clock : in std_logic; reset : in std_logic; address : in std_logic_vector(26 downto 0); request : in std_logic; mwrite : in std_logic; wdata : in std_logic_vector(7 downto 0); rdata : out std_logic_vector(7 downto 0); rack : out std_logic; dack : out std_logic; claimed : out std_logic ); attribute keep_hierarchy : string; attribute keep_hierarchy of mem32k : entity is "yes"; end mem32k; architecture gideon of mem32k is subtype t_byte is std_logic_vector(7 downto 0); type t_byte_array is array(natural range <>) of t_byte; signal my_mem : t_byte_array(0 to 32767); signal claimed_i : std_logic; signal do_write : std_logic; attribute ram_style : string; attribute ram_style of my_mem : signal is "block"; begin claimed_i <= '1' when address(26 downto 15) = "000000000000" else '0'; claimed <= claimed_i; rack <= claimed_i and request; do_write <= claimed_i and request and mwrite; -- synthesis translate_off model: if simulation generate mram: entity work.bram_model_8sp generic map("intram", 15) -- 32k port map ( CLK => clock, SSR => reset, EN => request, WE => do_write, ADDR => address(14 downto 0), DI => wdata, DO => rdata ); end generate; -- synthesis translate_on process(clock) begin if rising_edge(clock) then if not simulation then rdata <= my_mem(to_integer(unsigned(address(14 downto 0)))); else rdata <= (others => 'Z'); end if; dack <= claimed_i and request; if do_write='1' then my_mem(to_integer(unsigned(address(14 downto 0)))) <= wdata; end if; end if; end process; end gideon;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity mem32k is generic ( simulation : boolean := false ); port ( clock : in std_logic; reset : in std_logic; address : in std_logic_vector(26 downto 0); request : in std_logic; mwrite : in std_logic; wdata : in std_logic_vector(7 downto 0); rdata : out std_logic_vector(7 downto 0); rack : out std_logic; dack : out std_logic; claimed : out std_logic ); attribute keep_hierarchy : string; attribute keep_hierarchy of mem32k : entity is "yes"; end mem32k; architecture gideon of mem32k is subtype t_byte is std_logic_vector(7 downto 0); type t_byte_array is array(natural range <>) of t_byte; signal my_mem : t_byte_array(0 to 32767); signal claimed_i : std_logic; signal do_write : std_logic; attribute ram_style : string; attribute ram_style of my_mem : signal is "block"; begin claimed_i <= '1' when address(26 downto 15) = "000000000000" else '0'; claimed <= claimed_i; rack <= claimed_i and request; do_write <= claimed_i and request and mwrite; -- synthesis translate_off model: if simulation generate mram: entity work.bram_model_8sp generic map("intram", 15) -- 32k port map ( CLK => clock, SSR => reset, EN => request, WE => do_write, ADDR => address(14 downto 0), DI => wdata, DO => rdata ); end generate; -- synthesis translate_on process(clock) begin if rising_edge(clock) then if not simulation then rdata <= my_mem(to_integer(unsigned(address(14 downto 0)))); else rdata <= (others => 'Z'); end if; dack <= claimed_i and request; if do_write='1' then my_mem(to_integer(unsigned(address(14 downto 0)))) <= wdata; end if; end if; end process; end gideon;
---------------------------------------------------------------------------------- -- Responsáveis: Danillo Neves -- Luiz Gustavo -- Rodrigo Guimarães -- Ultima mod.: 03/jun/2017 -- Nome do Módulo: TestBank do Banco de Registradores -- Descrição: TestBank para o Conjunto de registradores com largura de -- palavra parametrizável e com habilitação ---------------------------------------------------------------------------------- ---------------------------------- -- Importando a biblioteca IEEE e especificando o uso dos estados lógicos -- padrão ---------------------------------- LIBRARY ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; ---------------------------------- -- Definiçao da entidade ---------------------------------- entity RG_tb is Generic (DATA_WIDTH_GB : natural := 32; ADDRESS_WIDTH_GB : natural := 5; AMOUNT_REG_GB : natural := 32); end RG_tb; ---------------------------------- -- Descritivo da operacionalidade da entidade ---------------------------------- architecture RG_tb_Op of RG_tb is -- Componente descrito no proprio arquivo .vhd component RegBank is Generic (DATA_WIDTH : natural := DATA_WIDTH_GB; ADDRESS_WIDTH : natural := ADDRESS_WIDTH_GB; AMOUNT_REG : natural := AMOUNT_REG_GB); Port (clk, wren : in std_logic; radd1, radd2 : in std_logic_vector(ADDRESS_WIDTH - 1 downto 0); wadd : in std_logic_vector(ADDRESS_WIDTH - 1 downto 0); wdata : in std_logic_vector(DATA_WIDTH - 1 downto 0); rdata1, rdata2: out std_logic_vector(DATA_WIDTH - 1 downto 0)); end component; type vector_array is array (natural range <>) of std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0); type vector_array2 is array (natural range <>) of std_logic_vector(DATA_WIDTH_GB - 1 downto 0); -- Clock e periodo de mudanca signal CLK : std_logic := '0'; constant PERIOD : time := 25 us; constant PAUSA : time := 24 us; -- Manipuladores do banco de registradores signal WREN : std_logic; signal RADD1, RADD2 : std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0); signal WADD : std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0); signal WDATA : std_logic_vector(DATA_WIDTH_GB - 1 downto 0); signal RDATA1, RDATA2 : std_logic_vector(DATA_WIDTH_GB - 1 downto 0); begin -- Gerar clock CLK <= not(CLK) after PERIOD; -- Manipulador do Banco de Registradores RB_TB: RegBank port map(CLK, WREN, RADD1, RADD2, WADD, WDATA, RDATA1, RDATA2); -- Teste em si teste: process variable init0 : std_logic := '0'; variable init1 : std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0) := (others => '0'); variable init2 : std_logic_vector(DATA_WIDTH_GB - 1 downto 0) := (others => '0'); variable ender : vector_array(0 to 7); variable valor : vector_array2(0 to 15); begin -- Inicializaçao para o teste WREN <= init0; RADD1 <= init1; RADD2 <= init1; WADD <= init1; WDATA <= init2; RDATA1 <= init2; RDATA2 <= init2; -- Valores aleatorios para escrita valor(00) := x"00025900"; valor(01) := x"00026797"; valor(02) := x"00092430"; valor(03) := x"00059664"; valor(04) := x"00008572"; valor(05) := x"00004416"; valor(06) := x"00000016"; valor(07) := x"00030581"; valor(08) := x"00006963"; valor(09) := x"00009871"; valor(10) := x"00091257"; valor(11) := x"00082022"; valor(12) := x"00089633"; valor(13) := x"00058236"; valor(14) := x"00052965"; valor(15) := x"00000001"; -- Teste com WREN em '1' e em '0' for enable in std_logic range '1' downto '0' loop WREN <= enable; -- Escrevendo valores nos registradores for valorAtri in valor'range loop WDATA <= valor(valorAtri); -- Acesso ao endereco para escrita, para todos os registradores -- incluindo o $zero (o mesmo nao deve ser alterado) for endereco in 0 to AMOUNT_REG_GB loop WADD <= std_logic_vector(to_signed(endereco, WADD'length)); report "Com WREN = " & std_logic'image(WREN) severity NOTE; report "Escreveu-se -> " & integer'image(to_integer(unsigned(WADD))) & " no end. -> " & integer'image(to_integer(unsigned(WDATA))) severity NOTE; wait for 2 PERIOD; -- Testando leitura, com e sem a habilitacao do WREN -- com RADD1 e RADD2 para todas as possibilidades; -- Considera-se leitura e escrita para o mesmo registrador for leitura1 in 0 to AMOUNT_REG_GB loop RADD1 <= std_logic_vector(to_signed(leitura1, RADD1'length)); for leitura2 in 0 to AMOUNT_REG_GB loop RADD2 <= std_logic_vector(to_signed(leitura2, RADD2'length)); report "Com WREN = " & std_logic'image(WREN) severity NOTE; report "Leu-se -> " & integer'image(to_integer(unsigned(RDATA1))) & " do end. -> " & integer'image(to_integer(unsigned(RADD1))) severity NOTE; report "Leu-se -> " & integer'image(to_integer(unsigned(RDATA2))) & " do end. -> " & integer'image(to_integer(unsigned(RADD2))) severity NOTE; wait for 2 * PERIOD; end loop; end loop; end loop; end loop; end loop; end process teste; end architecture RG_tb_Op;
-- 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: tc2790.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity CONSTANT is end CONSTANT; ENTITY c13s09b00x00p99n01i02790ent IS END c13s09b00x00p99n01i02790ent; ARCHITECTURE c13s09b00x00p99n01i02790arch OF c13s09b00x00p99n01i02790ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02790 - Reserved word CONSTANT can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02790arch;
-- 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: tc2790.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity CONSTANT is end CONSTANT; ENTITY c13s09b00x00p99n01i02790ent IS END c13s09b00x00p99n01i02790ent; ARCHITECTURE c13s09b00x00p99n01i02790arch OF c13s09b00x00p99n01i02790ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02790 - Reserved word CONSTANT can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02790arch;
-- 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: tc2790.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity CONSTANT is end CONSTANT; ENTITY c13s09b00x00p99n01i02790ent IS END c13s09b00x00p99n01i02790ent; ARCHITECTURE c13s09b00x00p99n01i02790arch OF c13s09b00x00p99n01i02790ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02790 - Reserved word CONSTANT can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02790arch;
library ieee; use ieee.std_logic_1164.all; package arch_defs is subtype byte_t is std_logic_vector( 7 downto 0); subtype half_t is std_logic_vector(15 downto 0); subtype word_t is std_logic_vector(31 downto 0); subtype addr_t is std_logic_vector(31 downto 0); subtype intaddr_t is std_logic_vector(31 downto 0); subtype addrdiff_t is std_logic_vector(31 downto 0); subtype ctrl_t is std_logic; subtype ctrl_memwidth_t is std_logic_vector(1 downto 0); subtype instruction_t is word_t; subtype mask_t is word_t; subtype reg_t is std_logic_vector(4 downto 0); subtype opcode_t is std_logic_vector(5 downto 0); subtype func_t is std_logic_vector(5 downto 0); function is_type_r(instr: instruction_t) return boolean; function is_type_j(instr: instruction_t) return boolean; function is_type_I(instr: instruction_t) return boolean; function J(op : std_logic_vector) return std_logic_vector; function I(op : std_logic_vector; rs : std_logic_vector := "-----"; rt :std_logic_vector := "-----") return std_logic_vector; function R(op : std_logic_vector := "000000"; rs : std_logic_vector := "-----"; rt : std_logic_vector := "-----"; rd : std_logic_vector := "-----";shift : std_logic_vector := "00000"; func : std_logic_vector(5 downto 0)) return std_logic_vector; function word(w : word_t) return word_t; function half(w : word_t) return half_t; function byte(w : word_t) return byte_t; constant WIDTH_NONE : ctrl_memwidth_t := "00"; constant WIDTH_BYTE : ctrl_memwidth_t := "01"; constant WIDTH_HALF : ctrl_memwidth_t := "10"; constant WIDTH_WORD : ctrl_memwidth_t := "11"; type alu_op_t is ( ALU_ADD, ALU_ADDU, ALU_SUB, ALU_SUBU, ALU_AND, ALU_OR, ALU_NOR, ALU_XOR, ALU_LU, ALU_SLL, ALU_SRL, ALU_SRA, ALU_MULT, ALU_MULTU, ALU_DIV, ALU_DIVU, ALU_MFHI, ALU_MFLO, ALU_MTHI, ALU_MTLO, ALU_SLT, ALU_SLTU, -- TODO zero extend or sign extent? ALU_EQ, ALU_NE, ALU_LEZ, ALU_LTZ, ALU_GTZ, ALU_GEZ ); subtype traps_t is std_logic_vector(7 downto 0); constant TRAP_NONE : traps_t := X"00"; constant TRAP_DIVERROR : traps_t := X"01"; constant TRAP_OVERFLOW : traps_t := X"02"; constant TRAP_SEGFAULT : traps_t := X"04"; constant TRAP_BREAKPOINT : traps_t := X"08"; constant TRAP_SYSCALL : traps_t := X"10"; constant TRAP_EPE : traps_t := X"20"; constant TRAP_UNIMPLEMENTED : traps_t := X"40"; type exception_config_t is ( EXCEPTIONS_IGNORE -- Bad idea! --EXCEPTIONS_HALT,-- e.g. light a red LED and stop fetching new instructions --EXCEPTIONS_RESET-- reboot --EXCEPTIONS_TRAP -- invoke user-programmable exception handlers ); -- Taken from https://opencores.org/project,plasma,opcodes -- And http://web.cse.ohio-state.edu/~crawfis.3/cse675-02/Slides/MIPS%20Instruction%20Set.pdf -- 32 bit defines constant ZERO : word_t := X"00000000"; constant HI_Z : word_t := (others => 'Z'); constant NEG_ONE : word_t := not ZERO; constant INT_MIN : word_t := X"8000_0000"; constant INT_MAX : word_t := X"7fff_ffff"; constant DONT_CARE : word_t := (others => 'X'); -- Register file constant R0 : reg_t := B"0_0000"; -- $zero constant R1 : reg_t := B"0_0001"; alias AT is R1; constant R2 : reg_t := B"0_0010"; alias v0 is R2; constant R3 : reg_t := B"0_0011"; alias v1 is R3; constant R4 : reg_t := B"0_0100"; alias a0 is R4; constant R5 : reg_t := B"0_0101"; alias a1 is R5; constant R6 : reg_t := B"0_0110"; alias a2 is R6; constant R7 : reg_t := B"0_0111"; alias a3 is R7; constant R8 : reg_t := B"0_1000"; alias t0 is R8; constant R9 : reg_t := B"0_1001"; alias t1 is R9; constant R10 : reg_t := B"0_1010"; alias t2 is R10; constant R11 : reg_t := B"0_1011"; alias t3 is R11; constant R12 : reg_t := B"0_1100"; alias t4 is R12; constant R13 : reg_t := B"0_1101"; alias t5 is R13; constant R14 : reg_t := B"0_1110"; alias t6 is R14; constant R15 : reg_t := B"0_1111"; alias t7 is R15; constant R16 : reg_t := B"1_0000"; alias s0 is R16; constant R17 : reg_t := B"1_0001"; alias s1 is R17; constant R18 : reg_t := B"1_0010"; alias s2 is R18; constant R19 : reg_t := B"1_0011"; alias s3 is R19; constant R20 : reg_t := B"1_0100"; alias s4 is R20; constant R21 : reg_t := B"1_0101"; alias s5 is R21; constant R22 : reg_t := B"1_0110"; alias s6 is R22; constant R23 : reg_t := B"1_0111"; alias s7 is R23; constant R24 : reg_t := B"1_1000"; alias t8 is R24; constant R25 : reg_t := B"1_1001"; alias t9 is R25; constant R26 : reg_t := B"1_1010"; alias k0 is R26; constant R27 : reg_t := B"1_1011"; alias k1 is R27; constant R28 : reg_t := B"1_1100"; alias gp is R28; constant R29 : reg_t := B"1_1101"; alias sp is R29; constant R30 : reg_t := B"1_1110"; alias fp is R30; constant R31 : reg_t := B"1_1111"; alias ra is R31; constant VGA_PIXELFREQ : natural := 25175*1000; end arch_defs; package body arch_defs is function is_type_r(instr: instruction_t) return boolean is begin return instr(31 downto 26) = "000000"; end is_type_r; function is_type_j(instr: instruction_t) return boolean is begin return instr(31 downto 26) = "000010" or instr(31 downto 26) = "000011"; end is_type_j; function is_type_i(instr: instruction_t) return boolean is begin return not is_type_j(instr) and not is_type_r(instr); end is_type_i; function J(op : std_logic_vector) return std_logic_vector is begin return op & (31-6 downto 0 => '-'); end J; function I(op : std_logic_vector; rs : std_logic_vector := "-----"; rt :std_logic_vector := "-----") return std_logic_vector is begin return op & rs & rt & (15 downto 0 => '-'); end I; function R(op : std_logic_vector := "000000"; rs : std_logic_vector := "-----"; rt : std_logic_vector := "-----"; rd : std_logic_vector := "-----";shift : std_logic_vector := "00000"; func : std_logic_vector(5 downto 0)) return std_logic_vector is begin return op & (14 downto 0 => '-') & shift & func; end R; function word(w : word_t) return word_t is begin return w(31 downto 0); end function; function half(w : word_t) return half_t is begin return w(15 downto 0); end function; function byte(w : word_t) return byte_t is begin return w( 7 downto 0); end function; -- ALU constant OP_ADD : mask_t := R(func => "100000"); constant OP_ADDU : mask_t := R(func => "100001"); constant OP_AND : mask_t := R(func => "100100"); constant OP_NOR : mask_t := R(func => "100111"); constant OP_OR : mask_t := R(func => "100101"); constant OP_SLT : mask_t := R(func => "101010"); constant OP_SLTU : mask_t := R(func => "101011"); constant OP_SUB : mask_t := R(func => "100010"); constant OP_SUBU : mask_t := R(func => "100011"); constant OP_XOR : mask_t := R(func => "100110"); constant OP_ADDI : mask_t := I(op => "001000"); constant OP_ADDIU : mask_t := I(op => "001001"); constant OP_ANDI : mask_t := I(op => "001100"); constant OP_LUI : mask_t := I(op => "001111"); constant OP_ORI : mask_t := I(op => "001101"); constant OP_SLTI : mask_t := I(op => "001010"); constant OP_SLTIU : mask_t := I(op => "001011"); constant OP_XORI : mask_t := I(op => "001110"); -- Shifter constant OP_SLL : mask_t := R(shift => "-----", func => "000000"); constant OP_SLLV : mask_t := R(shift => "00000", func => "000100"); constant OP_SRA : mask_t := R(shift => "-----", func => "000011"); constant OP_SRAV : mask_t := R(shift => "00000", func => "000111"); constant OP_SRL : mask_t := R(shift => "-----", func => "000010"); constant OP_SRLV : mask_t := R(shift => "00000", func => "000110"); -- Multiply and Divide constant OP_DIV : mask_t := R(rd => "00000", func => "011010"); constant OP_DIVU : mask_t := R(rd => "00000", func => "011011"); constant OP_MFHI : mask_t := R(rs => "00000", rt => "00000", func => "010000"); constant OP_MFLO : mask_t := R(rs => "00000", rt => "00000", func => "010010"); constant OP_MTHI : mask_t := R(rt => "00000", rd => "00000", func => "010001"); constant OP_MTLO : mask_t := R(rt => "00000", rd => "00000", func => "010011"); constant OP_MULT : mask_t := R(rd => "00000", func => "011000"); constant OP_MULTU : mask_t := R(rd => "00000", func => "011001"); -- Branch constant OP_BEQ : mask_t := I(op => "000100"); constant OP_BGEZ : mask_t := I(op => "000001", rt => "00001"); constant OP_BGEZAL: mask_t := I(op => "000001", rt => "10001"); constant OP_BGTZ : mask_t := I(op => "000111", rt => "00000"); constant OP_BLEZ : mask_t := I(op => "000110", rt => "00000"); constant OP_BLTZ : mask_t := I(op => "000001", rt => "00000"); constant OP_BLTZAL: mask_t := I(op => "000001", rt => "10000"); constant OP_BNE : mask_t := I(op => "000101"); constant OP_J : mask_t := J(op => "000010"); constant OP_JAL : mask_t := J(op => "000011"); constant OP_JR : mask_t := R(rt => R0, func => "001000", rd => R0); constant OP_JALR : mask_t := R(rt => R0, func => "100010"); constant OP_BREAK : mask_t := "000000"&(19 downto 0 => '-')&"001101"; constant OP_MFC0 : mask_t := "010000"&"00000"&(9 downto 0 => '-')&(10 downto 0 => '0'); constant OP_MTC0 : mask_t := "010000"&"00100"&(9 downto 0 => '-')&(10 downto 0 => '0'); constant OP_SYSCALL : mask_t := "000000"&(19 downto 0 => '-')&"001100"; -- Memory Access constant OP_LB : mask_t := I(op => "100000"); constant OP_LBU : mask_t := I(op => "100100"); constant OP_LH : mask_t := I(op => "100001"); constant OP_LHU : mask_t := I(op => "100101"); constant OP_LW : mask_t := I(op => "100011"); constant OP_SB : mask_t := I(op => "101000"); constant OP_SH : mask_t := I(op => "101001"); constant OP_SW : mask_t := I(op => "101011"); end arch_defs;
------------------------------------------------------------------------------- -- -- File: DataPathLatency.vhd -- Author: Tudor Gherman, Robert Bocos -- Original Project: ZmodScopeController -- Date: 20 May 2020 -- ------------------------------------------------------------------------------- -- (c) 2020 Copyright Digilent Incorporated -- All Rights Reserved -- -- This program is free software; distributed under the terms of BSD 3-clause -- license ("Revised BSD License", "New BSD License", or "Modified BSD License") -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- -- 1. Redistributions of source code must retain the above copyright notice, this -- list of conditions and the following disclaimer. -- 2. 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. -- 3. Neither the name(s) of the above-listed copyright holder(s) nor the names -- of its contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- -- 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 OWNER 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. -- ------------------------------------------------------------------------------- -- -- This module emulates the DataPah.vhd module latency. This operation is -- necessary to test the calibrated outputs in the tb_TestTop top level test bench -- of the ZmodScopeController. -- The FIFO data latency is specified (is it? not sure...) in -- Xilinx pg057 Table 3-26 (Read Port Flags Update Latency Due to a Write Operation) -- Latency = 1 wr_clk + (N + 4) rd_clk (+1 rd_clk) -- The latency is defined in Fig. 3-40 of the same document. A register stage -- corresponds to 0 cycles of latency. Thus, for a latency of 1 wr_clk, 2 register -- stages have to be implemented in the write clock domain to emulate the FIFO write -- latency. An extra cycle needs to be considered for the IDDR primitives in the data -- path. Thus, a total of 3 register stages are added on the write clock domain to -- emulate the DataPath module write domain latency. -- Considering the same definition for the read clock domain latency, N+4+1 -- register stages are added on the read clock domain. library IEEE; use IEEE.STD_LOGIC_1164.ALL; entity DataPathLatency is Generic ( -- FIFO number of synchronization stages kNumFIFO_Stages : integer := 0; -- Channel data width kDataWidth : integer := 14 ); Port ( ZmodDcoClk : in STD_LOGIC; ZmodDcoClkDly : std_logic; doDataIn : in STD_LOGIC_VECTOR (kDataWidth-1 downto 0); doChA_DataOut : out STD_LOGIC_VECTOR (kDataWidth-1 downto 0); doChB_DataOut : out STD_LOGIC_VECTOR (kDataWidth-1 downto 0) ); end DataPathLatency; architecture Behavioral of DataPathLatency is signal doChA_DataIn, doChB_DataIn, doChB_DataInFalling : STD_LOGIC_VECTOR (kDataWidth-1 downto 0); type cDlyArray_t is array (kNumFIFO_Stages+4 downto 0) of std_logic_vector(kDataWidth-1 downto 0); signal cChA_DataDly, cChB_DataDly : cDlyArray_t := (others => (others => '0')); type dDlyArray_t is array (1 downto 0) of std_logic_vector(kDataWidth-1 downto 0); signal dChA_DataDly, dChB_DataDly : dDlyArray_t := (others => (others => '0')); begin -- Emulate IDDR on ChA (sampled on rising edge) ProcIDDR_ChA : process (ZmodDcoClkDly) begin if (rising_edge(ZmodDcoClkDly)) then doChA_DataIn <= doDataIn; end if; end process; -- Emulate IDDR on ChB (sampled on falling edge) ProcIDDR_ChB_Falling : process (ZmodDcoClkDly) begin if (falling_edge(ZmodDcoClkDly)) then doChB_DataInFalling <= doDataIn; end if; end process; ProcIDDR_ChB_Rising : process (ZmodDcoClkDly) begin if (rising_edge(ZmodDcoClkDly)) then doChB_DataIn <= doChB_DataInFalling; end if; end process; --Emulate the D Flip-Flops which are the last stages of the DataPath module ProcDelayDcoClkOut: process (ZmodDcoClk) begin if (rising_edge(ZmodDcoClk)) then doChA_DataOut <= doChA_DataIn; doChB_DataOut <= doChB_DataIn; end if; end process; end Behavioral;
------------------------------------------------------------------------------ -- 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 - 2016, 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 ----------------------------------------------------------------------------- -- Package: libleon3 -- File: libleon3.vhd -- Author: Jiri Gaisler Gaisler Research -- Description: LEON3 internal components ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; library grlib; use grlib.amba.all; library techmap; use techmap.gencomp.all; library gaisler; use gaisler.leon3.all; use gaisler.libiu.all; use gaisler.libcache.all; use gaisler.libfpu.all; use gaisler.mmuiface.all; package libleon3 is component proc3 generic ( hindex : integer := 0; fabtech : integer range 0 to NTECH := 0; memtech : integer := 0; nwindows : integer range 2 to 32 := 8; dsu : integer range 0 to 1 := 0; fpu : integer range 0 to 15 := 0; v8 : integer range 0 to 63 := 0; cp : integer range 0 to 1 := 0; mac : integer range 0 to 1 := 0; pclow : integer range 0 to 2 := 2; notag : integer range 0 to 1 := 0; nwp : integer range 0 to 4 := 0; icen : integer range 0 to 1 := 0; irepl : integer range 0 to 3 := 2; isets : integer range 1 to 4 := 1; ilinesize : integer range 4 to 8 := 4; isetsize : integer range 1 to 256 := 1; isetlock : integer range 0 to 1 := 0; dcen : integer range 0 to 1 := 0; drepl : integer range 0 to 3 := 2; dsets : integer range 1 to 4 := 1; dlinesize : integer range 4 to 8 := 4; dsetsize : integer range 1 to 256 := 1; dsetlock : integer range 0 to 1 := 0; dsnoop : integer range 0 to 7 := 0; ilram : integer range 0 to 2 := 0; ilramsize : integer range 1 to 512 := 1; ilramstart : integer range 0 to 255 := 16#8e#; dlram : integer range 0 to 2 := 0; dlramsize : integer range 1 to 512 := 1; dlramstart : integer range 0 to 255 := 16#8f#; mmuen : integer range 0 to 1 := 0; itlbnum : integer range 2 to 64 := 8; dtlbnum : integer range 2 to 64 := 8; tlb_type : integer range 0 to 3 := 1; tlb_rep : integer range 0 to 1 := 0; lddel : integer range 1 to 2 := 2; disas : integer range 0 to 2 := 0; tbuf : integer range 0 to 128 := 0; pwd : integer range 0 to 2 := 0; -- power-down svt : integer range 0 to 1 := 0; -- single-vector trapping rstaddr : integer := 0; smp : integer range 0 to 15 := 0; -- support SMP systems cached : integer := 0; clk2x : integer := 0; scantest : integer := 0; mmupgsz : integer range 0 to 5 := 0; bp : integer := 1; npasi : integer range 0 to 1 := 0; pwrpsr : integer range 0 to 1 := 0; rex : integer := 0; altwin : integer range 0 to 1 := 0 ); port ( clk : in std_ulogic; rstn : in std_ulogic; holdn : out std_ulogic; ahbi : in ahb_mst_in_type; ahbo : out ahb_mst_out_type; ahbsi : in ahb_slv_in_type; ahbso : in ahb_slv_out_vector; rfi : out iregfile_in_type; rfo : in iregfile_out_type; crami : out cram_in_type; cramo : in cram_out_type; tbi : out tracebuf_in_type; tbo : in tracebuf_out_type; tbi_2p : out tracebuf_2p_in_type; tbo_2p : in tracebuf_2p_out_type; fpi : out fpc_in_type; fpo : in fpc_out_type; cpi : out fpc_in_type; cpo : in fpc_out_type; irqi : in l3_irq_in_type; irqo : out l3_irq_out_type; dbgi : in l3_debug_in_type; dbgo : out l3_debug_out_type; hclk, sclk : in std_ulogic; hclken : in std_ulogic ); end component; component grfpwx generic ( fabtech : integer := 0; memtech : integer := 0; mul : integer range 0 to 3 := 0; pclow : integer range 0 to 2 := 2; dsu : integer range 0 to 1 := 0; disas : integer range 0 to 2 := 0; netlist : integer := 0; index : integer := 0; scantest: integer := 0); port ( rst : in std_ulogic; -- Reset clk : in std_ulogic; holdn : in std_ulogic; -- pipeline hold cpi : in fpc_in_type; cpo : out fpc_out_type; testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; component grlfpwx generic ( tech : integer := 0; pclow : integer range 0 to 2 := 2; dsu : integer range 0 to 1 := 0; disas : integer range 0 to 2 := 0; pipe : integer := 0; netlist : integer := 0; index : integer := 0; scantest: integer := 0 ); port ( rst : in std_ulogic; -- Reset clk : in std_ulogic; holdn : in std_ulogic; -- pipeline hold cpi : in fpc_in_type; cpo : out fpc_out_type; testin: in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; component regfile_3p_l3 generic ( tech : integer := 0; abits : integer := 6; dbits : integer := 8; wrfst : integer := 0; numregs : integer := 64; testen : integer := 0); port ( wclk : in std_ulogic; waddr : in std_logic_vector((abits -1) downto 0); wdata : in std_logic_vector((dbits -1) downto 0); we : in std_ulogic; rclk : in std_ulogic; raddr1 : in std_logic_vector((abits -1) downto 0); re1 : in std_ulogic; rdata1 : out std_logic_vector((dbits -1) downto 0); raddr2 : in std_logic_vector((abits -1) downto 0); re2 : in std_ulogic; rdata2 : out std_logic_vector((dbits -1) downto 0); testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; end;
--This should pass context c1 is end context c1; --This should fail context c1 is end context c1; context c1 is end context c1; context c2 is end context c2; context c1 is end context c1;
-- (c) Copyright 1995-2014 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:blk_mem_gen:8.1 -- IP Revision: 0 LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; ENTITY zynq_1_blk_mem_gen_0_0 IS PORT ( clka : IN STD_LOGIC; wea : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addra : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dina : IN STD_LOGIC_VECTOR(31 DOWNTO 0); douta : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); clkb : IN STD_LOGIC; web : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addrb : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dinb : IN STD_LOGIC_VECTOR(31 DOWNTO 0); doutb : OUT STD_LOGIC_VECTOR(31 DOWNTO 0) ); END zynq_1_blk_mem_gen_0_0; ARCHITECTURE zynq_1_blk_mem_gen_0_0_arch OF zynq_1_blk_mem_gen_0_0 IS ATTRIBUTE DowngradeIPIdentifiedWarnings : string; ATTRIBUTE DowngradeIPIdentifiedWarnings OF zynq_1_blk_mem_gen_0_0_arch: ARCHITECTURE IS "yes"; COMPONENT blk_mem_gen_v8_1 IS GENERIC ( C_FAMILY : STRING; C_XDEVICEFAMILY : STRING; C_ELABORATION_DIR : STRING; C_INTERFACE_TYPE : INTEGER; C_AXI_TYPE : INTEGER; C_AXI_SLAVE_TYPE : INTEGER; C_HAS_AXI_ID : INTEGER; C_AXI_ID_WIDTH : INTEGER; C_MEM_TYPE : INTEGER; C_BYTE_SIZE : INTEGER; C_ALGORITHM : INTEGER; C_PRIM_TYPE : INTEGER; C_LOAD_INIT_FILE : INTEGER; C_INIT_FILE_NAME : STRING; C_INIT_FILE : STRING; C_USE_DEFAULT_DATA : INTEGER; C_DEFAULT_DATA : STRING; C_RST_TYPE : STRING; C_HAS_RSTA : INTEGER; C_RST_PRIORITY_A : STRING; C_RSTRAM_A : INTEGER; C_INITA_VAL : STRING; C_HAS_ENA : INTEGER; C_HAS_REGCEA : INTEGER; C_USE_BYTE_WEA : INTEGER; C_WEA_WIDTH : INTEGER; C_WRITE_MODE_A : STRING; C_WRITE_WIDTH_A : INTEGER; C_READ_WIDTH_A : INTEGER; C_WRITE_DEPTH_A : INTEGER; C_READ_DEPTH_A : INTEGER; C_ADDRA_WIDTH : INTEGER; C_HAS_RSTB : INTEGER; C_RST_PRIORITY_B : STRING; C_RSTRAM_B : INTEGER; C_INITB_VAL : STRING; C_HAS_ENB : INTEGER; C_HAS_REGCEB : INTEGER; C_USE_BYTE_WEB : INTEGER; C_WEB_WIDTH : INTEGER; C_WRITE_MODE_B : STRING; C_WRITE_WIDTH_B : INTEGER; C_READ_WIDTH_B : INTEGER; C_WRITE_DEPTH_B : INTEGER; C_READ_DEPTH_B : INTEGER; C_ADDRB_WIDTH : INTEGER; C_HAS_MEM_OUTPUT_REGS_A : INTEGER; C_HAS_MEM_OUTPUT_REGS_B : INTEGER; C_HAS_MUX_OUTPUT_REGS_A : INTEGER; C_HAS_MUX_OUTPUT_REGS_B : INTEGER; C_MUX_PIPELINE_STAGES : INTEGER; C_HAS_SOFTECC_INPUT_REGS_A : INTEGER; C_HAS_SOFTECC_OUTPUT_REGS_B : INTEGER; C_USE_SOFTECC : INTEGER; C_USE_ECC : INTEGER; C_HAS_INJECTERR : INTEGER; C_SIM_COLLISION_CHECK : STRING; C_COMMON_CLK : INTEGER; C_ENABLE_32BIT_ADDRESS : INTEGER; C_DISABLE_WARN_BHV_COLL : INTEGER; C_DISABLE_WARN_BHV_RANGE : INTEGER; C_USE_BRAM_BLOCK : INTEGER; C_CTRL_ECC_ALGO : STRING ); PORT ( clka : IN STD_LOGIC; rsta : IN STD_LOGIC; ena : IN STD_LOGIC; regcea : IN STD_LOGIC; wea : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addra : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dina : IN STD_LOGIC_VECTOR(31 DOWNTO 0); douta : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); clkb : IN STD_LOGIC; rstb : IN STD_LOGIC; enb : IN STD_LOGIC; regceb : IN STD_LOGIC; web : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addrb : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dinb : IN STD_LOGIC_VECTOR(31 DOWNTO 0); doutb : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); injectsbiterr : IN STD_LOGIC; injectdbiterr : IN STD_LOGIC; sbiterr : OUT STD_LOGIC; dbiterr : OUT STD_LOGIC; rdaddrecc : OUT STD_LOGIC_VECTOR(8 DOWNTO 0); s_aclk : IN STD_LOGIC; s_aresetn : IN STD_LOGIC; s_axi_awid : IN STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_awaddr : IN STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_awlen : IN STD_LOGIC_VECTOR(7 DOWNTO 0); s_axi_awsize : IN STD_LOGIC_VECTOR(2 DOWNTO 0); s_axi_awburst : IN STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_awvalid : IN STD_LOGIC; s_axi_awready : OUT STD_LOGIC; s_axi_wdata : IN STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_wstrb : IN STD_LOGIC_VECTOR(0 DOWNTO 0); s_axi_wlast : IN STD_LOGIC; s_axi_wvalid : IN STD_LOGIC; s_axi_wready : OUT STD_LOGIC; s_axi_bid : OUT STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_bresp : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_bvalid : OUT STD_LOGIC; s_axi_bready : IN STD_LOGIC; s_axi_arid : IN STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_araddr : IN STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_arlen : IN STD_LOGIC_VECTOR(7 DOWNTO 0); s_axi_arsize : IN STD_LOGIC_VECTOR(2 DOWNTO 0); s_axi_arburst : IN STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_arvalid : IN STD_LOGIC; s_axi_arready : OUT STD_LOGIC; s_axi_rid : OUT STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_rdata : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_rresp : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_rlast : OUT STD_LOGIC; s_axi_rvalid : OUT STD_LOGIC; s_axi_rready : IN STD_LOGIC; s_axi_injectsbiterr : IN STD_LOGIC; s_axi_injectdbiterr : IN STD_LOGIC; s_axi_sbiterr : OUT STD_LOGIC; s_axi_dbiterr : OUT STD_LOGIC; s_axi_rdaddrecc : OUT STD_LOGIC_VECTOR(8 DOWNTO 0) ); END COMPONENT blk_mem_gen_v8_1; ATTRIBUTE X_CORE_INFO : STRING; ATTRIBUTE X_CORE_INFO OF zynq_1_blk_mem_gen_0_0_arch: ARCHITECTURE IS "blk_mem_gen_v8_1,Vivado 2013.4"; ATTRIBUTE CHECK_LICENSE_TYPE : STRING; ATTRIBUTE CHECK_LICENSE_TYPE OF zynq_1_blk_mem_gen_0_0_arch : ARCHITECTURE IS "zynq_1_blk_mem_gen_0_0,blk_mem_gen_v8_1,{}"; ATTRIBUTE CORE_GENERATION_INFO : STRING; ATTRIBUTE CORE_GENERATION_INFO OF zynq_1_blk_mem_gen_0_0_arch: ARCHITECTURE IS "zynq_1_blk_mem_gen_0_0,blk_mem_gen_v8_1,{x_ipProduct=Vivado 2013.4,x_ipVendor=xilinx.com,x_ipLibrary=ip,x_ipName=blk_mem_gen,x_ipVersion=8.1,x_ipCoreRevision=0,x_ipLanguage=VERILOG,C_FAMILY=zynq,C_XDEVICEFAMILY=zynq,C_ELABORATION_DIR=./,C_INTERFACE_TYPE=0,C_AXI_TYPE=1,C_AXI_SLAVE_TYPE=0,C_HAS_AXI_ID=0,C_AXI_ID_WIDTH=4,C_MEM_TYPE=2,C_BYTE_SIZE=9,C_ALGORITHM=1,C_PRIM_TYPE=1,C_LOAD_INIT_FILE=0,C_INIT_FILE_NAME=no_coe_file_loaded,C_INIT_FILE=NONE,C_USE_DEFAULT_DATA=0,C_DEFAULT_DATA=0,C_RST_TYPE=SYNC,C_HAS_RSTA=0,C_RST_PRIORITY_A=CE,C_RSTRAM_A=0,C_INITA_VAL=0,C_HAS_ENA=0,C_HAS_REGCEA=0,C_USE_BYTE_WEA=0,C_WEA_WIDTH=1,C_WRITE_MODE_A=READ_FIRST,C_WRITE_WIDTH_A=32,C_READ_WIDTH_A=32,C_WRITE_DEPTH_A=512,C_READ_DEPTH_A=512,C_ADDRA_WIDTH=9,C_HAS_RSTB=0,C_RST_PRIORITY_B=CE,C_RSTRAM_B=0,C_INITB_VAL=0,C_HAS_ENB=0,C_HAS_REGCEB=0,C_USE_BYTE_WEB=0,C_WEB_WIDTH=1,C_WRITE_MODE_B=READ_FIRST,C_WRITE_WIDTH_B=32,C_READ_WIDTH_B=32,C_WRITE_DEPTH_B=512,C_READ_DEPTH_B=512,C_ADDRB_WIDTH=9,C_HAS_MEM_OUTPUT_REGS_A=1,C_HAS_MEM_OUTPUT_REGS_B=1,C_HAS_MUX_OUTPUT_REGS_A=0,C_HAS_MUX_OUTPUT_REGS_B=0,C_MUX_PIPELINE_STAGES=0,C_HAS_SOFTECC_INPUT_REGS_A=0,C_HAS_SOFTECC_OUTPUT_REGS_B=0,C_USE_SOFTECC=0,C_USE_ECC=0,C_HAS_INJECTERR=0,C_SIM_COLLISION_CHECK=ALL,C_COMMON_CLK=0,C_ENABLE_32BIT_ADDRESS=0,C_DISABLE_WARN_BHV_COLL=0,C_DISABLE_WARN_BHV_RANGE=0,C_USE_BRAM_BLOCK=0,C_CTRL_ECC_ALGO=NONE}"; ATTRIBUTE X_INTERFACE_INFO : STRING; ATTRIBUTE X_INTERFACE_INFO OF clka: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA CLK"; ATTRIBUTE X_INTERFACE_INFO OF wea: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA WE"; ATTRIBUTE X_INTERFACE_INFO OF addra: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA ADDR"; ATTRIBUTE X_INTERFACE_INFO OF dina: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA DIN"; ATTRIBUTE X_INTERFACE_INFO OF douta: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA DOUT"; ATTRIBUTE X_INTERFACE_INFO OF clkb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB CLK"; ATTRIBUTE X_INTERFACE_INFO OF web: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB WE"; ATTRIBUTE X_INTERFACE_INFO OF addrb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB ADDR"; ATTRIBUTE X_INTERFACE_INFO OF dinb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB DIN"; ATTRIBUTE X_INTERFACE_INFO OF doutb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB DOUT"; BEGIN U0 : blk_mem_gen_v8_1 GENERIC MAP ( C_FAMILY => "zynq", C_XDEVICEFAMILY => "zynq", C_ELABORATION_DIR => "./", C_INTERFACE_TYPE => 0, C_AXI_TYPE => 1, C_AXI_SLAVE_TYPE => 0, C_HAS_AXI_ID => 0, C_AXI_ID_WIDTH => 4, C_MEM_TYPE => 2, C_BYTE_SIZE => 9, C_ALGORITHM => 1, C_PRIM_TYPE => 1, C_LOAD_INIT_FILE => 0, C_INIT_FILE_NAME => "no_coe_file_loaded", C_INIT_FILE => "NONE", C_USE_DEFAULT_DATA => 0, C_DEFAULT_DATA => "0", C_RST_TYPE => "SYNC", C_HAS_RSTA => 0, C_RST_PRIORITY_A => "CE", C_RSTRAM_A => 0, C_INITA_VAL => "0", C_HAS_ENA => 0, C_HAS_REGCEA => 0, C_USE_BYTE_WEA => 0, C_WEA_WIDTH => 1, C_WRITE_MODE_A => "READ_FIRST", C_WRITE_WIDTH_A => 32, C_READ_WIDTH_A => 32, C_WRITE_DEPTH_A => 512, C_READ_DEPTH_A => 512, C_ADDRA_WIDTH => 9, C_HAS_RSTB => 0, C_RST_PRIORITY_B => "CE", C_RSTRAM_B => 0, C_INITB_VAL => "0", C_HAS_ENB => 0, C_HAS_REGCEB => 0, C_USE_BYTE_WEB => 0, C_WEB_WIDTH => 1, C_WRITE_MODE_B => "READ_FIRST", C_WRITE_WIDTH_B => 32, C_READ_WIDTH_B => 32, C_WRITE_DEPTH_B => 512, C_READ_DEPTH_B => 512, C_ADDRB_WIDTH => 9, C_HAS_MEM_OUTPUT_REGS_A => 1, C_HAS_MEM_OUTPUT_REGS_B => 1, C_HAS_MUX_OUTPUT_REGS_A => 0, C_HAS_MUX_OUTPUT_REGS_B => 0, C_MUX_PIPELINE_STAGES => 0, C_HAS_SOFTECC_INPUT_REGS_A => 0, C_HAS_SOFTECC_OUTPUT_REGS_B => 0, C_USE_SOFTECC => 0, C_USE_ECC => 0, C_HAS_INJECTERR => 0, C_SIM_COLLISION_CHECK => "ALL", C_COMMON_CLK => 0, C_ENABLE_32BIT_ADDRESS => 0, C_DISABLE_WARN_BHV_COLL => 0, C_DISABLE_WARN_BHV_RANGE => 0, C_USE_BRAM_BLOCK => 0, C_CTRL_ECC_ALGO => "NONE" ) PORT MAP ( clka => clka, rsta => '0', ena => '0', regcea => '0', wea => wea, addra => addra, dina => dina, douta => douta, clkb => clkb, rstb => '0', enb => '0', regceb => '0', web => web, addrb => addrb, dinb => dinb, doutb => doutb, injectsbiterr => '0', injectdbiterr => '0', s_aclk => '0', s_aresetn => '0', s_axi_awid => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), s_axi_awaddr => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), s_axi_awlen => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 8)), s_axi_awsize => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 3)), s_axi_awburst => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 2)), s_axi_awvalid => '0', s_axi_wdata => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), s_axi_wstrb => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 1)), s_axi_wlast => '0', s_axi_wvalid => '0', s_axi_bready => '0', s_axi_arid => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), s_axi_araddr => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), s_axi_arlen => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 8)), s_axi_arsize => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 3)), s_axi_arburst => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 2)), s_axi_arvalid => '0', s_axi_rready => '0', s_axi_injectsbiterr => '0', s_axi_injectdbiterr => '0' ); END zynq_1_blk_mem_gen_0_0_arch;
library verilog; use verilog.vl_types.all; entity F2DSS_ACE_PPE_DPRAM_CTRL is port( PCLK : in vl_logic; PRESETN : in vl_logic; PADDR : in vl_logic_vector(12 downto 0); PSEL : in vl_logic; PENABLE : in vl_logic; PWRITE : in vl_logic; PWDATA : in vl_logic_vector(31 downto 0); PREADY_DPRAM_CTRL: out vl_logic; xfer_din_mux_not_from_RAM: in vl_logic_vector(31 downto 0); keep_bits_31_24 : in vl_logic; keep_bits_7_0 : in vl_logic; RAM_WR_B : in vl_logic; RAM_RD_A : in vl_logic; RAM_RD_B : in vl_logic; RAM_RD_B_hold_en: in vl_logic; RAM_ADDR_A : in vl_logic_vector(8 downto 0); RAM_ADDR_B : in vl_logic_vector(8 downto 0); RAM_ADDRESSES_EQUAL: out vl_logic; RAM_DO_A : out vl_logic_vector(31 downto 0); RAM_DO_B : out vl_logic_vector(31 downto 0); RAM_DO_B_rdhold : out vl_logic_vector(31 downto 0); RAM_RD_B_apbrd_pre: out vl_logic; TEST_MODE : in vl_logic; RB_TEST : in vl_logic; RB_CSBA : in vl_logic; RB_CSBB : in vl_logic; RB_RWBA : in vl_logic; RB_RWBB : in vl_logic; RB_ADA : in vl_logic_vector(8 downto 0); RB_ADB : in vl_logic_vector(8 downto 0); RB_WDA : in vl_logic_vector(31 downto 0); RB_WDB : in vl_logic_vector(31 downto 0); RB_RDA : out vl_logic_vector(31 downto 0); RB_RDB : out vl_logic_vector(31 downto 0) ); end F2DSS_ACE_PPE_DPRAM_CTRL;
library verilog; use verilog.vl_types.all; entity F2DSS_ACE_PPE_DPRAM_CTRL is port( PCLK : in vl_logic; PRESETN : in vl_logic; PADDR : in vl_logic_vector(12 downto 0); PSEL : in vl_logic; PENABLE : in vl_logic; PWRITE : in vl_logic; PWDATA : in vl_logic_vector(31 downto 0); PREADY_DPRAM_CTRL: out vl_logic; xfer_din_mux_not_from_RAM: in vl_logic_vector(31 downto 0); keep_bits_31_24 : in vl_logic; keep_bits_7_0 : in vl_logic; RAM_WR_B : in vl_logic; RAM_RD_A : in vl_logic; RAM_RD_B : in vl_logic; RAM_RD_B_hold_en: in vl_logic; RAM_ADDR_A : in vl_logic_vector(8 downto 0); RAM_ADDR_B : in vl_logic_vector(8 downto 0); RAM_ADDRESSES_EQUAL: out vl_logic; RAM_DO_A : out vl_logic_vector(31 downto 0); RAM_DO_B : out vl_logic_vector(31 downto 0); RAM_DO_B_rdhold : out vl_logic_vector(31 downto 0); RAM_RD_B_apbrd_pre: out vl_logic; TEST_MODE : in vl_logic; RB_TEST : in vl_logic; RB_CSBA : in vl_logic; RB_CSBB : in vl_logic; RB_RWBA : in vl_logic; RB_RWBB : in vl_logic; RB_ADA : in vl_logic_vector(8 downto 0); RB_ADB : in vl_logic_vector(8 downto 0); RB_WDA : in vl_logic_vector(31 downto 0); RB_WDB : in vl_logic_vector(31 downto 0); RB_RDA : out vl_logic_vector(31 downto 0); RB_RDB : out vl_logic_vector(31 downto 0) ); end F2DSS_ACE_PPE_DPRAM_CTRL;
library verilog; use verilog.vl_types.all; entity F2DSS_ACE_PPE_DPRAM_CTRL is port( PCLK : in vl_logic; PRESETN : in vl_logic; PADDR : in vl_logic_vector(12 downto 0); PSEL : in vl_logic; PENABLE : in vl_logic; PWRITE : in vl_logic; PWDATA : in vl_logic_vector(31 downto 0); PREADY_DPRAM_CTRL: out vl_logic; xfer_din_mux_not_from_RAM: in vl_logic_vector(31 downto 0); keep_bits_31_24 : in vl_logic; keep_bits_7_0 : in vl_logic; RAM_WR_B : in vl_logic; RAM_RD_A : in vl_logic; RAM_RD_B : in vl_logic; RAM_RD_B_hold_en: in vl_logic; RAM_ADDR_A : in vl_logic_vector(8 downto 0); RAM_ADDR_B : in vl_logic_vector(8 downto 0); RAM_ADDRESSES_EQUAL: out vl_logic; RAM_DO_A : out vl_logic_vector(31 downto 0); RAM_DO_B : out vl_logic_vector(31 downto 0); RAM_DO_B_rdhold : out vl_logic_vector(31 downto 0); RAM_RD_B_apbrd_pre: out vl_logic; TEST_MODE : in vl_logic; RB_TEST : in vl_logic; RB_CSBA : in vl_logic; RB_CSBB : in vl_logic; RB_RWBA : in vl_logic; RB_RWBB : in vl_logic; RB_ADA : in vl_logic_vector(8 downto 0); RB_ADB : in vl_logic_vector(8 downto 0); RB_WDA : in vl_logic_vector(31 downto 0); RB_WDB : in vl_logic_vector(31 downto 0); RB_RDA : out vl_logic_vector(31 downto 0); RB_RDB : out vl_logic_vector(31 downto 0) ); end F2DSS_ACE_PPE_DPRAM_CTRL;
entity test is type t is range 0 to 16#f.f#2.; end;
--! --! @file: exercise5_7.vhd --! @brief: --! @author: Antonio Gutierrez --! @date: 2013-10-23 --! --! -------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_all; -------------------------------------- entity hamming_weight_vector is generic port ( x: in std_logic_vector(N-1 downto 0); y: out integer range 0 to N); end entity hamming_weight_vector; -------------------------------------- architecture circuit of hamming_weight_vector is type oneDoneD is array (0 to N) of integer range 0 to N; signal temp: oneDoneD; begin -- initialize count of 1's temp(0) <= 0; -- count number of 1's gen: for i in 1 to N generate temp(i) <= temp(i-1) + 1 when x(i-1) <= '1' else temp(i-1); end generate gen; -- output the number y <= temp(N); end architecture circuit; --------------------------------------
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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 Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `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 Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `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 Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `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 Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `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 Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `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 Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `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 Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `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 Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `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 Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `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 Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `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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LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_unsigned.all; USE ieee.std_logic_arith.all; --*************************************************** --*** *** --*** ALTERA FLOATING POINT DATAPATH COMPILER *** --*** *** --*** HCC_CNTUSGN32.VHD *** --*** *** --*** Function: Count leading bits in an *** --*** unsigned 32 bit number *** --*** *** --*** 14/07/07 ML *** --*** *** --*** (c) 2007 Altera Corporation *** --*** *** --*** Change History *** --*** *** --*** *** --*** *** --*** *** --*** *** --*************************************************** ENTITY hcc_cntusgn32 IS PORT ( frac : IN STD_LOGIC_VECTOR (32 DOWNTO 1); count : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); END hcc_cntusgn32; ARCHITECTURE rtl OF hcc_cntusgn32 IS type positiontype IS ARRAY (6 DOWNTO 1) OF STD_LOGIC_VECTOR (6 DOWNTO 1); signal sec, sel : STD_LOGIC_VECTOR (6 DOWNTO 1); signal lastfrac : STD_LOGIC_VECTOR (6 DOWNTO 1); signal position : positiontype; component hcc_usgnpos IS GENERIC (start : integer := 10); PORT ( ingroup : IN STD_LOGIC_VECTOR (6 DOWNTO 1); position : OUT STD_LOGIC_VECTOR (6 DOWNTO 1) ); end component; BEGIN -- for single 32 bit mantissa -- [S ][O....O][1 ][M...M][RGS] -- [32][31..28][27][26..4][321] - NB underflow can run into RGS -- for single 36 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [36][35..32][31][30..8][7..4][321] -- for double 64 bit mantissa -- [S ][O....O][1 ][M...M][O..O][RGS] -- [64][63..60][59][58..7][6..4][321] - NB underflow less than overflow -- find first leading '1' in inexact portion for 32 bit positive number sec(1) <= frac(31) OR frac(30) OR frac(29) OR frac(28) OR frac(27) OR frac(26); sec(2) <= frac(25) OR frac(24) OR frac(23) OR frac(22) OR frac(21) OR frac(20); sec(3) <= frac(19) OR frac(18) OR frac(17) OR frac(16) OR frac(15) OR frac(14); sec(4) <= frac(13) OR frac(12) OR frac(11) OR frac(10) OR frac(9) OR frac(8); sec(5) <= frac(7) OR frac(6) OR frac(5) OR frac(4) OR frac(3) OR frac(2); sec(6) <= frac(1); sel(1) <= sec(1); sel(2) <= sec(2) AND NOT(sec(1)); sel(3) <= sec(3) AND NOT(sec(2)) AND NOT(sec(1)); sel(4) <= sec(4) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(5) <= sec(5) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); sel(6) <= sec(6) AND NOT(sec(5)) AND NOT(sec(4)) AND NOT(sec(3)) AND NOT(sec(2)) AND NOT(sec(1)); pone: hcc_usgnpos GENERIC MAP (start=>0) PORT MAP (ingroup=>frac(31 DOWNTO 26), position=>position(1)(6 DOWNTO 1)); ptwo: hcc_usgnpos GENERIC MAP (start=>6) PORT MAP (ingroup=>frac(25 DOWNTO 20), position=>position(2)(6 DOWNTO 1)); pthr: hcc_usgnpos GENERIC MAP (start=>12) PORT MAP (ingroup=>frac(19 DOWNTO 14), position=>position(3)(6 DOWNTO 1)); pfor: hcc_usgnpos GENERIC MAP (start=>18) PORT MAP (ingroup=>frac(13 DOWNTO 8), position=>position(4)(6 DOWNTO 1)); pfiv: hcc_usgnpos GENERIC MAP (start=>24) PORT MAP (ingroup=>frac(7 DOWNTO 2), position=>position(5)(6 DOWNTO 1)); psix: hcc_usgnpos GENERIC MAP (start=>30) PORT MAP (ingroup=>lastfrac, position=>position(6)(6 DOWNTO 1)); lastfrac <= frac(1) & "00000"; gmc: FOR k IN 1 TO 6 GENERATE count(k) <= (position(1)(k) AND sel(1)) OR (position(2)(k) AND sel(2)) OR (position(3)(k) AND sel(3)) OR (position(4)(k) AND sel(4)) OR (position(5)(k) AND sel(5)) OR (position(6)(k) AND sel(6)); END GENERATE; END rtl;

`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 Qvz89cBdI8nd5UQO+Krna/2C/3/ykSWsqFWcSuz06vHjb1Nldp+l9vdYv8aD9rxYhxw30qA2vQoH aNM+gQvkmg== `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 iTrtweEsA9+aHJNglL255BPetvDTao4vDa6gKi5k76/MZVKZomiK8QfcWUSYBD/IKTjmnSFDe2GL Q/mqHenaKYqjwKdI45sBpAEGCVtVE/kL7EGy1pUIukSoSAVczPQRm6P5PxHxAgyZw1wtHuO7ul20 z4MOgITfY5d0QmRsqCk= `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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-------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 22:05:59 04/06/2014 -- Design Name: -- Module Name: C:/Users/Tom/projs/code/square_wave/square_wave_test.vhd -- Project Name: square_wave -- Target Device: -- Tool versions: -- Description: -- -- VHDL Test Bench Created by ISE for module: square_wave -- -- 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; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values USE ieee.numeric_std.ALL; ENTITY square_wave_test IS END square_wave_test; ARCHITECTURE behavior OF square_wave_test IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT square_wave PORT( x_in : IN std_logic_vector(9 downto 0); enable : IN std_logic; square_out : OUT std_logic_vector(11 downto 0); pwm_length : IN std_logic_vector(9 downto 0) ); END COMPONENT; --Inputs signal x_in : std_logic_vector(9 downto 0) := (others => '0'); signal enable : std_logic := '0'; signal pwm_length : std_logic_vector(9 downto 0) := (others => '0'); --Outputs signal square_out : std_logic_vector(11 downto 0); -- No clocks detected in port list. Replace <clock> below with -- appropriate port name signal x_sig: unsigned(9 downto 0); signal pwm_sig: unsigned(9 downto 0); BEGIN -- Instantiate the Unit Under Test (UUT) uut: square_wave PORT MAP ( x_in => x_in, enable => enable, square_out => square_out, pwm_length => pwm_length ); -- Stimulus process stim_proc: process begin -- hold reset state for 100 ns. wait for 100 ns; enable <= '1'; -- insert stimulus here loop pwm_sig <= to_unsigned(to_integer(pwm_sig) + 1,10); pwm_length <= std_logic_vector(pwm_sig); for i in 0 to 2 ** x_sig'length loop x_sig <= to_unsigned(to_integer(x_sig) + 1,10); x_in <= std_logic_vector(x_sig); wait for 10 ns; end loop; wait for 10 ns; end loop; wait; end process; END;

library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity bit_cpx_cpy is port ( operation : in std_logic_vector(2 downto 0); enable : in std_logic := '1'; -- instruction(1 downto 0)="00" n_in : in std_logic; v_in : in std_logic; z_in : in std_logic; c_in : in std_logic; data_in : in std_logic_vector(7 downto 0); a_reg : in std_logic_vector(7 downto 0); x_reg : in std_logic_vector(7 downto 0); y_reg : in std_logic_vector(7 downto 0); n_out : out std_logic; v_out : out std_logic; z_out : out std_logic; c_out : out std_logic ); end bit_cpx_cpy; architecture gideon of bit_cpx_cpy is signal reg : std_logic_vector(7 downto 0) := (others => '0'); signal diff : unsigned(8 downto 0) := (others => '0'); signal zero_cmp : std_logic; signal zero_ld : std_logic; signal zero_bit : std_logic; signal oper4 : std_logic_vector(3 downto 0); begin -- *** BIT *** *** STY LDY CPY CPX reg <= x_reg when operation(0)='1' else y_reg; diff <= unsigned('1' & reg) - unsigned('0' & data_in); zero_cmp <= '1' when diff(7 downto 0)=X"00" else '0'; zero_ld <= '1' when data_in=X"00" else '0'; zero_bit <= '1' when (data_in and a_reg)=X"00" else '0'; oper4 <= enable & operation; with oper4 select c_out <= diff(8) when "1110" | "1111", -- CPX / CPY c_in when others; with oper4 select z_out <= zero_cmp when "1110" | "1111", -- CPX / CPY zero_ld when "1101", zero_bit when "1001", z_in when others; with oper4 select n_out <= diff(7) when "1110" | "1111", -- CPX / CPY data_in(7) when "1101" | "1001", -- LDY / BIT n_in when others; with oper4 select v_out <= data_in(6) when "1001", -- BIT v_in when others; end gideon;

library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity signal7 is end entity; architecture test of signal7 is signal x, y : unsigned(7 downto 0); begin process is begin x <= to_unsigned(5, 8); wait for 1 ns; y <= x + 1; wait for 1 ns; assert y = 6; wait; end process; end architecture;

------------------------------------------------------------------------------- --! @file prlSlave-rtl-ea.vhd --! @brief Multiplexed memory mapped slave ------------------------------------------------------------------------------- -- -- (c) B&R Industrial Automation GmbH, 2014 -- -- Redistribution and use in source and binary forms, with or without -- modification, are permitted provided that the following conditions -- are met: -- -- 1. Redistributions of source code must retain the above copyright -- notice, this list of conditions and the following disclaimer. -- -- 2. 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. -- -- 3. Neither the name of B&R nor the names of its -- contributors may be used to endorse or promote products derived -- from this software without prior written permission. For written -- permission, please contact office@br-automation.com -- -- 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 HOLDERS 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. -- ------------------------------------------------------------------------------- --! Use standard ieee library library ieee; --! Use logic elements use ieee.std_logic_1164.all; --! Use numeric std use ieee.numeric_std.all; --! Use libcommon library library libcommon; --! Use global package use libcommon.global.all; entity prlSlave is generic ( --! Enable multiplexed address/data-bus mode (0 = FALSE) gEnableMux : natural := 0; --! Data bus width gDataWidth : natural := 16; --! Address bus width gAddrWidth : natural := 16; --! Ad bus width (valid when gEnableMux /= FALSE) gAdWidth : natural := 16 ); port ( --! Clock iClk : in std_logic; --! Reset iRst : in std_logic; -- Memory mapped multiplexed slave --! Chipselect iPrlSlv_cs : in std_logic; --! Read strobe iPrlSlv_rd : in std_logic; --! Write strobe iPrlSlv_wr : in std_logic; --! Address Latch enable (Multiplexed only) iPrlSlv_ale : in std_logic; --! High active Acknowledge oPrlSlv_ack : out std_logic; --! Byteenables iPrlSlv_be : in std_logic_vector(gDataWidth/8-1 downto 0); -- Multiplexed AD-bus --! Address/Data bus out oPrlSlv_ad_o : out std_logic_vector(gAdWidth-1 downto 0); --! Address/Data bus in iPrlSlv_ad_i : in std_logic_vector(gAdWidth-1 downto 0); --! Address/Data bus outenable oPrlSlv_ad_oen : out std_logic; -- Demultiplexed AD-bus --! Address bus iPrlSlv_addr : in std_logic_vector(gAddrWidth-1 downto 0); --! Data bus in iPrlSlv_data_i : in std_logic_vector(gDataWidth-1 downto 0); --! Data bus out oPrlSlv_data_o : out std_logic_vector(gDataWidth-1 downto 0); --! Data bus outenable oPrlSlv_data_oen : out std_logic; -- Memory Mapped master --! MM slave host address oMst_address : out std_logic_vector(gAddrWidth-1 downto 0); --! MM slave host byteenable oMst_byteenable : out std_logic_vector(gDataWidth/8-1 downto 0); --! MM slave host read oMst_read : out std_logic; --! MM slave host readdata iMst_readdata : in std_logic_vector(gDataWidth-1 downto 0); --! MM slave host write oMst_write : out std_logic; --! MM slave host writedata oMst_writedata : out std_logic_vector(gDataWidth-1 downto 0); --! MM slave host waitrequest iMst_waitrequest : in std_logic ); end prlSlave; architecture rtl of prlSlave is -- address register to store the address populated to the interface signal addressRegister : std_logic_vector(gAddrWidth-1 downto 0); -- byteenable register to store byteenable qualifiers signal byteenableRegister : std_logic_vector(gDataWidth/8-1 downto 0); -- register clock enable signal byteenableRegClkEnable : std_logic; -- write data register to store the data populated to the interface signal writeDataRegister : std_logic_vector(gDataWidth-1 downto 0); -- register clock enable signal writeDataRegClkEnable : std_logic; -- read data register to store the read data populated to the host signal readDataRegister : std_logic_vector(gDataWidth-1 downto 0); signal readDataRegister_next : std_logic_vector(gDataWidth-1 downto 0); -- synchronized signals signal hostChipselect : std_logic; signal hostWrite : std_logic; signal hostWrite_noCs : std_logic; signal hostRead : std_logic; signal hostRead_noCs : std_logic; signal hostDataEnable : std_logic; signal hostDataEnable_reg : std_logic; signal hostAck : std_logic; signal hostAck_reg : std_logic; -- fsm type tFsm is ( sIdle, sStart, sWaitForBus, sHold ); signal fsm : tFsm; -- Latch type type tLatch is record clear : std_logic; enable : std_logic; data : std_logic_vector(gAddrWidth-1 downto 0); output : std_logic_vector(gAddrWidth-1 downto 0); end record; signal inst_latch : tLatch; begin --! The processes describe the register, which stores the unsynchronized --! inputs! reg : process(iRst, iClk) begin if iRst = cActivated then addressRegister <= (others => cInactivated); byteenableRegister <= (others => cInactivated); writeDataRegister <= (others => cInactivated); readDataRegister <= (others => cInactivated); hostDataEnable_reg <= cInactivated; hostAck_reg <= cInactivated; elsif rising_edge(iClk) then hostDataEnable_reg <= hostDataEnable; hostAck_reg <= hostAck; if byteenableRegClkEnable = cActivated then byteenableRegister <= iPrlSlv_be; -- Assign byte addresses to the address register if gEnableMux /= 0 then addressRegister <= (others => cInactivated); addressRegister <= inst_latch.output; else addressRegister <= iPrlSlv_addr; end if; end if; if writeDataRegClkEnable = cActivated then if gEnableMux /= 0 then writeDataRegister <= iPrlSlv_ad_i(writeDataRegister'range); else writeDataRegister <= iPrlSlv_data_i; end if; end if; if iMst_waitrequest = cInactivated and hostRead = cActivated then readDataRegister <= readDataRegister_next; end if; end if; end process; oMst_address <= addressRegister; -- Multiplexed output oPrlSlv_ad_oen <= hostDataEnable_reg; oPrlSlv_ack <= hostAck_reg; -- Demultiplexed output oPrlSlv_data_oen <= hostDataEnable_reg; assignReaddata : process(readDataRegister) begin -- default assign zeros oPrlSlv_ad_o <= (others => cInactivated); oPrlSlv_data_o <= (others => cInactivated); oPrlSlv_ad_o(readDataRegister'range) <= readDataRegister; oPrlSlv_data_o(readDataRegister'range) <= readDataRegister; end process assignReaddata; --! combinatoric process for ack and output enable generation combProc : process ( hostWrite, hostRead, fsm ) begin -- default assignments to avoid unwanted latches hostAck <= cInactivated; hostDataEnable <= cInactivated; if fsm = sHold then if hostRead = cActivated then hostDataEnable <= cActivated; hostAck <= cActivated; elsif hostWrite = cActivated then hostAck <= cActivated; end if; end if; end process; --! Fsm to control access and timeout counter fsmProc : process(iRst, iClk) begin if iRst = cActivated then fsm <= sIdle; byteenableRegClkEnable <= cInactivated; writeDataRegClkEnable <= cInactivated; oMst_write <= cInactivated; oMst_read <= cInactivated; elsif rising_edge(iClk) then --defaults byteenableRegClkEnable <= cInactivated; writeDataRegClkEnable <= cInactivated; case fsm is when sIdle => oMst_write <= cInactivated; oMst_read <= cInactivated; if hostRead = cActivated or hostWrite = cActivated then fsm <= sStart; byteenableRegClkEnable <= cActivated; writeDataRegClkEnable <= hostWrite; end if; when sStart => fsm <= sWaitForBus; oMst_read <= hostRead; oMst_write <= hostWrite; when sWaitForBus => if iMst_waitrequest = cInactivated then fsm <= sHold; oMst_read <= cInactivated; oMst_write <= cInactivated; end if; when sHold => if hostRead = cInactivated and hostWrite = cInactivated then fsm <= sIdle; end if; end case; end if; end process; oMst_byteenable <= byteenableRegister; oMst_writedata <= writeDataRegister; readDataRegister_next <= iMst_readdata; muxLatch : if gEnableMux /= 0 generate -- Address latch addrLatch : entity work.dataLatch generic map ( gDataWidth => inst_latch.data'length ) port map ( iClear => inst_latch.clear, iEnable => inst_latch.enable, iData => inst_latch.data, oData => inst_latch.output ); inst_latch.clear <= cInactivated; inst_latch.enable <= iPrlSlv_ale; inst_latch.data <= iPrlSlv_ad_i(inst_latch.data'range); end generate muxLatch; -- synchronize all available control signals syncChipselect : entity libcommon.synchronizer generic map ( gStages => 2, gInit => cInactivated ) port map ( iArst => iRst, iClk => iClk, iAsync => iPrlSlv_cs, oSync => hostChipselect ); syncWrite : entity libcommon.synchronizer generic map ( gStages => 2, gInit => cInactivated ) port map ( iArst => iRst, iClk => iClk, iAsync => iPrlSlv_wr, oSync => hostWrite_noCs ); hostWrite <= hostChipselect and hostWrite_noCs; syncRead : entity libcommon.synchronizer generic map ( gStages => 2, gInit => cInactivated ) port map ( iArst => iRst, iClk => iClk, iAsync => iPrlSlv_rd, oSync => hostRead_noCs ); hostRead <= hostChipselect and hostRead_noCs; end rtl;

-- 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 3 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, see <http://www.gnu.org/licenses/> -- -- Copyright (C) 2014 Jakub Kicinski <kubakici@wp.pl> library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.STD_LOGIC_ARITH.all; use IEEE.STD_LOGIC_UNSIGNED.all; -- Remove last @N_BYTES from data flying through Bus entity bus_tail_strip is generic (N_BYTES : integer); port (Clk : in std_logic; Rst : in std_logic; PktIn : in std_logic; DataIn : in std_logic_vector(7 downto 0); PktOut : out std_logic; DataOut : out std_logic_vector(7 downto 0)); end bus_tail_strip; -- Operation: -- Delay all signals and "and" incoming @PktIn with @PktOut to cut it early. -- NOTE: input is registered which may not be necessary. Remove clocking of -- delay*(0) to stop registering input. architecture Behavioral of bus_tail_strip is type byte_vec is array (0 to N_BYTES) of std_logic_vector(7 downto 0); signal delayByte : byte_vec; signal delayPkt : std_logic_vector(0 to N_BYTES); begin delayByte(0) <= DataIn when rising_edge(Clk); delayPkt(0) <= PktIn when rising_edge(Clk); delay_path : for i in 0 to N_BYTES - 1 generate delayByte(i + 1) <= delayByte(i) when rising_edge(Clk); delayPkt(i + 1) <= delayPkt(i) when rising_edge(Clk); end generate delay_path; DataOut <= delayByte(N_BYTES); PktOut <= delayPkt(0) and delayPkt(N_BYTES); end Behavioral;

-- NEED RESULT: ARCH00302: Block statement with generic map passed -- NEED RESULT: ARCH00302: Block statement without generic map passed ------------------------------------------------------------------------------- -- -- Copyright (c) 1989 by Intermetrics, Inc. -- All rights reserved. -- ------------------------------------------------------------------------------- -- -- TEST NAME: -- -- CT00302 -- -- AUTHOR: -- -- G. Tominovich -- -- TEST OBJECTIVES: -- -- 9.1 (7) -- -- DESIGN UNIT ORDERING: -- -- E00000(ARCH00302) -- ENT00302_Test_Bench(ARCH00302_Test_Bench) -- -- REVISION HISTORY: -- -- 24-JUL-1987 - initial revision -- -- NOTES: -- -- self-checking -- -- use WORK.STANDARD_TYPES.all ; architecture ARCH00302 of E00000 is begin B1 : block generic ( g1 : boolean ; g2 : bit ) ; generic map ( false, g2 => '0' ) ; begin process begin test_report ( "ARCH00302" , "Block statement with generic map" , (not g1) and (g2='0') ) ; wait ; end process ; end block B1 ; B2 : block generic ( g1 : boolean := false ; g2 : bit := '0') ; begin process begin test_report ( "ARCH00302" , "Block statement without generic map" , (not g1) and (g2='0') ) ; wait ; end process ; end block B2 ; end ARCH00302 ; entity ENT00302_Test_Bench is end ENT00302_Test_Bench ; architecture ARCH00302_Test_Bench of ENT00302_Test_Bench is begin L1: block component UUT end component ; for CIS1 : UUT use entity WORK.E00000 ( ARCH00302 ) ; begin CIS1 : UUT ; end block L1 ; end ARCH00302_Test_Bench ;

library verilog; use verilog.vl_types.all; entity usb_system_cpu_jtag_debug_module_sysclk is port( clk : in vl_logic; ir_in : in vl_logic_vector(1 downto 0); sr : in vl_logic_vector(37 downto 0); vs_udr : in vl_logic; vs_uir : in vl_logic; jdo : out vl_logic_vector(37 downto 0); take_action_break_a: out vl_logic; take_action_break_b: out vl_logic; take_action_break_c: out vl_logic; take_action_ocimem_a: out vl_logic; take_action_ocimem_b: out vl_logic; take_action_tracectrl: out vl_logic; take_action_tracemem_a: out vl_logic; take_action_tracemem_b: out vl_logic; take_no_action_break_a: out vl_logic; take_no_action_break_b: out vl_logic; take_no_action_break_c: out vl_logic; take_no_action_ocimem_a: out vl_logic; take_no_action_tracemem_a: out vl_logic ); end usb_system_cpu_jtag_debug_module_sysclk;

-- SIMON 64/128 -- key scheduling function -- -- @Author: Jos Wetzels -- @Author: Wouter Bokslag -- -- Parameters: -- r: round index -- k_0..k_3: key -- subkey_out: round subkey -- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity key_schedule is port (r : in std_logic_vector(7 downto 0); -- we don't need k_2 here because of the way we schedule k(r) in the simon component k_0 : in std_logic_vector(31 downto 0); k_1 : in std_logic_vector(31 downto 0); k_3 : in std_logic_vector(31 downto 0); subkey_out : out std_logic_vector(31 downto 0)); end key_schedule; architecture Behavioral of key_schedule is signal op_3_s : std_logic_vector(31 downto 0); signal op_xor_0 : std_logic_vector(31 downto 0); signal op_1_s : std_logic_vector(31 downto 0); signal seqC : std_logic_vector(31 downto 0); signal sequence : std_logic_vector(61 downto 0); begin -- C ^ sequence[(r-4) % 62] sequence <= "11110000101100111001010001001000000111101001100011010111011011"; -- z3 -- 0xFFFFFFFFFFFFFFFC xor sequence[(r-4) % 62] -- TODO: 1-bit latch for seqC(0) is used, not recommended... seqC <= ("1111111111111111111111111111110" & sequence((to_integer(unsigned(r))) mod 62)); -- tmp = K[3] >> 3 op_3_s <= std_logic_vector(rotate_right(unsigned(k_3), 3)); -- tmp = tmp xor k[1] op_xor_0 <= (op_3_s xor k_1); -- tmp >> 1 op_1_s <= std_logic_vector(rotate_right(unsigned(op_xor_0), 1)); -- Original NSA specification lists ~K[0] ^ 3 but this can be rewritten to K[0] ^ ((1 << word_size)-4) where the latter can be stored as a constant for speed subkey_out <= op_1_s xor op_xor_0 xor k_0 xor seqC; end Behavioral;

---------------------------------------------------------------------------------- --! Company: EDAQ WIS. --! Engineer: juna --! --! Create Date: 06/19/2014 --! Module Name: enc_8b10_wrap --! Project Name: FELIX ---------------------------------------------------------------------------------- --! Use standard library library IEEE, work; use IEEE.STD_LOGIC_1164.ALL; use work.centralRouter_package.all; use work.all; --! a wrap for 8b10b encoder entity enc8b10_wrap is port ( clk : in std_logic; rst : in std_logic; dataCode : in std_logic_vector (1 downto 0); -- 00"data, 01"eop, 10"sop, 11"comma dataIN : in std_logic_vector (7 downto 0); dataINrdy : in std_logic; encDataOut : out std_logic_vector (9 downto 0); encDataOutrdy : out std_logic ); end enc8b10_wrap; architecture Behavioral of enc8b10_wrap is ---------------------------------- ---------------------------------- component MUX4_Nbit generic (N : integer := 1); port ( data0 : in std_logic_vector((N-1) downto 0); data1 : in std_logic_vector((N-1) downto 0); data2 : in std_logic_vector((N-1) downto 0); data3 : in std_logic_vector((N-1) downto 0); sel : in std_logic_vector(1 downto 0); data_out : out std_logic_vector((N-1) downto 0) ); end component MUX4_Nbit; ---------------------------------- ---------------------------------- component enc_8b10b port( RESET : in std_logic ; -- Global asynchronous reset (active high) clk : in std_logic ; ena : in std_logic ; --enaRise : in std_logic ; --enaFall : in std_logic ; --SBYTECLK : in std_logic ; -- Master synchronous send byte clock KI : in std_logic ; -- Control (K) input(active high) AI, BI, CI, DI, EI, FI, GI, HI : in std_logic ; -- Unencoded input data JO, HO, GO, FO, IO, EO, DO, CO, BO, AO : out std_logic -- Encoded out ); end component enc_8b10b; ---------------------------------- ---------------------------------- signal isk : std_logic := '1'; signal encoder_rst, enc_ena_s : std_logic; signal enc_ena, encoder_rst_delayed, encoder_rst_clk1 : std_logic := '1'; signal dataINrdy_s : std_logic; signal rst_state : std_logic := '1'; signal dataIN_s, byte : std_logic_vector(7 downto 0); signal dataCode_s : std_logic_vector(1 downto 0) := (others => '1'); begin dataINrdy_s <= dataINrdy and (not encoder_rst); ------------------------------------------------------------------------------------------- -- input registers ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '1' then rst_state <= rst; end if; end process; -- process(clk) begin if clk'event and clk = '1' then if dataINrdy_s = '1' then dataIN_s <= dataIN; dataCode_s <= dataCode; isk <= dataCode(1) or dataCode(0); --rst_state <= '0'; -- else -- dataIN_s <= Kchar_comma; -- dataCode_s <= "11"; end if; end if; end process; -- encoder_rst <= rst_state or rst; -- ------------------------------------------------------------------------------------------- -- data code cases -- 00"data, 01"eop, 10"sop, 11"comma ------------------------------------------------------------------------------------------- inmux: MUX4_Nbit generic map (N=>8) port map ( data0 => dataIN_s, data1 => Kchar_eop, data2 => Kchar_sop, data3 => Kchar_comma, sel => dataCode_s, data_out => byte ); -- ------------------------------------------------------------------------------------------- -- 8b10b encoder ------------------------------------------------------------------------------------------- process(clk) begin if clk'event and clk = '0' then enc_ena <= dataINrdy_s or encoder_rst; encoder_rst_clk1 <= encoder_rst; encoder_rst_delayed <= encoder_rst_clk1; end if; end process; -- enc_ena_s <= enc_ena or encoder_rst_delayed; -- enc_8b10bx: enc_8b10b port map( RESET => encoder_rst, -- Global asynchronous reset (active high) clk => clk, ena => enc_ena_s, --SBYTECLK => encClk_s, --clk, -- Master synchronous send byte clock KI => isk, -- Control (K) input(active high) AI=>byte(0), BI=>byte(1), CI=>byte(2), DI=>byte(3), EI=>byte(4), FI=>byte(5), GI=>byte(6), HI=>byte(7), -- Unencoded input data JO=>encDataOut(9),HO=>encDataOut(8),GO=>encDataOut(7),FO=>encDataOut(6),IO=>encDataOut(5),EO=>encDataOut(4),DO=>encDataOut(3),CO=>encDataOut(2),BO=>encDataOut(1),AO=>encDataOut(0) -- Encoded out ); -- -- process(clk) begin if clk'event and clk = '1' then encDataOutrdy <= dataINrdy_s and (not encoder_rst); end if; end process; -- end Behavioral;

--***************************************************************************** -- (c) Copyright 2009 - 2010 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. -- --***************************************************************************** -- ____ ____ -- / /\/ / -- /___/ \ / Vendor: Xilinx -- \ \ \/ Version: 3.92 -- \ \ Application: MIG -- / / Filename: phy_dqs_iob.vhd -- /___/ /\ Date Last Modified: $Date: 2011/06/02 07:18:12 $ -- \ \ / \ Date Created: Aug 03 2009 -- \___\/\___\ -- --Device: Virtex-6 --Design Name: DDR3 SDRAM --Purpose: -- Instantiates I/O-related logic for DQS. Contains logic for both write -- and read (phase detection) paths. --Reference: --Revision History: --***************************************************************************** --****************************************************************************** --**$Id: phy_dqs_iob.vhd,v 1.1 2011/06/02 07:18:12 mishra Exp $ --**$Date: 2011/06/02 07:18:12 $ --**$Author: mishra $ --**$Revision: 1.1 $ --**$Source: /devl/xcs/repo/env/Databases/ip/src2/O/mig_v3_9/data/dlib/virtex6/ddr3_sdram/vhdl/rtl/phy/phy_dqs_iob.vhd,v $ --****************************************************************************** library unisim; use unisim.vcomponents.all; library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; entity phy_dqs_iob is generic ( TCQ : integer := 100; -- clk->out delay (sim only) DRAM_TYPE : string := "DDR3"; -- Memory I/F type: "DDR3", "DDR2" REFCLK_FREQ : real := 300.0; -- IODELAY Reference Clock freq (MHz) IBUF_LPWR_MODE : string := "OFF"; -- Input buffer low power mode IODELAY_HP_MODE : string := "ON"; -- IODELAY High Performance Mode IODELAY_GRP : string := "IODELAY_MIG" -- May be assigned unique name -- when mult IP cores in design ); port ( clk_mem : in std_logic; -- memory-rate clock clk : in std_logic; -- internal (logic) clock clk_cpt : in std_logic; -- read capture clock clk_rsync : in std_logic; -- resynchronization (read) clock rst : in std_logic; -- reset sync'ed to CLK rst_rsync : in std_logic; -- reset sync'ed to RSYNC -- IODELAY I/F dlyval : in std_logic_vector(4 downto 0); -- IODELAY (DQS) parallel load value -- Write datapath I/F dqs_oe_n : in std_logic_vector(3 downto 0); -- DQS output enable dqs_rst : in std_logic_vector(3 downto 0); -- D4 input of OSERDES: 1- for normal, 0- for WL -- Read datapath I/F rd_bitslip_cnt : in std_logic_vector(1 downto 0); rd_clkdly_cnt : in std_logic_vector(1 downto 0); rd_clkdiv_inv : in std_logic; rd_dqs_rise0 : out std_logic; -- DQS captured in clk_cpt domain rd_dqs_fall0 : out std_logic; -- used by Phase Detector. Monitor DQS rd_dqs_rise1 : out std_logic; rd_dqs_fall1 : out std_logic; -- DDR3 bus signals ddr_dqs_p : inout std_logic; ddr_dqs_n : inout std_logic; -- Debug Port dqs_tap_cnt : out std_logic_vector(4 downto 0) ); end phy_dqs_iob; architecture trans_phy_dqs_iob of phy_dqs_iob is -- Set performance mode for IODELAY (power vs. performance tradeoff) function CALC_HIGH_PERF_MODE return boolean is begin if (IODELAY_HP_MODE = "OFF") then return FALSE; elsif (IODELAY_HP_MODE = "ON") then return TRUE; else return FALSE; end if; end function CALC_HIGH_PERF_MODE; -- Enable low power mode for input buffer function CALC_IBUF_LOW_PWR return boolean is begin if (IBUF_LPWR_MODE = "OFF") then return FALSE; elsif (IBUF_LPWR_MODE = "ON") then return TRUE; else return FALSE; end if; end function CALC_IBUF_LOW_PWR; constant HIGH_PERFORMANCE_MODE : boolean := CALC_HIGH_PERF_MODE; constant IBUF_LOW_PWR : boolean := CALC_IBUF_LOW_PWR; signal dqs_ibuf_n : std_logic; signal dqs_ibuf_p : std_logic; signal dqs_n_iodelay : std_logic; signal dqs_n_tfb : std_logic; signal dqs_n_tq : std_logic; signal dqs_p_iodelay : std_logic; signal dqs_p_tfb : std_logic; signal dqs_p_oq : std_logic; signal dqs_p_tq : std_logic; signal iserdes_clk : std_logic; signal iserdes_clkb : std_logic; signal iserdes_q : std_logic_vector(5 downto 0); signal iserdes_q_mux : std_logic_vector(5 downto 0); signal iserdes_q_neg_r : std_logic_vector(5 downto 0); signal iserdes_q_r : std_logic_vector(5 downto 0); signal rddata : std_logic_vector(3 downto 0); ------ rd_bitslip component ------- component rd_bitslip generic ( TCQ : integer := 100 ); port ( clk : in std_logic; bitslip_cnt : in std_logic_vector(1 downto 0); clkdly_cnt : in std_logic_vector(1 downto 0); din : in std_logic_vector(5 downto 0); qout : out std_logic_vector(3 downto 0) ); end component; attribute IODELAY_GROUP : string; attribute IODELAY_GROUP of u_iodelay_dqs_p_early : label is IODELAY_GRP; begin --*************************************************************************** -- Strobe Bidirectional I/O --*************************************************************************** u_iobuf_dqs: IOBUFDS_DIFF_OUT generic map ( IBUF_LOW_PWR => IBUF_LOW_PWR ) port map ( o => dqs_ibuf_p, ob => dqs_ibuf_n, io => ddr_dqs_p, iob => ddr_dqs_n, i => dqs_p_iodelay, tm => dqs_p_tq, ts => dqs_n_tq ); --*************************************************************************** -- Programmable Delay element - the "P"-side is used for both input and -- output paths. The N-side is used for tri-state control of N-side I/O -- buffer and can possibly be used as as an input (complement of P-side) -- for the read phase detector --*************************************************************************** u_iodelay_dqs_p_early : IODELAYE1 generic map ( CINVCTRL_SEL => FALSE, DELAY_SRC => "IO", HIGH_PERFORMANCE_MODE => HIGH_PERFORMANCE_MODE, IDELAY_TYPE => "VAR_LOADABLE", IDELAY_VALUE => 0, ODELAY_TYPE => "VAR_LOADABLE", ODELAY_VALUE => 0, REFCLK_FREQUENCY => REFCLK_FREQ ) port map ( DATAOUT => dqs_p_iodelay, C => clk_rsync, CE => '0', DATAIN => '0', IDATAIN => dqs_ibuf_p, INC => '0', ODATAIN => dqs_p_oq, RST => '1', T => dqs_p_tfb, CNTVALUEIN => dlyval, CNTVALUEOUT => dqs_tap_cnt, CLKIN => 'Z', CINVCTRL => '0' ); --*************************************************************************** -- Write Path --*************************************************************************** u_oserdes_dqs_p : OSERDESE1 generic map ( DATA_RATE_OQ => "DDR", DATA_RATE_TQ => "DDR", DATA_WIDTH => 4, DDR3_DATA => 0, INIT_OQ => '0', INIT_TQ => '1', INTERFACE_TYPE => "DEFAULT", ODELAY_USED => 0, SERDES_MODE => "MASTER", SRVAL_OQ => '0', SRVAL_TQ => '0', TRISTATE_WIDTH => 4 ) port map ( OCBEXTEND => open, OFB => open, OQ => dqs_p_oq, SHIFTOUT1 => open, SHIFTOUT2 => open, TQ => dqs_p_tq, CLK => clk_mem, CLKDIV => clk, CLKPERF => 'Z', CLKPERFDELAY => 'Z', D1 => dqs_rst(0), D2 => dqs_rst(1), D3 => dqs_rst(2), D4 => dqs_rst(3), D5 => 'Z', D6 => 'Z', OCE => '1', ODV => '0', SHIFTIN1 => 'Z', SHIFTIN2 => 'Z', RST => rst, T1 => dqs_oe_n(0), T2 => dqs_oe_n(1), T3 => dqs_oe_n(2), T4 => dqs_oe_n(3), TFB => dqs_p_tfb, TCE => '1', WC => '0' ); u_oserdes_dqs_n : OSERDESE1 generic map ( DATA_RATE_OQ => "DDR", DATA_RATE_TQ => "DDR", DATA_WIDTH => 4, DDR3_DATA => 0, INIT_OQ => '1', INIT_TQ => '1', INTERFACE_TYPE => "DEFAULT", ODELAY_USED => 0, SERDES_MODE => "MASTER", SRVAL_OQ => '0', SRVAL_TQ => '0', TRISTATE_WIDTH => 4 ) port map ( OCBEXTEND => open, OFB => open, OQ => open, SHIFTOUT1 => open, SHIFTOUT2 => open, TQ => dqs_n_tq, CLK => clk_mem, CLKDIV => clk, CLKPERF => 'Z', CLKPERFDELAY => 'Z', D1 => '0', D2 => '0', D3 => '0', D4 => '0', D5 => 'Z', D6 => 'Z', OCE => '1', ODV => '0', SHIFTIN1 => 'Z', SHIFTIN2 => 'Z', RST => rst, T1 => dqs_oe_n(0), T2 => dqs_oe_n(1), T3 => dqs_oe_n(2), T4 => dqs_oe_n(3), TFB => dqs_n_tfb, TCE => '1', WC => '0' ); --*************************************************************************** -- Read Path --*************************************************************************** -- Assign equally to avoid delta-delay issues in simulation iserdes_clk <= clk_cpt; iserdes_clkb <= not(clk_cpt); u_iserdes_dqs_p : ISERDESE1 generic map ( DATA_RATE => "DDR", DATA_WIDTH => 4, DYN_CLKDIV_INV_EN => TRUE, DYN_CLK_INV_EN => FALSE, INIT_Q1 => '0', INIT_Q2 => '0', INIT_Q3 => '0', INIT_Q4 => '0', INTERFACE_TYPE => "MEMORY_DDR3", NUM_CE => 2, IOBDELAY => "IFD", OFB_USED => FALSE, SERDES_MODE => "MASTER", SRVAL_Q1 => '0', SRVAL_Q2 => '0', SRVAL_Q3 => '0', SRVAL_Q4 => '0' ) port map ( O => open, Q1 => iserdes_q(0), Q2 => iserdes_q(1), Q3 => iserdes_q(2), Q4 => iserdes_q(3), Q5 => iserdes_q(4), Q6 => iserdes_q(5), SHIFTOUT1 => open, SHIFTOUT2 => open, BITSLIP => '0', CE1 => '1', CE2 => '1', CLK => iserdes_clk, CLKB => iserdes_clkb, CLKDIV => clk_rsync, D => 'Z', DDLY => dqs_p_iodelay, DYNCLKDIVSEL => rd_clkdiv_inv, DYNCLKSEL => '0', OCLK => clk_mem, -- Not used, but connect to avoid DRC OFB => '0', RST => rst_rsync, SHIFTIN1 => '0', SHIFTIN2 => '0' ); --***************************************************************** -- Selectable registers on ISERDES data outputs depending on -- whether DYNCLKDIVSEL is enabled or not --***************************************************************** -- Capture first using CLK_RSYNC falling edge domain, then transfer -- to rising edge CLK_RSYNC. We could also attempt to transfer -- directly from falling edge CLK_RSYNC domain (in ISERDES) to -- rising edge CLK_RSYNC domain in fabric. This is allowed as long -- as the half-cycle timing on these paths can be met. process (clk_rsync) begin if (clk_rsync'event and clk_rsync = '0') then iserdes_q_neg_r <= iserdes_q after (TCQ)*1 ps; end if; end process; process (clk_rsync) begin if (clk_rsync'event and clk_rsync = '1') then iserdes_q_r <= iserdes_q_neg_r after (TCQ)*1 ps; end if; end process; iserdes_q_mux <= iserdes_q_r when (rd_clkdiv_inv = '1') else iserdes_q; --***************************************************************** -- Read bitslip logic --***************************************************************** u_rd_bitslip_early: rd_bitslip generic map( TCQ => TCQ ) port map( clk => clk_rsync, bitslip_cnt => rd_bitslip_cnt, clkdly_cnt => rd_clkdly_cnt, din => iserdes_q_mux, qout => rddata ); rd_dqs_rise0 <= rddata(3); rd_dqs_fall0 <= rddata(2); rd_dqs_rise1 <= rddata(1); rd_dqs_fall1 <= rddata(0); end trans_phy_dqs_iob;

library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity AXIinterfacefor65816_v1_0_S00_AXI is generic ( -- Users to add parameters here -- User parameters ends -- Do not modify the parameters beyond this line -- Width of S_AXI data bus C_S_AXI_DATA_WIDTH : integer := 32; -- Width of S_AXI address bus C_S_AXI_ADDR_WIDTH : integer := 7 ); port ( -- Users to add ports here clk : in std_logic; tru_clk: in std_logic; reset_65816_module : in std_logic; -- User ports ends -- Do not modify the ports beyond this line -- Global Clock Signal S_AXI_ACLK : in std_logic; -- Global Reset Signal. This Signal is Active LOW S_AXI_ARESETN : in std_logic; -- Write address (issued by master, acceped by Slave) S_AXI_AWADDR : in std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); -- Write channel Protection type. This signal indicates the -- privilege and security level of the transaction, and whether -- the transaction is a data access or an instruction access. S_AXI_AWPROT : in std_logic_vector(2 downto 0); -- Write address valid. This signal indicates that the master signaling -- valid write address and control information. S_AXI_AWVALID : in std_logic; -- Write address ready. This signal indicates that the slave is ready -- to accept an address and associated control signals. S_AXI_AWREADY : out std_logic; -- Write data (issued by master, acceped by Slave) S_AXI_WDATA : in std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); -- Write strobes. This signal indicates which byte lanes hold -- valid data. There is one write strobe bit for each eight -- bits of the write data bus. S_AXI_WSTRB : in std_logic_vector((C_S_AXI_DATA_WIDTH/8)-1 downto 0); -- Write valid. This signal indicates that valid write -- data and strobes are available. S_AXI_WVALID : in std_logic; -- Write ready. This signal indicates that the slave -- can accept the write data. S_AXI_WREADY : out std_logic; -- Write response. This signal indicates the status -- of the write transaction. S_AXI_BRESP : out std_logic_vector(1 downto 0); -- Write response valid. This signal indicates that the channel -- is signaling a valid write response. S_AXI_BVALID : out std_logic; -- Response ready. This signal indicates that the master -- can accept a write response. S_AXI_BREADY : in std_logic; -- Read address (issued by master, acceped by Slave) S_AXI_ARADDR : in std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); -- Protection type. This signal indicates the privilege -- and security level of the transaction, and whether the -- transaction is a data access or an instruction access. S_AXI_ARPROT : in std_logic_vector(2 downto 0); -- Read address valid. This signal indicates that the channel -- is signaling valid read address and control information. S_AXI_ARVALID : in std_logic; -- Read address ready. This signal indicates that the slave is -- ready to accept an address and associated control signals. S_AXI_ARREADY : out std_logic; -- Read data (issued by slave) S_AXI_RDATA : out std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); -- Read response. This signal indicates the status of the -- read transfer. S_AXI_RRESP : out std_logic_vector(1 downto 0); -- Read valid. This signal indicates that the channel is -- signaling the required read data. S_AXI_RVALID : out std_logic; -- Read ready. This signal indicates that the master can -- accept the read data and response information. S_AXI_RREADY : in std_logic ); end AXIinterfacefor65816_v1_0_S00_AXI; architecture arch_imp of AXIinterfacefor65816_v1_0_S00_AXI is -- AXI4LITE signals signal axi_awaddr : std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); signal axi_awready : std_logic; signal axi_wready : std_logic; signal axi_bresp : std_logic_vector(1 downto 0); signal axi_bvalid : std_logic; signal axi_araddr : std_logic_vector(C_S_AXI_ADDR_WIDTH-1 downto 0); signal axi_arready : std_logic; signal axi_rdata : std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal axi_rresp : std_logic_vector(1 downto 0); signal axi_rvalid : std_logic; -- Example-specific design signals -- local parameter for addressing 32 bit / 64 bit C_S_AXI_DATA_WIDTH -- ADDR_LSB is used for addressing 32/64 bit registers/memories -- ADDR_LSB = 2 for 32 bits (n downto 2) -- ADDR_LSB = 3 for 64 bits (n downto 3) constant ADDR_LSB : integer := (C_S_AXI_DATA_WIDTH/32)+ 1; constant OPT_MEM_ADDR_BITS : integer := 4; ------------------------------------------------ ---- Signals for user logic register space example -------------------------------------------------- ---- Number of Slave Registers 32 signal slv_reg0 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg1 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg2 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg3 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg4 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg5 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg6 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg7 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg8 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg9 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg10 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg11 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg12 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg13 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg14 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg15 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg16 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg17 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg18 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg19 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg20 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg21 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg22 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg23 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg24 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg25 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg26 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg27 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg28 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg29 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg30 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg31 :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal slv_reg_rden : std_logic; signal slv_reg_wren : std_logic; signal reg_data_out :std_logic_vector(C_S_AXI_DATA_WIDTH-1 downto 0); signal byte_index : integer; -- -- -- CUSTOM INTERFACE PORTS AND SIGNALS -- -- COMPONENT Soft_65C816 PORT( clk : IN std_logic; tru_clk : IN std_logic; reset : IN std_logic; Addr_Bus : OUT std_logic_vector(23 downto 0); D_BUS : IN std_logic_vector(31 downto 0); D_BUS_out : out std_logic_vector(23 downto 0); EMULATION_SELECT : OUT std_logic; RDY : out std_logic; DATA_RDY: in std_logic; REG_A : OUT std_logic_vector(15 downto 0); REG_X : OUT std_logic_vector(15 downto 0); REG_Y : OUT std_logic_vector(15 downto 0); REG_SP : OUT std_logic_vector(15 downto 0); REG_PC : OUT std_logic_vector(15 downto 0); REG_Proc : OUT std_logic_vector(7 downto 0); REG_DBR : OUT std_logic_vector(7 downto 0); state_machine :out std_logic_vector(15 downto 0); RW :out std_logic ; -- Read or write bit VPB : OUT std_logic ); END COMPONENT; --Component Outputs signal Addr_Bus : std_logic_vector(23 downto 0) := (others=> '0');-- Comes from slave register #0; signal EMULATION_SELECT : std_logic; -- Comes from slave register #1 signal REG_A : std_logic_vector(15 downto 0); -- Comes from slave register #2 signal REG_X : std_logic_vector(15 downto 0); -- Comes from slave register #3 signal REG_Y : std_logic_vector(15 downto 0); -- Comes from slave register #4 signal REG_SP : std_logic_vector(15 downto 0); -- Comes from slave register #5 signal REG_PC : std_logic_vector(15 downto 0); -- Comes from slave register #6 signal REG_Proc : std_logic_vector(7 downto 0); -- Comes from slave register #7 signal REG_DBR : std_logic_vector(7 downto 0); -- Comes from slave register #8 signal state_machine : std_logic_vector(15 downto 0); -- Comes from slave register #9 signal VPB : std_logic; signal RDY : std_logic; -- Comes from slave register #10 signal D_BUS_out:std_logic_vector(23 downto 0):=(others => '0'); -- Comes from slave register #13 signal RW : std_logic; -- Comes from slave register #10 --Component Inputs --signal reset : std_logic := '0'; -- Comes from switch signal D_BUS : std_logic_vector(31 downto 0) := (others => 'Z'); -- Goes to slave register #11 signal DATA_RDY: std_logic := '1'; -- Comes from slave register #12 --Internal Signals begin -- BEGIN User designated port maps D_BUS <= slv_reg11; DATA_RDY <= slv_reg12(0); -- Instantiate the Soft 65816 Unit to be implemented HEART: Soft_65C816 PORT MAP ( clk => clk, tru_clk => tru_clk, reset => reset_65816_module, Addr_Bus => Addr_Bus, D_BUS => D_BUS, D_BUS_out => D_BUS_out, EMULATION_SELECT => EMULATION_SELECT, RDY => RDY, RW => RW, DATA_RDY => DATA_RDY, REG_A => REG_A, REG_X => REG_X, REG_Y => REG_Y, REG_SP => REG_SP, REG_PC => REG_PC, REG_Proc => REG_Proc, REG_DBR => REG_DBR, state_machine => state_machine, VPB => VPB ); -- END User designated port maps -- I/O Connections assignments S_AXI_AWREADY <= axi_awready; S_AXI_WREADY <= axi_wready; S_AXI_BRESP <= axi_bresp; S_AXI_BVALID <= axi_bvalid; S_AXI_ARREADY <= axi_arready; S_AXI_RDATA <= axi_rdata; S_AXI_RRESP <= axi_rresp; S_AXI_RVALID <= axi_rvalid; -- Implement axi_awready generation -- axi_awready is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_AWVALID and S_AXI_WVALID are asserted. axi_awready is -- de-asserted when reset is low. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_awready <= '0'; else if (axi_awready = '0' and S_AXI_AWVALID = '1' and S_AXI_WVALID = '1') then -- slave is ready to accept write address when -- there is a valid write address and write data -- on the write address and data bus. This design -- expects no outstanding transactions. axi_awready <= '1'; else axi_awready <= '0'; end if; end if; end if; end process; -- Implement axi_awaddr latching -- This process is used to latch the address when both -- S_AXI_AWVALID and S_AXI_WVALID are valid. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_awaddr <= (others => '0'); else if (axi_awready = '0' and S_AXI_AWVALID = '1' and S_AXI_WVALID = '1') then -- Write Address latching axi_awaddr <= S_AXI_AWADDR; end if; end if; end if; end process; -- Implement axi_wready generation -- axi_wready is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_AWVALID and S_AXI_WVALID are asserted. axi_wready is -- de-asserted when reset is low. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_wready <= '0'; else if (axi_wready = '0' and S_AXI_WVALID = '1' and S_AXI_AWVALID = '1') then -- slave is ready to accept write data when -- there is a valid write address and write data -- on the write address and data bus. This design -- expects no outstanding transactions. axi_wready <= '1'; else axi_wready <= '0'; end if; end if; end if; end process; -- Implement memory mapped register select and write logic generation -- The write data is accepted and written to memory mapped registers when -- axi_awready, S_AXI_WVALID, axi_wready and S_AXI_WVALID are asserted. Write strobes are used to -- select byte enables of slave registers while writing. -- These registers are cleared when reset (active low) is applied. -- Slave register write enable is asserted when valid address and data are available -- and the slave is ready to accept the write address and write data. slv_reg_wren <= axi_wready and S_AXI_WVALID and axi_awready and S_AXI_AWVALID ; process (S_AXI_ACLK) variable loc_addr :std_logic_vector(OPT_MEM_ADDR_BITS downto 0); begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then slv_reg0 <= (others => '0'); slv_reg1 <= (others => '0'); slv_reg2 <= (others => '0'); slv_reg3 <= (others => '0'); slv_reg4 <= (others => '0'); slv_reg5 <= (others => '0'); slv_reg6 <= (others => '0'); slv_reg7 <= (others => '0'); slv_reg8 <= (others => '0'); slv_reg9 <= (others => '0'); slv_reg10 <= (others => '0'); slv_reg11 <= (others => '0'); slv_reg12 <= (others => '0'); slv_reg13 <= (others => '0'); slv_reg14 <= (others => '0'); slv_reg15 <= (others => '0'); slv_reg16 <= (others => '0'); slv_reg17 <= (others => '0'); slv_reg18 <= (others => '0'); slv_reg19 <= (others => '0'); slv_reg20 <= (others => '0'); slv_reg21 <= (others => '0'); slv_reg22 <= (others => '0'); slv_reg23 <= (others => '0'); slv_reg24 <= (others => '0'); slv_reg25 <= (others => '0'); slv_reg26 <= (others => '0'); slv_reg27 <= (others => '0'); slv_reg28 <= (others => '0'); slv_reg29 <= (others => '0'); slv_reg30 <= (others => '0'); slv_reg31 <= (others => '0'); else loc_addr := axi_awaddr(ADDR_LSB + OPT_MEM_ADDR_BITS downto ADDR_LSB); if (slv_reg_wren = '1') then case loc_addr is when b"00000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 0 slv_reg0(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 1 slv_reg1(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 2 slv_reg2(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 3 slv_reg3(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 4 slv_reg4(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 5 slv_reg5(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 6 slv_reg6(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"00111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 7 slv_reg7(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 8 slv_reg8(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 9 slv_reg9(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 10 slv_reg10(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 11 slv_reg11(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 12 slv_reg12(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 13 slv_reg13(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 14 slv_reg14(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"01111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 15 slv_reg15(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 16 slv_reg16(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 17 slv_reg17(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 18 slv_reg18(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 19 slv_reg19(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 20 slv_reg20(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 21 slv_reg21(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 22 slv_reg22(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"10111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 23 slv_reg23(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11000" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 24 slv_reg24(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11001" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 25 slv_reg25(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11010" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 26 slv_reg26(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11011" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 27 slv_reg27(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11100" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 28 slv_reg28(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11101" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 29 slv_reg29(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11110" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 30 slv_reg30(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when b"11111" => for byte_index in 0 to (C_S_AXI_DATA_WIDTH/8-1) loop if ( S_AXI_WSTRB(byte_index) = '1' ) then -- Respective byte enables are asserted as per write strobes -- slave registor 31 slv_reg31(byte_index*8+7 downto byte_index*8) <= S_AXI_WDATA(byte_index*8+7 downto byte_index*8); end if; end loop; when others => slv_reg0 <= slv_reg0; slv_reg1 <= slv_reg1; slv_reg2 <= slv_reg2; slv_reg3 <= slv_reg3; slv_reg4 <= slv_reg4; slv_reg5 <= slv_reg5; slv_reg6 <= slv_reg6; slv_reg7 <= slv_reg7; slv_reg8 <= slv_reg8; slv_reg9 <= slv_reg9; slv_reg10 <= slv_reg10; slv_reg11 <= slv_reg11; slv_reg12 <= slv_reg12; slv_reg13 <= slv_reg13; slv_reg14 <= slv_reg14; slv_reg15 <= slv_reg15; slv_reg16 <= slv_reg16; slv_reg17 <= slv_reg17; slv_reg18 <= slv_reg18; slv_reg19 <= slv_reg19; slv_reg20 <= slv_reg20; slv_reg21 <= slv_reg21; slv_reg22 <= slv_reg22; slv_reg23 <= slv_reg23; slv_reg24 <= slv_reg24; slv_reg25 <= slv_reg25; slv_reg26 <= slv_reg26; slv_reg27 <= slv_reg27; slv_reg28 <= slv_reg28; slv_reg29 <= slv_reg29; slv_reg30 <= slv_reg30; slv_reg31 <= slv_reg31; end case; end if; end if; end if; end process; -- Implement write response logic generation -- The write response and response valid signals are asserted by the slave -- when axi_wready, S_AXI_WVALID, axi_wready and S_AXI_WVALID are asserted. -- This marks the acceptance of address and indicates the status of -- write transaction. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_bvalid <= '0'; axi_bresp <= "00"; --need to work more on the responses else if (axi_awready = '1' and S_AXI_AWVALID = '1' and axi_wready = '1' and S_AXI_WVALID = '1' and axi_bvalid = '0' ) then axi_bvalid <= '1'; axi_bresp <= "00"; elsif (S_AXI_BREADY = '1' and axi_bvalid = '1') then --check if bready is asserted while bvalid is high) axi_bvalid <= '0'; -- (there is a possibility that bready is always asserted high) end if; end if; end if; end process; -- Implement axi_arready generation -- axi_arready is asserted for one S_AXI_ACLK clock cycle when -- S_AXI_ARVALID is asserted. axi_awready is -- de-asserted when reset (active low) is asserted. -- The read address is also latched when S_AXI_ARVALID is -- asserted. axi_araddr is reset to zero on reset assertion. process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_arready <= '0'; axi_araddr <= (others => '1'); else if (axi_arready = '0' and S_AXI_ARVALID = '1') then -- indicates that the slave has acceped the valid read address axi_arready <= '1'; -- Read Address latching axi_araddr <= S_AXI_ARADDR; else axi_arready <= '0'; end if; end if; end if; end process; -- Implement axi_arvalid generation -- axi_rvalid is asserted for one S_AXI_ACLK clock cycle when both -- S_AXI_ARVALID and axi_arready are asserted. The slave registers -- data are available on the axi_rdata bus at this instance. The -- assertion of axi_rvalid marks the validity of read data on the -- bus and axi_rresp indicates the status of read transaction.axi_rvalid -- is deasserted on reset (active low). axi_rresp and axi_rdata are -- cleared to zero on reset (active low). process (S_AXI_ACLK) begin if rising_edge(S_AXI_ACLK) then if S_AXI_ARESETN = '0' then axi_rvalid <= '0'; axi_rresp <= "00"; else if (axi_arready = '1' and S_AXI_ARVALID = '1' and axi_rvalid = '0') then -- Valid read data is available at the read data bus axi_rvalid <= '1'; axi_rresp <= "00"; -- 'OKAY' response elsif (axi_rvalid = '1' and S_AXI_RREADY = '1') then -- Read data is accepted by the master axi_rvalid <= '0'; end if; end if; end if; end process; -- Implement memory mapped register select and read logic generation -- Slave register read enable is asserted when valid address is available -- and the slave is ready to accept the read address. slv_reg_rden <= axi_arready and S_AXI_ARVALID and (not axi_rvalid) ; process (slv_reg0, slv_reg1, slv_reg2, slv_reg3, slv_reg4, slv_reg5, slv_reg6, slv_reg7, slv_reg8, slv_reg9, slv_reg10, slv_reg11, slv_reg12, slv_reg13, slv_reg14, slv_reg15, slv_reg16, slv_reg17, slv_reg18, slv_reg19, slv_reg20, slv_reg21, slv_reg22, slv_reg23, slv_reg24, slv_reg25, slv_reg26, slv_reg27, slv_reg28, slv_reg29, slv_reg30, slv_reg31, axi_araddr, S_AXI_ARESETN, slv_reg_rden) variable loc_addr :std_logic_vector(OPT_MEM_ADDR_BITS downto 0); begin -- Address decoding for reading registers loc_addr := axi_araddr(ADDR_LSB + OPT_MEM_ADDR_BITS downto ADDR_LSB); case loc_addr is when b"00000" => reg_data_out <= X"00" & Addr_Bus; when b"00001" => reg_data_out <= X"0000000" & b"000" & EMULATION_SELECT; when b"00010" => reg_data_out <= X"0000" & REG_A; when b"00011" => reg_data_out <= X"0000" & REG_X; when b"00100" => reg_data_out <= X"0000" & REG_Y; when b"00101" => reg_data_out <= X"0000" & REG_SP; when b"00110" => reg_data_out <= X"0000" & REG_PC; when b"00111" => reg_data_out <= X"000000" & REG_Proc; when b"01000" => reg_data_out <= X"000000" & REG_DBR; when b"01001" => reg_data_out <= X"0000" & state_machine; when b"01010" => reg_data_out <= X"0000000" & b"00" & RW & RDY; when b"01011" => reg_data_out <= D_BUS; when b"01100" => reg_data_out <= X"0000000" & b"000" & DATA_RDY; when b"01101" => reg_data_out <= X"00" & D_BUS_out; when b"01110" => reg_data_out <= slv_reg14; when b"01111" => reg_data_out <= slv_reg15; when b"10000" => reg_data_out <= slv_reg16; when b"10001" => reg_data_out <= slv_reg17; when b"10010" => reg_data_out <= slv_reg18; when b"10011" => reg_data_out <= slv_reg19; when b"10100" => reg_data_out <= slv_reg20; when b"10101" => reg_data_out <= slv_reg21; when b"10110" => reg_data_out <= slv_reg22; when b"10111" => reg_data_out <= slv_reg23; when b"11000" => reg_data_out <= slv_reg24; when b"11001" => reg_data_out <= slv_reg25; when b"11010" => reg_data_out <= slv_reg26; when b"11011" => reg_data_out <= slv_reg27; when b"11100" => reg_data_out <= slv_reg28; when b"11101" => reg_data_out <= slv_reg29; when b"11110" => reg_data_out <= slv_reg30; when b"11111" => reg_data_out <= X"0000AC32"; when others => reg_data_out <= (others => '0'); end case; end process; -- Output register or memory read data process( S_AXI_ACLK ) is begin if (rising_edge (S_AXI_ACLK)) then if ( S_AXI_ARESETN = '0' ) then axi_rdata <= (others => '0'); else if (slv_reg_rden = '1') then -- When there is a valid read address (S_AXI_ARVALID) with -- acceptance of read address by the slave (axi_arready), -- output the read dada -- Read address mux axi_rdata <= reg_data_out; -- register read data end if; end if; end if; end process; -- Add user logic here --PROC_for_65816_syncronization: -- process (clk) is -- begin -- if rising_edge(clk) then -- end if; -- end process; -- User logic ends end arch_imp;

library ieee; use ieee.std_logic_1164.all; library ieee; use ieee.numeric_std.all; entity w_split1 is port ( clk : in std_logic; ra0_data : out std_logic_vector(7 downto 0); wa0_data : in std_logic_vector(7 downto 0); wa0_addr : in std_logic; wa0_en : in std_logic; ra0_addr : in std_logic ); end w_split1; architecture augh of w_split1 is -- Embedded RAM type ram_type is array (0 to 1) of std_logic_vector(7 downto 0); signal ram : ram_type := ( "00000111", "00000111" ); -- Little utility functions to make VHDL syntactically correct -- with the syntax to_integer(unsigned(vector)) when 'vector' is a std_logic. -- This happens when accessing arrays with <= 2 cells, for example. function to_integer(B: std_logic) return integer is variable V: std_logic_vector(0 to 0); begin V(0) := B; return to_integer(unsigned(V)); end; function to_integer(V: std_logic_vector) return integer is begin return to_integer(unsigned(V)); end; begin -- Sequential process -- It handles the Writes process (clk) begin if rising_edge(clk) then -- Write to the RAM -- Note: there should be only one port. if wa0_en = '1' then ram( to_integer(wa0_addr) ) <= wa0_data; end if; end if; end process; -- The Read side (the outputs) ra0_data <= ram( to_integer(ra0_addr) ); end architecture;

------------------------------------------------------------------------------- -- axi_sg_updt_q_mngr ------------------------------------------------------------------------------- -- -- ************************************************************************* -- -- (c) Copyright 2010, 2011 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. -- -- ************************************************************************* -- ------------------------------------------------------------------------------- -- Filename: axi_sg_updt_q_mngr.vhd -- Description: This entity is the descriptor update queue manager -- -- VHDL-Standard: VHDL'93 ------------------------------------------------------------------------------- -- Structure: -- axi_sg.vhd -- axi_sg_pkg.vhd -- |- axi_sg_ftch_mngr.vhd -- | |- axi_sg_ftch_sm.vhd -- | |- axi_sg_ftch_pntr.vhd -- | |- axi_sg_ftch_cmdsts_if.vhd -- |- axi_sg_updt_mngr.vhd -- | |- axi_sg_updt_sm.vhd -- | |- axi_sg_updt_cmdsts_if.vhd -- |- axi_sg_ftch_q_mngr.vhd -- | |- axi_sg_ftch_queue.vhd -- | | |- proc_common_v4_0.sync_fifo_fg.vhd -- | | |- proc_common_v4_0.axi_sg_afifo_autord.vhd -- | |- axi_sg_ftch_noqueue.vhd -- |- axi_sg_updt_q_mngr.vhd -- | |- axi_sg_updt_queue.vhd -- | | |- proc_common_v4_0.sync_fifo_fg.vhd -- | |- proc_common_v4_0.axi_sg_afifo_autord.vhd -- | |- axi_sg_updt_noqueue.vhd -- |- axi_sg_intrpt.vhd -- |- axi_datamover_v5_0.axi_datamover.vhd -- ------------------------------------------------------------------------------- -- Author: Gary Burch -- History: -- GAB 3/19/10 v1_00_a -- ^^^^^^ -- - Initial Release -- ~~~~~~ -- GAB 8/26/10 v2_00_a -- ^^^^^^ -- Created top level for descriptor update queue management -- ~~~~~~ -- GAB 10/21/10 v4_03 -- ^^^^^^ -- Rolled version to v4_03 -- ~~~~~~ -- GAB 11/15/10 v2_01_a -- ^^^^^^ -- CR582800 -- Converted all stream paraters ***_DATA_WIDTH to ***_TDATA_WIDTH -- ~~~~~~ -- GAB 6/13/11 v4_03 -- ^^^^^^ -- Update to AXI Datamover v4_03 -- Added aynchronous operation -- ~~~~~~ ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.std_logic_misc.all; library axi_vdma_v6_2; use axi_vdma_v6_2.axi_sg_pkg.all; library lib_pkg_v1_0; library lib_fifo_v1_0; use lib_fifo_v1_0.sync_fifo_fg; use lib_pkg_v1_0.lib_pkg.all; ------------------------------------------------------------------------------- entity axi_sg_updt_q_mngr is generic ( C_M_AXI_SG_ADDR_WIDTH : integer range 32 to 64 := 32; -- Master AXI Memory Map Address Width for Scatter Gather R/W Port C_M_AXI_SG_DATA_WIDTH : integer range 32 to 32 := 32; -- Master AXI Memory Map Data Width for Scatter Gather R/W Port C_S_AXIS_UPDPTR_TDATA_WIDTH : integer range 32 to 32 := 32; -- 32 Update Status Bits C_S_AXIS_UPDSTS_TDATA_WIDTH : integer range 33 to 33 := 33; -- 1 IOC bit + 32 Update Status Bits C_SG_UPDT_DESC2QUEUE : integer range 0 to 8 := 0; -- Number of descriptors to fetch and queue for each channel. -- A value of zero excludes the fetch queues. C_SG_CH1_WORDS_TO_UPDATE : integer range 1 to 16 := 8; -- Number of words to update C_SG_CH2_WORDS_TO_UPDATE : integer range 1 to 16 := 8; -- Number of words to update C_INCLUDE_CH1 : integer range 0 to 1 := 1; -- Include or Exclude channel 1 scatter gather engine -- 0 = Exclude Channel 1 SG Engine -- 1 = Include Channel 1 SG Engine C_INCLUDE_CH2 : integer range 0 to 1 := 1; -- Include or Exclude channel 2 scatter gather engine -- 0 = Exclude Channel 2 SG Engine -- 1 = Include Channel 2 SG Engine C_AXIS_IS_ASYNC : integer range 0 to 1 := 0; -- Channel 1 is async to sg_aclk -- 0 = Synchronous to SG ACLK -- 1 = Asynchronous to SG ACLK C_FAMILY : string := "virtex6" -- Device family used for proper BRAM selection ); port ( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk : in std_logic ; -- m_axi_sg_aresetn : in std_logic ; -- -- --***********************************-- -- --** Channel 1 Control **-- -- --***********************************-- -- ch1_updt_curdesc_wren : out std_logic ; -- ch1_updt_curdesc : out std_logic_vector -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) ; -- ch1_updt_active : in std_logic ; -- ch1_updt_queue_empty : out std_logic ; -- ch1_updt_ioc : out std_logic ; -- ch1_updt_ioc_irq_set : in std_logic ; -- -- ch1_dma_interr : out std_logic ; -- ch1_dma_slverr : out std_logic ; -- ch1_dma_decerr : out std_logic ; -- ch1_dma_interr_set : in std_logic ; -- ch1_dma_slverr_set : in std_logic ; -- ch1_dma_decerr_set : in std_logic ; -- -- --***********************************-- -- --** Channel 2 Control **-- -- --***********************************-- -- ch2_updt_active : in std_logic ; -- ch2_updt_curdesc_wren : out std_logic ; -- ch2_updt_curdesc : out std_logic_vector -- (C_M_AXI_SG_ADDR_WIDTH-1 downto 0) ; -- ch2_updt_queue_empty : out std_logic ; -- ch2_updt_ioc : out std_logic ; -- ch2_updt_ioc_irq_set : in std_logic ; -- -- ch2_dma_interr : out std_logic ; -- ch2_dma_slverr : out std_logic ; -- ch2_dma_decerr : out std_logic ; -- ch2_dma_interr_set : in std_logic ; -- ch2_dma_slverr_set : in std_logic ; -- ch2_dma_decerr_set : in std_logic ; -- -- --***********************************-- -- --** Channel 1 Update Interface In **-- -- --***********************************-- -- s_axis_ch1_updt_aclk : in std_logic ; -- -- Update Pointer Stream -- s_axis_ch1_updtptr_tdata : in std_logic_vector -- (C_S_AXIS_UPDPTR_TDATA_WIDTH-1 downto 0); -- s_axis_ch1_updtptr_tvalid : in std_logic ; -- s_axis_ch1_updtptr_tready : out std_logic ; -- s_axis_ch1_updtptr_tlast : in std_logic ; -- -- -- Update Status Stream -- s_axis_ch1_updtsts_tdata : in std_logic_vector -- (C_S_AXIS_UPDSTS_TDATA_WIDTH-1 downto 0); -- s_axis_ch1_updtsts_tvalid : in std_logic ; -- s_axis_ch1_updtsts_tready : out std_logic ; -- s_axis_ch1_updtsts_tlast : in std_logic ; -- -- --***********************************-- -- --** Channel 2 Update Interface In **-- -- --***********************************-- -- s_axis_ch2_updt_aclk : in std_logic ; -- -- Update Pointer Stream -- s_axis_ch2_updtptr_tdata : in std_logic_vector -- (C_S_AXIS_UPDPTR_TDATA_WIDTH-1 downto 0); -- s_axis_ch2_updtptr_tvalid : in std_logic ; -- s_axis_ch2_updtptr_tready : out std_logic ; -- s_axis_ch2_updtptr_tlast : in std_logic ; -- -- -- Update Status Stream -- s_axis_ch2_updtsts_tdata : in std_logic_vector -- (C_S_AXIS_UPDSTS_TDATA_WIDTH-1 downto 0); -- s_axis_ch2_updtsts_tvalid : in std_logic ; -- s_axis_ch2_updtsts_tready : out std_logic ; -- s_axis_ch2_updtsts_tlast : in std_logic ; -- -- --***************************************-- -- --** Update Interface to AXI DataMover **-- -- --***************************************-- -- -- S2MM Stream Out To DataMover -- s_axis_s2mm_tdata : out std_logic_vector -- (C_M_AXI_SG_DATA_WIDTH-1 downto 0) ; -- s_axis_s2mm_tlast : out std_logic ; -- s_axis_s2mm_tvalid : out std_logic ; -- s_axis_s2mm_tready : in std_logic -- ); end axi_sg_updt_q_mngr; ------------------------------------------------------------------------------- -- Architecture ------------------------------------------------------------------------------- architecture implementation of axi_sg_updt_q_mngr is attribute DowngradeIPIdentifiedWarnings: string; attribute DowngradeIPIdentifiedWarnings of implementation : architecture is "yes"; ------------------------------------------------------------------------------- -- Functions ------------------------------------------------------------------------------- -- No Functions Declared ------------------------------------------------------------------------------- -- Constants Declarations ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- -- Signal / Type Declarations ------------------------------------------------------------------------------- signal m_axis_ch1_updt_tdata : std_logic_vector(C_M_AXI_SG_DATA_WIDTH-1 downto 0) := (others => '0'); signal m_axis_ch1_updt_tlast : std_logic := '0'; signal m_axis_ch1_updt_tvalid : std_logic := '0'; signal m_axis_ch1_updt_tready : std_logic := '0'; signal m_axis_ch2_updt_tdata : std_logic_vector(C_M_AXI_SG_DATA_WIDTH-1 downto 0) := (others => '0'); signal m_axis_ch2_updt_tlast : std_logic := '0'; signal m_axis_ch2_updt_tvalid : std_logic := '0'; signal m_axis_ch2_updt_tready : std_logic := '0'; ------------------------------------------------------------------------------- -- Begin architecture logic ------------------------------------------------------------------------------- begin --***************************************************************************** --** CHANNEL 1 ** --***************************************************************************** ------------------------------------------------------------------------------- -- If Channel 1 is enabled then instantiate descriptor update logic. ------------------------------------------------------------------------------- GEN_CH1_UPDATE_Q_IF : if C_INCLUDE_CH1 = 1 generate begin --***************************************************************************** --** CHANNEL 1 - DESCRIPTOR QUEUE ** --***************************************************************************** -- If Descriptor Update queueing enabled then instantiate Queue Logic GEN_CH1_QUEUE : if C_SG_UPDT_DESC2QUEUE /= 0 generate begin ------------------------------------------------------------------------------- I_CH1_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_queue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH , C_SG_UPDT_DESC2QUEUE => C_SG_UPDT_DESC2QUEUE , C_SG_WORDS_TO_UPDATE => C_SG_CH1_WORDS_TO_UPDATE , C_AXIS_IS_ASYNC => C_AXIS_IS_ASYNC , C_FAMILY => C_FAMILY ) port map( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , s_axis_updt_aclk => s_axis_ch1_updt_aclk , --********************************-- --** Control and Status **-- --********************************-- updt_curdesc_wren => ch1_updt_curdesc_wren , updt_curdesc => ch1_updt_curdesc , updt_active => ch1_updt_active , updt_queue_empty => ch1_updt_queue_empty , updt_ioc => ch1_updt_ioc , updt_ioc_irq_set => ch1_updt_ioc_irq_set , dma_interr => ch1_dma_interr , dma_slverr => ch1_dma_slverr , dma_decerr => ch1_dma_decerr , dma_interr_set => ch1_dma_interr_set , dma_slverr_set => ch1_dma_slverr_set , dma_decerr_set => ch1_dma_decerr_set , --********************************-- --** Update Interfaces In **-- --********************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch1_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch1_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch1_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch1_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch1_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch1_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch1_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch1_updtsts_tlast , --********************************-- --** Update Interfaces Out **-- --********************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch1_updt_tdata , m_axis_updt_tlast => m_axis_ch1_updt_tlast , m_axis_updt_tvalid => m_axis_ch1_updt_tvalid , m_axis_updt_tready => m_axis_ch1_updt_tready ); end generate GEN_CH1_QUEUE; --***************************************************************************** --** CHANNEL 1 - NO DESCRIPTOR QUEUE ** --***************************************************************************** -- No update queue enabled, therefore map internal stream logic -- directly to channel port. GEN_CH1_NO_QUEUE : if C_SG_UPDT_DESC2QUEUE = 0 generate begin I_NO_CH1_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_noqueue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH ) port map( ----------------------------------------------------------------------- -- AXI Scatter Gather Interface ----------------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , --********************************-- --** Control and Status **-- --********************************-- updt_curdesc_wren => ch1_updt_curdesc_wren , updt_curdesc => ch1_updt_curdesc , updt_active => ch1_updt_active , updt_queue_empty => ch1_updt_queue_empty , updt_ioc => ch1_updt_ioc , updt_ioc_irq_set => ch1_updt_ioc_irq_set , dma_interr => ch1_dma_interr , dma_slverr => ch1_dma_slverr , dma_decerr => ch1_dma_decerr , dma_interr_set => ch1_dma_interr_set , dma_slverr_set => ch1_dma_slverr_set , dma_decerr_set => ch1_dma_decerr_set , --********************************-- --** Update Interfaces In **-- --********************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch1_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch1_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch1_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch1_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch1_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch1_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch1_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch1_updtsts_tlast , --********************************-- --** Update Interfaces Out **-- --********************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch1_updt_tdata , m_axis_updt_tlast => m_axis_ch1_updt_tlast , m_axis_updt_tvalid => m_axis_ch1_updt_tvalid , m_axis_updt_tready => m_axis_ch1_updt_tready ); end generate GEN_CH1_NO_QUEUE; end generate GEN_CH1_UPDATE_Q_IF; -- Channel 1 NOT included therefore tie ch1 outputs off GEN_NO_CH1_UPDATE_Q_IF : if C_INCLUDE_CH1 = 0 generate begin ch1_updt_curdesc_wren <= '0'; ch1_updt_curdesc <= (others => '0'); ch1_updt_queue_empty <= '1'; ch1_updt_ioc <= '0'; ch1_dma_interr <= '0'; ch1_dma_slverr <= '0'; ch1_dma_decerr <= '0'; m_axis_ch1_updt_tdata <= (others => '0'); m_axis_ch1_updt_tlast <= '0'; m_axis_ch1_updt_tvalid <= '0'; s_axis_ch1_updtptr_tready <= '0'; s_axis_ch1_updtsts_tready <= '0'; end generate GEN_NO_CH1_UPDATE_Q_IF; --***************************************************************************** --** CHANNEL 2 ** --***************************************************************************** ------------------------------------------------------------------------------- -- If Channel 2 is enabled then instantiate descriptor update logic. ------------------------------------------------------------------------------- GEN_CH2_UPDATE_Q_IF : if C_INCLUDE_CH2 = 1 generate begin --************************************************************************* --** CHANNEL 2 - DESCRIPTOR QUEUE ** --************************************************************************* -- If Descriptor Update queueing enabled then instantiate Queue Logic GEN_CH2_QUEUE : if C_SG_UPDT_DESC2QUEUE /= 0 generate begin --------------------------------------------------------------------------- I_CH2_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_queue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH , C_SG_UPDT_DESC2QUEUE => C_SG_UPDT_DESC2QUEUE , C_SG_WORDS_TO_UPDATE => C_SG_CH2_WORDS_TO_UPDATE , C_FAMILY => C_FAMILY ) port map( --------------------------------------------------------------- -- AXI Scatter Gather Interface --------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , s_axis_updt_aclk => s_axis_ch2_updt_aclk , --********************************-- --** Control and Status **-- --********************************-- updt_curdesc_wren => ch2_updt_curdesc_wren , updt_curdesc => ch2_updt_curdesc , updt_active => ch2_updt_active , updt_queue_empty => ch2_updt_queue_empty , updt_ioc => ch2_updt_ioc , updt_ioc_irq_set => ch2_updt_ioc_irq_set , dma_interr => ch2_dma_interr , dma_slverr => ch2_dma_slverr , dma_decerr => ch2_dma_decerr , dma_interr_set => ch2_dma_interr_set , dma_slverr_set => ch2_dma_slverr_set , dma_decerr_set => ch2_dma_decerr_set , --********************************-- --** Update Interfaces In **-- --********************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch2_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch2_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch2_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch2_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch2_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch2_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch2_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch2_updtsts_tlast , --********************************-- --** Update Interfaces Out **-- --********************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch2_updt_tdata , m_axis_updt_tlast => m_axis_ch2_updt_tlast , m_axis_updt_tvalid => m_axis_ch2_updt_tvalid , m_axis_updt_tready => m_axis_ch2_updt_tready ); end generate GEN_CH2_QUEUE; --***************************************************************************** --** CHANNEL 2 - NO DESCRIPTOR QUEUE ** --***************************************************************************** -- No update queue enabled, therefore map internal stream logic -- directly to channel port. GEN_CH2_NO_QUEUE : if C_SG_UPDT_DESC2QUEUE = 0 generate I_NO_CH2_UPDT_DESC_QUEUE : entity axi_vdma_v6_2.axi_sg_updt_noqueue generic map( C_M_AXI_SG_ADDR_WIDTH => C_M_AXI_SG_ADDR_WIDTH , C_M_AXIS_UPDT_DATA_WIDTH => C_M_AXI_SG_DATA_WIDTH , C_S_AXIS_UPDPTR_TDATA_WIDTH => C_S_AXIS_UPDPTR_TDATA_WIDTH , C_S_AXIS_UPDSTS_TDATA_WIDTH => C_S_AXIS_UPDSTS_TDATA_WIDTH ) port map( --------------------------------------------------------------- -- AXI Scatter Gather Interface --------------------------------------------------------------- m_axi_sg_aclk => m_axi_sg_aclk , m_axi_sg_aresetn => m_axi_sg_aresetn , --********************************-- --** Control and Status **-- --********************************-- updt_curdesc_wren => ch2_updt_curdesc_wren , updt_curdesc => ch2_updt_curdesc , updt_active => ch2_updt_active , updt_queue_empty => ch2_updt_queue_empty , updt_ioc => ch2_updt_ioc , updt_ioc_irq_set => ch2_updt_ioc_irq_set , dma_interr => ch2_dma_interr , dma_slverr => ch2_dma_slverr , dma_decerr => ch2_dma_decerr , dma_interr_set => ch2_dma_interr_set , dma_slverr_set => ch2_dma_slverr_set , dma_decerr_set => ch2_dma_decerr_set , --********************************-- --** Update Interfaces In **-- --********************************-- -- Update Pointer Stream s_axis_updtptr_tdata => s_axis_ch2_updtptr_tdata , s_axis_updtptr_tvalid => s_axis_ch2_updtptr_tvalid , s_axis_updtptr_tready => s_axis_ch2_updtptr_tready , s_axis_updtptr_tlast => s_axis_ch2_updtptr_tlast , -- Update Status Stream s_axis_updtsts_tdata => s_axis_ch2_updtsts_tdata , s_axis_updtsts_tvalid => s_axis_ch2_updtsts_tvalid , s_axis_updtsts_tready => s_axis_ch2_updtsts_tready , s_axis_updtsts_tlast => s_axis_ch2_updtsts_tlast , --********************************-- --** Update Interfaces Out **-- --********************************-- -- S2MM Stream Out To DataMover m_axis_updt_tdata => m_axis_ch2_updt_tdata , m_axis_updt_tlast => m_axis_ch2_updt_tlast , m_axis_updt_tvalid => m_axis_ch2_updt_tvalid , m_axis_updt_tready => m_axis_ch2_updt_tready ); end generate GEN_CH2_NO_QUEUE; end generate GEN_CH2_UPDATE_Q_IF; -- Channel 2 NOT included therefore tie ch2 outputs off GEN_NO_CH2_UPDATE_Q_IF : if C_INCLUDE_CH2 = 0 generate begin ch2_updt_curdesc_wren <= '0'; ch2_updt_curdesc <= (others => '0'); ch2_updt_queue_empty <= '1'; ch2_updt_ioc <= '0'; ch2_dma_interr <= '0'; ch2_dma_slverr <= '0'; ch2_dma_decerr <= '0'; m_axis_ch2_updt_tdata <= (others => '0'); m_axis_ch2_updt_tlast <= '0'; m_axis_ch2_updt_tvalid <= '0'; s_axis_ch2_updtptr_tready <= '0'; s_axis_ch2_updtsts_tready <= '0'; end generate GEN_NO_CH2_UPDATE_Q_IF; ------------------------------------------------------------------------------- -- MUX For DataMover ------------------------------------------------------------------------------- TO_DATAMVR_MUX : process(ch1_updt_active, ch2_updt_active, m_axis_ch1_updt_tdata, m_axis_ch1_updt_tlast, m_axis_ch1_updt_tvalid, m_axis_ch2_updt_tdata, m_axis_ch2_updt_tlast, m_axis_ch2_updt_tvalid) begin if(ch1_updt_active = '1')then s_axis_s2mm_tdata <= m_axis_ch1_updt_tdata; s_axis_s2mm_tlast <= m_axis_ch1_updt_tlast; s_axis_s2mm_tvalid <= m_axis_ch1_updt_tvalid; elsif(ch2_updt_active = '1')then s_axis_s2mm_tdata <= m_axis_ch2_updt_tdata; s_axis_s2mm_tlast <= m_axis_ch2_updt_tlast; s_axis_s2mm_tvalid <= m_axis_ch2_updt_tvalid; else s_axis_s2mm_tdata <= (others => '0'); s_axis_s2mm_tlast <= '0'; s_axis_s2mm_tvalid <= '0'; end if; end process TO_DATAMVR_MUX; m_axis_ch1_updt_tready <= s_axis_s2mm_tready; m_axis_ch2_updt_tready <= s_axis_s2mm_tready; end implementation;

----------------------------------------------------------------------------- -- Title : I2C_minion Testbench ----------------------------------------------------------------------------- -- File : I2C_minion_TB_001_ideal -- Author : Peter Samarin <peter.samarin@gmail.com> ----------------------------------------------------------------------------- -- Copyright (c) 2019 Peter Samarin ----------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use std.textio.all; use work.txt_util.all; ------------------------------------------------------------------------ entity I2C_minion_TB_001_ideal is end I2C_minion_TB_001_ideal; ------------------------------------------------------------------------ architecture Testbench of I2C_minion_TB_001_ideal is constant T : time := 20 ns; -- clk period constant TH_I2C : time := 100 ns; -- i2c clk quarter period(kbis) constant T_MUL : integer := 2; -- i2c clk quarter period(kbis) constant T_HALF : integer := (TH_I2C*T_MUL*2) / T; -- i2c halfclk period constant T_QUARTER : integer := (TH_I2C*T_MUL) / T; -- i2c quarterclk period signal clk : std_logic := '1'; signal rst : std_logic := '1'; signal scl : std_logic := 'Z'; signal sda : std_logic := 'Z'; signal state_dbg : integer := 0; signal received_data : std_logic_vector(7 downto 0) := (others => '0'); signal ack : std_logic := '0'; signal read_req : std_logic := '0'; signal data_to_master : std_logic_vector(7 downto 0) := (others => '0'); signal data_valid : std_logic := '0'; signal data_from_master : std_logic_vector(7 downto 0) := (others => '0'); signal data_from_master_reg : std_logic_vector(7 downto 0) := (others => '0'); shared variable seed1 : positive := 1000; shared variable seed2 : positive := 2000; -- simulation control shared variable ENDSIM : boolean := false; begin ---- Design Under Verification ----------------------------------------- DUV : entity work.I2C_minion generic map ( MINION_ADDR => "0000011", USE_INPUT_DEBOUNCING => false) port map ( -- I2C scl => scl, sda => sda, -- default signals clk => clk, rst => rst, -- user interface read_req => read_req, data_to_master => data_to_master, data_valid => data_valid, data_from_master => data_from_master); ---- DUT clock running forever ---------------------------- process begin if ENDSIM = false then clk <= '0'; wait for T/2; clk <= '1'; wait for T/2; else wait; end if; end process; ---- Reset asserted for T/2 ------------------------------ rst <= '1', '0' after T/2; ---------------------------------------------------------- -- Save data received from the master in a register ---------------------------------------------------------- process (clk) is begin if rising_edge(clk) then if data_valid = '1' then data_from_master_reg <= data_from_master; end if; end if; end process; ----- Test vector generation ------------------------------------------- TESTS : process is -- half clock procedure i2c_wait_half_clock is begin for i in 0 to T_HALF loop wait until rising_edge(clk); end loop; end procedure i2c_wait_half_clock; -- quarter clock procedure i2c_wait_quarter_clock is begin for i in 0 to T_QUARTER loop wait until rising_edge(clk); end loop; end procedure i2c_wait_quarter_clock; -- Write Bit procedure i2c_send_bit ( constant a_bit : in std_logic) is begin scl <= '0'; if a_bit = '0' then sda <= '0'; else sda <= 'Z'; end if; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_send_bit; -- Read Bit procedure i2c_receive_bit ( variable a_bit : out std_logic) is begin scl <= '0'; sda <= 'Z'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_quarter_clock; if sda = '0' then a_bit := '0'; else a_bit := '1'; end if; i2c_wait_quarter_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_receive_bit; -- Write Byte procedure i2c_send_byte ( constant a_byte : in std_logic_vector(7 downto 0)) is begin for i in 7 downto 0 loop i2c_send_bit(a_byte(i)); end loop; end procedure i2c_send_byte; -- Address procedure i2c_send_address ( constant address : in std_logic_vector(6 downto 0)) is begin for i in 6 downto 0 loop i2c_send_bit(address(i)); end loop; end procedure i2c_send_address; -- Read Byte procedure i2c_receive_byte ( signal a_byte : out std_logic_vector(7 downto 0)) is variable a_bit : std_logic; variable accu : std_logic_vector(7 downto 0) := (others => '0'); begin for i in 7 downto 0 loop i2c_receive_bit(a_bit); accu(i) := a_bit; end loop; a_byte <= accu; end procedure i2c_receive_byte; -- START procedure i2c_start is begin scl <= 'Z'; sda <= '0'; i2c_wait_half_clock; scl <= 'Z'; i2c_wait_quarter_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_start; -- STOP procedure i2c_stop is begin scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_quarter_clock; sda <= 'Z'; i2c_wait_half_clock; i2c_wait_half_clock; end procedure i2c_stop; -- send write procedure i2c_set_write is begin i2c_send_bit('0'); end procedure i2c_set_write; -- send read procedure i2c_set_read is begin i2c_send_bit('1'); end procedure i2c_set_read; -- read ACK procedure i2c_read_ack (signal ack : out std_logic) is begin scl <= '0'; sda <= 'Z'; i2c_wait_quarter_clock; scl <= 'Z'; if sda = '0' then ack <= '1'; else ack <= '0'; assert false report "No ACK received: expected '0'" severity note; end if; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_read_ack; -- write NACK procedure i2c_write_nack is begin scl <= '0'; sda <= 'Z'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_write_nack; -- write ACK procedure i2c_write_ack is begin scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; i2c_wait_half_clock; scl <= '0'; i2c_wait_quarter_clock; end procedure i2c_write_ack; -- write to I2C bus procedure i2c_write ( constant address : in std_logic_vector(6 downto 0); constant data : in std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_write; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; ack <= '0'; return; end if; state_dbg <= 4; i2c_send_byte(data); state_dbg <= 5; i2c_read_ack(ack); state_dbg <= 6; i2c_stop; end procedure i2c_write; -- write to I2C bus procedure i2c_quick_write ( constant address : in std_logic_vector(6 downto 0); constant data : in std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_write; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; ack <= '0'; return; end if; state_dbg <= 4; i2c_send_byte(data); state_dbg <= 5; i2c_read_ack(ack); scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; sda <= 'Z'; i2c_wait_quarter_clock; end procedure i2c_quick_write; -- read I2C bus procedure i2c_write_bytes ( constant address : in std_logic_vector(6 downto 0); constant nof_bytes : in integer range 0 to 1023) is variable data : std_logic_vector(7 downto 0) := (others => '0'); begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_write; state_dbg <= 3; i2c_read_ack(ack); if ack = '0' then i2c_stop; return; end if; ack <= '0'; for i in 0 to nof_bytes-1 loop state_dbg <= 4; i2c_send_byte(std_logic_vector(to_unsigned(i, 8))); state_dbg <= 5; i2c_read_ack(ack); if ack = '0' then i2c_stop; return; end if; ack <= '0'; end loop; state_dbg <= 6; i2c_stop; end procedure i2c_write_bytes; -- read from I2C bus procedure i2c_read ( constant address : in std_logic_vector(6 downto 0); signal data : out std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_read; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; return; end if; ack <= '0'; state_dbg <= 4; i2c_receive_byte(data); state_dbg <= 5; i2c_write_nack; state_dbg <= 6; i2c_stop; end procedure i2c_read; -- read from I2C bus procedure i2c_quick_read ( constant address : in std_logic_vector(6 downto 0); signal data : out std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_read; state_dbg <= 3; -- dummy read ACK--don't care, because we are testing -- I2C minion i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; return; end if; ack <= '0'; state_dbg <= 4; i2c_receive_byte(data); state_dbg <= 5; i2c_write_nack; scl <= '0'; sda <= '0'; i2c_wait_quarter_clock; scl <= 'Z'; sda <= 'Z'; i2c_wait_quarter_clock; end procedure i2c_quick_read; -- read I2C bus procedure i2c_read_bytes ( constant address : in std_logic_vector(6 downto 0); constant nof_bytes : in integer range 0 to 1023; signal data : out std_logic_vector(7 downto 0)) is begin state_dbg <= 0; i2c_start; state_dbg <= 1; i2c_send_address(address); state_dbg <= 2; i2c_set_read; state_dbg <= 3; i2c_read_ack(ack); if ack = '0' then state_dbg <= 6; i2c_stop; return; end if; for i in 0 to nof_bytes-1 loop -- dummy read ACK--don't care, because we are testing -- I2C minion state_dbg <= 4; i2c_receive_byte(data); state_dbg <= 5; if i < nof_bytes-1 then i2c_write_ack; else i2c_write_nack; end if; end loop; state_dbg <= 6; i2c_stop; end procedure i2c_read_bytes; begin print(""); print("------------------------------------------------------------"); print("----------------- I2C_minion_TB_001_ideal ------------------"); print("------------------------------------------------------------"); scl <= 'Z'; sda <= 'Z'; print("----------------- Testing a single write ------------------"); i2c_write("0000011", "11111111"); assert data_from_master_reg = "11111111" report "test: 0 not passed" severity warning; print("----------------- Testing a single write ------------------"); i2c_write("0000011", "11111010"); assert data_from_master_reg = "11111010" report "test: 0 not passed" severity warning; print("----------------- Testing repeated writes -----------------"); wait until rising_edge(clk); for i in 0 to 127 loop i2c_write("0000011", std_logic_vector(to_unsigned(i, 8))); assert i = to_integer(unsigned(data_from_master_reg)) report "writing test: " & integer'image(i) & " not passed" severity warning; end loop; print("----------------- Testing repeated reads ------------------"); for i in 0 to 127 loop data_to_master <= std_logic_vector(to_unsigned(i, 8)); i2c_read("0000011", received_data); assert i = to_integer(unsigned(received_data)) report "reading test: " & integer'image(i) & " not passed" & "test" severity warning; end loop; -------------------------------------------------------- -- Quick read/write -------------------------------------------------------- print("----------------- Testing quick write --------------------"); i2c_quick_write("0000011", "10101010"); i2c_quick_write("0000011", "10101011"); i2c_quick_write("0000011", "10101111"); data_to_master <= std_logic_vector(to_unsigned(255, 8)); i2c_quick_read("0000011", received_data); state_dbg <= 6; i2c_stop; -------------------------------------------------------- -- Reads, writes from wrong minion addresses -- this should cause some assertion notes (needs manual -- confirmation) -------------------------------------------------------- print("----------------- Testing wrong addresses -----------------"); print("-> The following 3 tests should all fail"); print("[0] ---------------"); i2c_write_bytes("1000011", 100); print("[1] ---------------"); i2c_read ("0101101", received_data); print("[2] ---------------"); i2c_read_bytes ("0000010", 300, received_data); wait until rising_edge(clk); ENDSIM := true; print("Simulation end..."); print(""); wait; end process; end Testbench;

--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; entity allocator_credit_counter_logic_pseudo is port ( -- flow control credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L: in std_logic; credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out : in std_logic_vector(1 downto 0); grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; credit_counter_N_in, credit_counter_E_in, credit_counter_W_in, credit_counter_S_in, credit_counter_L_in : out std_logic_vector(1 downto 0) ); end allocator_credit_counter_logic_pseudo; architecture behavior of allocator_credit_counter_logic_pseudo is begin -- The combionational part -- this process handels the credit counters! process(credit_in_N, credit_in_E, credit_in_W, credit_in_S, credit_in_L, grant_N, grant_E, grant_W, grant_S, grant_L, credit_counter_N_out, credit_counter_E_out, credit_counter_W_out, credit_counter_S_out, credit_counter_L_out) begin credit_counter_N_in <= credit_counter_N_out; credit_counter_E_in <= credit_counter_E_out; credit_counter_W_in <= credit_counter_W_out; credit_counter_S_in <= credit_counter_S_out; credit_counter_L_in <= credit_counter_L_out; if credit_in_N = '1' and grant_N = '1' then credit_counter_N_in <= credit_counter_N_out; elsif credit_in_N = '1' and credit_counter_N_out < 3 then credit_counter_N_in <= credit_counter_N_out + 1; elsif grant_N = '1' and credit_counter_N_out > 0 then credit_counter_N_in <= credit_counter_N_out - 1; end if; if credit_in_E = '1' and grant_E = '1' then credit_counter_E_in <= credit_counter_E_out; elsif credit_in_E = '1' and credit_counter_E_out < 3 then credit_counter_E_in <= credit_counter_E_out + 1; elsif grant_E = '1' and credit_counter_E_out > 0 then credit_counter_E_in <= credit_counter_E_out - 1; end if; if credit_in_W = '1' and grant_W = '1' then credit_counter_W_in <= credit_counter_W_out; elsif credit_in_W = '1' and credit_counter_W_out < 3 then credit_counter_W_in <= credit_counter_W_out + 1; elsif grant_W = '1' and credit_counter_W_out > 0 then credit_counter_W_in <= credit_counter_W_out - 1; end if; if credit_in_S = '1' and grant_S = '1' then credit_counter_S_in <= credit_counter_S_out; elsif credit_in_S = '1' and credit_counter_S_out < 3 then credit_counter_S_in <= credit_counter_S_out + 1; elsif grant_S = '1' and credit_counter_S_out > 0 then credit_counter_S_in <= credit_counter_S_out - 1; end if; if credit_in_L = '1' and grant_L = '1' then credit_counter_L_in <= credit_counter_L_out; elsif credit_in_L = '1' and credit_counter_L_out < 3 then credit_counter_L_in <= credit_counter_L_out + 1; elsif grant_L = '1' and credit_counter_L_out > 0 then credit_counter_L_in <= credit_counter_L_out - 1; end if; end process; END;

-------------------------------------------------------------------------------- -- -- FIFO Generator Core Demo Testbench -- -------------------------------------------------------------------------------- -- -- (c) Copyright 2009 - 2010 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. -------------------------------------------------------------------------------- -- -- Filename: fg_tb_top.vhd -- -- Description: -- This is the demo testbench top file for fifo_generator core. -- -------------------------------------------------------------------------------- -- Library Declarations -------------------------------------------------------------------------------- LIBRARY ieee; LIBRARY std; USE ieee.std_logic_1164.ALL; USE ieee.std_logic_unsigned.ALL; USE IEEE.std_logic_arith.ALL; USE IEEE.std_logic_misc.ALL; USE ieee.numeric_std.ALL; USE ieee.std_logic_textio.ALL; USE std.textio.ALL; LIBRARY work; USE work.fg_tb_pkg.ALL; ENTITY fg_tb_top IS END ENTITY; ARCHITECTURE fg_tb_arch OF fg_tb_top IS SIGNAL status : STD_LOGIC_VECTOR(7 DOWNTO 0) := "00000000"; SIGNAL wr_clk : STD_LOGIC; SIGNAL reset : STD_LOGIC; SIGNAL sim_done : STD_LOGIC := '0'; SIGNAL end_of_sim : STD_LOGIC_VECTOR(4 DOWNTO 0) := (OTHERS => '0'); -- Write and Read clock periods CONSTANT wr_clk_period_by_2 : TIME := 24 ns; -- Procedures to display strings PROCEDURE disp_str(CONSTANT str:IN STRING) IS variable dp_l : line := null; BEGIN write(dp_l,str); writeline(output,dp_l); END PROCEDURE; PROCEDURE disp_hex(signal hex:IN STD_LOGIC_VECTOR(7 DOWNTO 0)) IS variable dp_lx : line := null; BEGIN hwrite(dp_lx,hex); writeline(output,dp_lx); END PROCEDURE; BEGIN -- Generation of clock PROCESS BEGIN WAIT FOR 110 ns; -- Wait for global reset WHILE 1 = 1 LOOP wr_clk <= '0'; WAIT FOR wr_clk_period_by_2; wr_clk <= '1'; WAIT FOR wr_clk_period_by_2; END LOOP; END PROCESS; -- Generation of Reset PROCESS BEGIN reset <= '1'; WAIT FOR 480 ns; reset <= '0'; WAIT; END PROCESS; -- Error message printing based on STATUS signal from fg_tb_synth PROCESS(status) BEGIN IF(status /= "0" AND status /= "1") THEN disp_str("STATUS:"); disp_hex(status); END IF; IF(status(7) = '1') THEN assert false report "Data mismatch found" severity error; END IF; IF(status(1) = '1') THEN END IF; IF(status(5) = '1') THEN assert false report "Empty flag Mismatch/timeout" severity error; END IF; IF(status(6) = '1') THEN assert false report "Full Flag Mismatch/timeout" severity error; END IF; END PROCESS; PROCESS BEGIN wait until sim_done = '1'; IF(status /= "0" AND status /= "1") THEN assert false report "Simulation failed" severity failure; ELSE assert false report "Simulation Complete" severity failure; END IF; END PROCESS; PROCESS BEGIN wait for 100 ms; assert false report "Test bench timed out" severity failure; END PROCESS; -- Instance of fg_tb_synth fg_tb_synth_inst:fg_tb_synth GENERIC MAP( FREEZEON_ERROR => 0, TB_STOP_CNT => 2, TB_SEED => 29 ) PORT MAP( CLK => wr_clk, RESET => reset, SIM_DONE => sim_done, STATUS => status ); END ARCHITECTURE;

library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; entity lzw is generic (num_blocks : integer := 4); Port ( clk : in std_logic; rst : in std_logic; --Input character from FIFO char_in : in std_logic_vector(7 downto 0); --Input character valid? (tie to NOT fifo_empty) input_valid : in std_logic; --How many characters is the input file file_size : in std_logic_vector(15 downto 0); --FIFO read acknowledgement input_rd : out std_logic; --Output data prefix_out : out std_logic_vector(11 downto 0); --Output data is valid, tie to output FIFO wr_en output_valid : out std_logic; --Done processing current file done : out std_logic); end lzw; architecture Behavioral of lzw is type state_type is (S_RST,S_WAIT,S_READ_FIRST_CHAR,S_READ,S_SEARCH); signal state : state_type; signal current_char : std_logic_vector(7 downto 0); signal current_prefix : std_logic_vector(11 downto 0); signal output_last_prefix : std_logic; signal start_search : std_logic; signal search_entry : std_logic_vector(19 downto 0); signal dict_wr : std_logic; signal wr_entry : std_logic_vector(19 downto 0); signal match_prefix : std_logic_vector(11 downto 0); signal entry_found : std_logic; signal search_completed : std_logic; signal dictionary_full : std_logic; signal eof : std_logic; signal bytes_read : std_logic_vector(15 downto 0); begin prefix_out <= current_prefix; GEN_DICT1: if num_blocks = 1 generate U_DICTIONARY : entity work.dictionary_block port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT1; GEN_DICT2: if num_blocks = 2 generate U_DICTIONARY : entity work.dictionary_2 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT2; GEN_DICT4: if num_blocks = 4 generate U_DICTIONARY : entity work.dictionary_4 port map ( clk => clk, rst => rst, start_search => start_search, search_entry => search_entry, wr_en => dict_wr, wr_entry => wr_entry, prefix => match_prefix, entry_found => entry_found, search_completed => search_completed, dictionary_full => dictionary_full); end generate GEN_DICT4; search_entry(7 downto 0) <= current_char; search_entry(19 downto 8) <= current_prefix; wr_entry <= search_entry; --State machine and synchronous outputs process(clk,rst) begin if rst = '1' then state <= S_RST; current_char <= x"00"; current_prefix <= x"000"; start_search <= '0'; input_rd <= '0'; bytes_read <= (bytes_read'range => '0'); done <= '0'; elsif rising_edge(clk) then --default values input_rd <= '0'; start_search <= '0'; case state is when S_RST => state <= S_READ_FIRST_CHAR; when S_READ_FIRST_CHAR => if input_valid = '1' then current_prefix(7 downto 0) <= char_in; input_rd <= '1'; state <= S_WAIT; bytes_read <= x"0001"; done <= '0'; end if; when S_WAIT => input_rd <= '0'; state <= S_READ; --read in another character when S_READ => if input_valid = '1' then current_char <= char_in; start_search <= '1'; input_rd <= '1'; state <= S_SEARCH; bytes_read <= std_logic_vector(unsigned(bytes_read)+to_unsigned(1,16)); end if; when S_SEARCH => if search_completed = '1' then state <= S_READ; --if its found, save the prefix, read another char and look for another string if entry_found = '1' then current_prefix <= match_prefix; --otherwise we'll be writing to the dictionary (look at asynchronous outputs below) --and clearing out our saved values else current_char <= x"00"; current_prefix(11 downto 8) <= x"0"; current_prefix(7 downto 0) <= current_char; end if; if eof = '1' then state <= S_READ_FIRST_CHAR; done <= '1'; end if; end if; end case; end if; end process; --when we force the controller to output the last prefix value --we need to delay it by one cycle or else the wrong value is marked as valid process(clk,rst) begin if rst = '1' then output_last_prefix <= '0'; elsif rising_edge(clk) then if state = S_SEARCH and search_completed = '1' and entry_found = '1' and eof = '1' then output_last_prefix <= '1'; else output_last_prefix <= '0'; end if; end if; end process; --Asynchronous outputs process(state,search_completed,entry_found,dictionary_full,bytes_read,file_size) begin output_valid <= output_last_prefix; dict_wr <= '0'; --if we finished a search and no entry was found, write new entry to the dictionary --and output the current values if state = S_SEARCH and search_completed = '1' and entry_found = '0' then output_valid <= '1'; dict_wr <= not dictionary_full; end if; if bytes_read = file_size then eof <= '1'; else eof <= '0'; end if; end process; end Behavioral;

------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2013, 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 ------------------------------------------------------------------------------- -- Entity: pwm_check -- File: pwm_check.vhd -- Author: Jonas Ekergarn - Aeroflex Gaisler (parts are copied from -- grtestmod.vhd) -- Description: Simulation unit that examines the PWMs generated by the GRPWM -- when software/leon3/grpwm.c is run. Note that pwm_check -- requires that the system includes an I/O memory interface -- and that grtestmod.vhd is instantiated in the system testbench. -- If the subtests in software/leon3/grpwm.c is modified then the -- configuration below and the procedure verify_subtest must be -- changed as well. ------------------------------------------------------------------------------- -- pragma translate_off library ieee, grlib, gaisler; use ieee.std_logic_1164.all; use std.textio.all; use grlib.stdlib.all; use grlib.stdio.all; use grlib.devices.all; use gaisler.sim.all; entity pwm_check is port ( clk : in std_ulogic; address : in std_logic_vector(21 downto 2); data : inout std_logic_vector(31 downto 0); iosn : in std_ulogic; oen : in std_ulogic; writen : in std_ulogic; pwm : in std_logic_vector(15 downto 0) ); end; architecture sim of pwm_check is signal ior, iow : std_ulogic; signal addr : std_logic_vector(21 downto 2); signal ldata : std_logic_vector(31 downto 0); signal pwmh : std_logic_vector(1 downto 0); signal pwmh0 : integer := 0; signal pwmh1 : integer := 1; ----------------------------------------------------------------------------- -- Configuration of the PWMs that should be verified ----------------------------------------------------------------------------- -- Number of "useful" words in the waveform ram. The core will read address -- 0 - (STX_WRAMSIZE-1). constant ST3_WRAMSIZE : integer := 32; constant ST4_WRAMSIZE : integer := 32; -- Number of periods to verify for each subtest. Verification of the very -- first period after PWM is started is skipped because there is no way of -- knowing exactly when it starts. It is assumed that the first period is -- correct. If it isn't then the verification of the other periods will fail -- as well. constant ST1_NPER : integer := 10; constant ST2_NPER : integer := 10; constant ST3_NPER : integer := 2*ST3_WRAMSIZE; constant ST4_NPER : integer := 2*ST4_WRAMSIZE; type st1_vector is array (0 to ST1_NPER) of integer; type st2_vector is array (0 to ST2_NPER) of integer; type st3_vector is array (0 to ST3_NPER) of integer; type st4_vector is array (0 to ST4_NPER) of integer; type st1_array is array (0 to 7) of st1_vector; type st2_array is array (0 to 7) of st2_vector; type st3_array is array (0 to 7) of st3_vector; type st4_array is array (0 to 7) of st4_vector; type wram_type is array (0 to 8191) of integer; -- Polarity for each PWM in the different subtests constant ST1_POL : std_logic_vector(7 downto 0) := (others=>'1'); constant ST2_POL : std_logic_vector(7 downto 0) := (others=>'1'); constant ST3_POL : std_logic_vector(7 downto 0) := (others=>'1'); constant ST4_POL : std_logic_vector(7 downto 0) := (others=>'1'); -- Period, compare, and dead band values for each pwm period in subtest 1, -- in clock cycles constant ST1_PER : st1_array := ( 0 => (others=>200), 1 => (others=>201), 2 => (others=>202), 3 => (others=>203), 4 => (others=>204), 5 => (others=>205), 6 => (others=>206), 7 => (others=>207)); constant ST1_COMPA : st1_array := ( 0 => (others=>100), 1 => (others=>101), 2 => (others=>102), 3 => (others=>103), 4 => (others=>104), 5 => (others=>105), 6 => (others=>106), 7 => (others=>107)); constant ST1_DB : st1_array := ( 0 => (others=>10), 1 => (others=>11), 2 => (others=>12), 3 => (others=>13), 4 => (others=>14), 5 => (others=>15), 6 => (others=>16), 7 => (others=>17)); -- Period, compare, and dead band values for each pwm period in subtest 2, -- in clock cycles constant ST2_PER : st2_array := ( 0 => (others=>200), 1 => (others=>202), 2 => (others=>204), 3 => (others=>206), 4 => (others=>208), 5 => (others=>210), 6 => (others=>212), 7 => (others=>214)); constant ST2_COMPA : st2_array := ( 0 => (others=>50), 1 => (others=>51), 2 => (others=>52), 3 => (others=>53), 4 => (others=>54), 5 => (others=>55), 6 => (others=>56), 7 => (others=>57)); constant ST2_DB : st2_array := ( 0 => (others=>10), 1 => (others=>11), 2 => (others=>12), 3 => (others=>13), 4 => (others=>14), 5 => (others=>15), 6 => (others=>16), 7 => (others=>17)); -- Period, compare, and dead band values for each pwm period in subtest 3, -- in clock cycles. (Only the PWM with the highest index is active during -- subtest 3, but since we here don't know how many PWM outputs there are, -- all get the same value) constant ST3_WRAM : wram_type := ( 32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55, 56,57,58,59,60,61,62,63, others=>0); constant ST3_PER : st3_array := ( 0 => (others=>200), 1 => (others=>200), 2 => (others=>200), 3 => (others=>200), 4 => (others=>200), 5 => (others=>200), 6 => (others=>200), 7 => (others=>200)); constant ST3_DB : st3_array := ( 0 => (others=>10), 1 => (others=>10), 2 => (others=>10), 3 => (others=>10), 4 => (others=>10), 5 => (others=>10), 6 => (others=>10), 7 => (others=>10)); -- Period, compare, and dead band values for each pwm period in subtest 4, -- in clock cycles. (Only the PWM with the highest index is active during -- subtest 4, but since we here don't know how many PWM outputs there are, -- all get the same value) constant ST4_WRAM : wram_type := ( 32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55, 56,57,58,59,60,61,62,63, others=>0); constant ST4_PER : st4_array := ( 0 => (others=>200), 1 => (others=>200), 2 => (others=>200), 3 => (others=>200), 4 => (others=>200), 5 => (others=>200), 6 => (others=>200), 7 => (others=>200)); constant ST4_DB : st4_array := ( 0 => (others=>10), 1 => (others=>10), 2 => (others=>10), 3 => (others=>10), 4 => (others=>10), 5 => (others=>10), 6 => (others=>10), 7 => (others=>10)); type pwm_int_array is array (0 to 7) of integer; type pwm_bool_array is array (0 to 7) of boolean; procedure verify_subtest ( constant subtest : in integer; constant npwm : in integer range 1 to 8; signal clk : in std_ulogic; signal pwm : in std_logic_vector(15 downto 0); signal pwmh : in std_logic_vector(1 downto 0)) is variable cnt : pwm_int_array := (others=>0); variable cnt2 : pwm_int_array := (others=>0); variable pcnt : pwm_int_array := (others=>0); variable parta : pwm_bool_array := (others=>false); variable partb : pwm_bool_array := (others=>false); variable partc : pwm_bool_array := (others=>false); variable partd : pwm_bool_array := (others=>false); variable done : pwm_bool_array := (others=>false); variable ST2_COMPB : st2_array; variable ST4_COMPB : st4_array; variable addr : integer; variable il, ih : integer; begin case subtest is when 1 => ------------------------------------------------------------------------- -- Subtest 1: npwm assymmetric PWM pairs are generated, all with -- different periods, compare values, and dead band values. Verify -- periods, compare matches, and dead band times. ------------------------------------------------------------------------- for i in 0 to 7 loop if npwm < i+1 then done(i) := true; end if; -- no dead band time is inserted in the very first pwm period after -- startup parta(i) := true; end loop; while not(done(0) and done(1) and done(2) and done(3) and done(4) and done(5) and done(6) and done(7)) loop wait until rising_edge(clk); for i in 0 to npwm-1 loop cnt(i) := cnt(i)+1; end loop; wait until (pwm'event or falling_edge(clk)); if clk = '1' then for i in 0 to npwm-1 loop if (not done(i)) then if (not parta(i)) then -- pwm is in time period between period start and when paired -- output goes active (after dead band time) if pwm(2*i+1) = ST1_POL(i) then parta(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST1_DB(i)(pcnt(i)) then Print("ERROR: Wrong dead band (1) detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST1_DB(i)(pcnt(i)))); end if; end if; end if; elsif (not partb(i)) then -- pwm is in time period between paired output going active and -- paired output going inactive if pwm(2*i+1) = (not ST1_POL(i)) then partb(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST1_COMPA(i)(pcnt(i)) then Print("ERROR: Wrong compare match detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST1_COMPA(i)(pcnt(i)))); end if; if ST1_DB(i)(pcnt(i)) = 0 then partc(i) := true; if pwm(2*i) /= ST1_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partc(i)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwm(2*i) = ST1_POL(i) then partc(i) := true; if pcnt(i) /= 0 then if cnt(i) /= (ST1_COMPA(i)(pcnt(i)) + ST1_DB(i)(pcnt(i))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)-ST1_COMPA(i)(pcnt(i))) & ", should be " & tost(ST1_DB(i)(pcnt(i)))); end if; end if; end if; else -- pwm is in time period between output going active and period end -- (output going inactive) if pwm(2*i) = (not ST1_POL(i)) then parta(i) := false; partb(i) := false; partc(i) := false; if pcnt(i) /= 0 then if cnt(i) /= ST1_PER(i)(pcnt(i)) then Print("ERROR: Wrong PWM period detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST1_PER(i)(pcnt(i)))); end if; end if; if pcnt(i) = ST1_NPER then done(i) := true; end if; pcnt(i) := pcnt(i)+1; cnt(i) := 0; if pcnt(i) < ST1_NPER then if ST1_DB(i)(pcnt(i)) = 0 then parta(i) := true; if pwm(2*i+1) /= ST1_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; end if; end if; end loop; end if; end loop; when 2 => ------------------------------------------------------------------------- -- Subtest 2: npwm symmetric PWM pairs are generated, all with -- different periods, compare values, and dead band values. Verify -- periods, compare matches, and dead band times ------------------------------------------------------------------------- for i in 0 to 7 loop for j in 0 to ST2_NPER loop ST2_COMPB(i)(j) := ST2_PER(i)(j)-ST2_COMPA(i)(j); end loop; if npwm < i+1 then done(i) := true; end if; end loop; while not(done(0) and done(1) and done(2) and done(3) and done(4) and done(5) and done(6) and done(7)) loop wait until rising_edge(clk); for i in 0 to npwm-1 loop cnt(i) := cnt(i)+1; cnt2(i) := cnt2(i)+1; end loop; wait until (pwm'event or falling_edge(clk)); if clk = '1' then for i in 0 to npwm-1 loop if (not done(i)) then if (not parta(i)) then -- pwm is in time period between period start and when paired -- output goes inactive if pwm(2*i+1) = (not ST2_POL(i)) then parta(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST2_COMPA(i)(pcnt(i)) then Print("ERROR: Wrong compare match 1 detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST2_COMPA(i)(pcnt(i)))); end if; if ST2_DB(i)(pcnt(i)) = 0 then partb(i) := true; if pwm(2*i) /= ST2_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partb(i)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwm(2*i) = ST2_POL(i) then partb(i) := true; if pcnt(i) /= 0 then if cnt(i) /= (ST2_COMPA(i)(pcnt(i)) + ST2_DB(i)(pcnt(i))) then Print("ERROR: Wrong dead band (1) time detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)-ST2_COMPA(i)(pcnt(i))) & ", should be " & tost(ST2_DB(i)(pcnt(i)))); end if; end if; end if; elsif (not partc(i)) then -- pwm is in time period between output going active and -- output going inactive if pwm(2*i) = (not ST2_POL(i)) then partc(i) := true; if pcnt(i) /= 0 then if cnt(i) /= ST2_COMPB(i)(pcnt(i)) then Print("ERROR: Wrong compare match (2) detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)) & ", should be " & tost(ST2_COMPB(i)(pcnt(i)))); end if; if ST2_DB(i)(pcnt(i)) = 0 then partd(i) := true; if pwm(2*i+1) /= ST2_POL(i) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; else if ST2_DB(i)(0) = 0 then cnt2(i) := 0; partd(i) := true; end if; end if; end if; elsif (not partd(i)) then -- pwm is in time period between output going inactive and -- paired output going active (after dead band time) if pwm(2*i+1) = ST2_POL(i) then partd(i) := true; if pcnt(i) /= 0 then if cnt(i) /= (ST2_COMPB(i)(pcnt(i)) + ST2_DB(i)(pcnt(i))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost(i+1) & " in period = " & tost(pcnt(i)) & ". Is " & tost(cnt(i)-ST2_COMPB(i)(pcnt(i))) & ", should be " & tost(ST2_DB(i)(pcnt(i)))); end if; else cnt2(i) := 0; end if; end if; end if; end if; end loop; end if; for i in 0 to npwm-1 loop if (not done(i)) then if partd(i) then -- pwm is in time period between paired output going active -- and period end if pcnt(i) /= 0 then if cnt(i) = ST2_PER(i)(pcnt(i)) then parta(i) := false; partb(i) := false; partc(i) := false; partd(i) := false; pcnt(i) := pcnt(i)+1; cnt(i) := 0; end if; else if (cnt2(i)+ST2_COMPB(i)(0)+ST2_DB(i)(0)) = ST2_PER(i)(0) then parta(i) := false; partb(i) := false; partc(i) := false; partd(i) := false; pcnt(i) := pcnt(i)+1; cnt(i) := 0; end if; end if; if pcnt(i) = ST2_NPER then done(i) := true; end if; end if; end if; end loop; end loop; when 3 => ------------------------------------------------------------------------- -- Subtest 3: One asymmetric waveform PWM is generated. Verify period, -- compare matches and dead band time ------------------------------------------------------------------------- parta(npwm-1) := true; while not done(npwm-1) loop wait until rising_edge(clk); cnt(npwm-1) := cnt(npwm-1)+1; wait until (pwmh'event or falling_edge(clk)); if clk = '1' then addr := pcnt(npwm-1) - (pcnt(npwm-1)/ST3_WRAMSIZE)*ST3_WRAMSIZE; if (not parta(npwm-1)) then -- pwm is in time period between period start and when paired -- output goes active (after dead band time) if pwmh(1) = ST3_POL(npwm-1) then parta(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST3_DB(npwm-1)(pcnt(npwm-1)) then Print("ERROR: Wrong dead band (1) detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST3_DB(npwm-1)(pcnt(npwm-1)))); end if; end if; end if; elsif (not partb(npwm-1)) then -- pwm is in time period between paired output going active and -- paired output going inactive if pwmh(1) = (not ST3_POL(npwm-1)) then partb(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST3_WRAM(addr) then Print("ERROR: Wrong compare match detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST3_WRAM(addr))); end if; if ST3_DB(npwm-1)(pcnt(npwm-1)) = 0 then partc(npwm-1) := true; if pwmh(0) /= ST3_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partc(npwm-1)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwmh(0) = ST3_POL(npwm-1) then partc(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= (ST3_WRAM(addr) + ST3_DB(npwm-1)(pcnt(npwm-1))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)-ST3_WRAM(addr)) & ", should be " & tost(ST3_DB(npwm-1)(pcnt(npwm-1)))); end if; end if; end if; else -- pwm is in time period between output going active and period end -- (output going inactive) if pwmh(0) = (not ST3_POL(npwm-1)) then parta(npwm-1) := false; partb(npwm-1) := false; partc(npwm-1) := false; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST3_PER(npwm-1)(pcnt(npwm-1)) then Print("ERROR: Wrong PWM period detected for pwm " & tost((npwm-1)+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST3_PER(npwm-1)(pcnt(npwm-1)))); end if; end if; if pcnt(npwm-1) = ST3_NPER then done(npwm-1) := true; end if; pcnt(npwm-1) := pcnt(npwm-1)+1; cnt(npwm-1) := 0; if pcnt(npwm-1) < ST3_NPER then if ST3_DB(npwm-1)(pcnt(npwm-1)) = 0 then parta(npwm-1) := true; if pwmh(1) /= ST3_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; end if; end if; end loop; when 4 => ------------------------------------------------------------------------- -- Subtest 4: One symmetric waveform PWM is generated. Verify period, -- compare matches, and dead band time ------------------------------------------------------------------------- for j in 0 to ST4_NPER loop addr := j - (j/ST4_WRAMSIZE)*ST4_WRAMSIZE; ST4_COMPB(npwm-1)(j) := ST4_PER(npwm-1)(j)-ST4_WRAM(addr); end loop; while not done(npwm-1) loop wait until rising_edge(clk); cnt(npwm-1) := cnt(npwm-1)+1; cnt2(npwm-1) := cnt2(npwm-1)+1; wait until (pwmh'event or falling_edge(clk)); if clk = '1' then addr := pcnt(npwm-1) - (pcnt(npwm-1)/ST4_WRAMSIZE)*ST4_WRAMSIZE; if (not parta(npwm-1)) then -- pwm is in time period between period start and when paired -- output goes inactive if pwmh(1) = (not ST4_POL(npwm-1)) then parta(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST4_WRAM(addr) then Print("ERROR: Wrong compare match 1 detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST4_WRAM(addr))); end if; if ST4_DB(npwm-1)(pcnt(npwm-1)) = 0 then partb(npwm-1) := true; if pwmh(0) /= ST4_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; end if; end if; elsif (not partb(npwm-1)) then -- pwm is in time period between paired output going inactive and -- output going active (after dead band time) if pwmh(0) = ST4_POL(npwm-1) then partb(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= (ST4_WRAM(addr) + ST4_DB(npwm-1)(pcnt(npwm-1))) then Print("ERROR: Wrong dead band (1) time detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)-ST4_WRAM(addr)) & ", should be " & tost(ST4_DB(npwm-1)(pcnt(npwm-1)))); end if; end if; end if; elsif (not partc(npwm-1)) then -- pwm is in time period between output going active and -- output going inactive if pwmh(0) = (not ST4_POL(npwm-1)) then partc(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= ST4_COMPB(npwm-1)(pcnt(npwm-1)) then Print("ERROR: Wrong compare match (2) detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)) & ", should be " & tost(ST4_COMPB(npwm-1)(pcnt(npwm-1)))); end if; if ST4_DB(npwm-1)(pcnt(npwm-1)) = 0 then partd(npwm-1) := true; if pwmh(1) /= ST4_POL(npwm-1) then Print("ERROR: Both outputs did not switch simultaneously" & " even though dead band time was zero"); end if; end if; else if ST4_DB(npwm-1)(0) = 0 then cnt2(npwm-1) := 0; partd(npwm-1) := true; end if; end if; end if; elsif (not partd(npwm-1)) then -- pwm is in time period between output going inactive and -- paired output going active (after dead band time) if pwmh(1) = ST4_POL(npwm-1) then partd(npwm-1) := true; if pcnt(npwm-1) /= 0 then if cnt(npwm-1) /= (ST4_COMPB(npwm-1)(pcnt(npwm-1)) + ST4_DB(npwm-1)(pcnt(npwm-1))) then Print("ERROR: Wrong dead band (2) time detected for pwm " & tost(npwm-1+1) & " in period = " & tost(pcnt(npwm-1)) & ". Is " & tost(cnt(npwm-1)-ST4_COMPB(npwm-1)(pcnt(npwm-1))) & ", should be " & tost(ST4_DB(npwm-1)(pcnt(npwm-1)))); end if; else cnt2(npwm-1) := 0; end if; end if; end if; end if; if partd(npwm-1) then -- pwm is in time period between paired output going active -- and period end if pcnt(npwm-1) /= 0 then if cnt(npwm-1) = ST4_PER(npwm-1)(pcnt(npwm-1)) then parta(npwm-1) := false; partb(npwm-1) := false; partc(npwm-1) := false; partd(npwm-1) := false; pcnt(npwm-1) := pcnt(npwm-1)+1; cnt(npwm-1) := 0; end if; else if (cnt2(npwm-1)+ST4_COMPB(npwm-1)(0)+ST4_DB(npwm-1)(0)) = ST4_PER(npwm-1)(0) then parta(npwm-1) := false; partb(npwm-1) := false; partc(npwm-1) := false; partd(npwm-1) := false; pcnt(npwm-1) := pcnt(npwm-1)+1; cnt(npwm-1) := 0; end if; end if; if pcnt(npwm-1) = ST4_NPER then done(npwm-1) := true; end if; end if; end loop; when others => null; end case; end verify_subtest; begin ior <= iosn or oen; iow <= iosn or writen; data <= (others => 'Z'); addr <= to_X01(address) when rising_edge(clk) else addr; ldata <= to_X01(data) when rising_edge(clk) else ldata; pwmh <= pwm(pwmh1 downto pwmh0); process variable vid, did, subtest : integer; variable npwm : integer := 8; begin pwmh0 <= 2*(npwm-1); pwmh1 <= 2*(npwm-1)+1; wait until ((rising_edge(ior) nor falling_edge(ior)) and rising_edge(iow)); case addr(7 downto 2) is when "000000" => vid := conv_integer(ldata(31 downto 24)); did := conv_integer(ldata(23 downto 12)); when "000010" => subtest := conv_integer(ldata(7 downto 0)); if vid = VENDOR_GAISLER and did = GAISLER_PWM then if subtest > 246 then -- set npwm npwm := 255 - subtest; else verify_subtest(subtest, npwm, clk, pwm, pwmh); end if; end if; when others => end case; end process; end sim; -- pragma translate_on

-- 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: tc2869.vhd,v 1.2 2001-10-26 16:30:23 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c02s01b00x00p03n01i02869ent IS END c02s01b00x00p03n01i02869ent; ARCHITECTURE c02s01b00x00p03n01i02869arch OF c02s01b00x00p03n01i02869ent IS procedure (I1:Bit); --Failure here BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s01b00x00p03n01i02869 - Missing designator." severity ERROR; wait; END PROCESS TESTING; END c02s01b00x00p03n01i02869arch;

library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.NUMERIC_STD.all; use IEEE.MATH_REAL.ALL; entity Arbiter_checkers is port ( Req_N, Req_E, Req_W, Req_S, Req_L :in std_logic; DCTS: in std_logic; Grant_N, Grant_E, Grant_W, Grant_S, Grant_L: in std_logic; Xbar_sel : in std_logic_vector(4 downto 0); state: in std_logic_vector (5 downto 0); state_in: in std_logic_vector (5 downto 0); next_state_out: in std_logic_vector (5 downto 0); RTS_FF: in std_logic; RTS_FF_in: in std_logic; -- Checker outputs err_state_IDLE_xbar, err_state_not_IDLE_xbar, err_state_IDLE_RTS_FF_in, err_state_not_IDLE_RTS_FF_RTS_FF_in, err_state_not_IDLE_DCTS_RTS_FF_RTS_FF_in, err_state_not_IDLE_not_DCTS_RTS_FF_RTS_FF_in, err_RTS_FF_not_DCTS_state_state_in, err_not_RTS_FF_state_in_next_state, err_RTS_FF_DCTS_state_in_next_state, err_not_DCTS_Grants, err_DCTS_not_RTS_FF_Grants, err_DCTS_RTS_FF_IDLE_Grants, err_DCTS_RTS_FF_not_IDLE_Grants_onehot, err_Requests_next_state_IDLE, err_IDLE_Req_L, err_Local_Req_L, err_North_Req_N, err_East_Req_E, err_West_Req_W, err_South_Req_S, err_IDLE_Req_N, err_Local_Req_N, err_North_Req_E, err_East_Req_W, err_West_Req_S, err_South_Req_L, err_IDLE_Req_E, err_Local_Req_E, err_North_Req_W, err_East_Req_S, err_West_Req_L, err_South_Req_N, err_IDLE_Req_W, err_Local_Req_W, err_North_Req_S, err_East_Req_L, err_West_Req_N, err_South_Req_E, err_IDLE_Req_S, err_Local_Req_S, err_North_Req_L, err_East_Req_N, err_West_Req_E, err_South_Req_W, err_next_state_onehot, err_state_in_onehot, err_DCTS_RTS_FF_state_Grant_L, err_DCTS_RTS_FF_state_Grant_N, err_DCTS_RTS_FF_state_Grant_E, err_DCTS_RTS_FF_state_Grant_W, err_DCTS_RTS_FF_state_Grant_S, err_state_north_xbar_sel, err_state_east_xbar_sel, err_state_west_xbar_sel, err_state_south_xbar_sel, err_state_local_xbar_sel : out std_logic ); end Arbiter_checkers; architecture behavior of Arbiter_checkers is CONSTANT IDLE: std_logic_vector (5 downto 0) := "000001"; CONSTANT Local: std_logic_vector (5 downto 0) := "000010"; CONSTANT North: std_logic_vector (5 downto 0) := "000100"; CONSTANT East: std_logic_vector (5 downto 0) := "001000"; CONSTANT West: std_logic_vector (5 downto 0) := "010000"; CONSTANT South: std_logic_vector (5 downto 0) := "100000"; SIGNAL Requests: std_logic_vector (4 downto 0); SIGNAL Grants: std_logic_vector (4 downto 0); begin Requests <= Req_N & Req_E & Req_W & Req_S & Req_L; Grants <= Grant_N & Grant_E & Grant_W & Grant_S & Grant_L; -- Checkers --checked process (Xbar_sel, state) begin if (state = IDLE and Xbar_sel /= "00000") then err_state_IDLE_xbar <= '1'; else err_state_IDLE_xbar <= '0'; end if; end process; --checked process (state, Xbar_sel) begin if ( state /= IDLE and Xbar_sel /= "00001" and Xbar_sel /= "00010" and Xbar_sel /= "00100" and Xbar_sel /= "01000" and Xbar_sel /= "10000") then err_state_not_IDLE_xbar <= '1'; else err_state_not_IDLE_xbar <= '0'; end if; end process; --checked process (state, RTS_FF_in) begin if (state = IDLE and RTS_FF_in = '1') then err_state_IDLE_RTS_FF_in <= '1'; else err_state_IDLE_RTS_FF_in <= '0'; end if; end process; --checked process (state, RTS_FF, RTS_FF_in) begin if ( (state = North or state = East or state = West or state = South or state = Local) and RTS_FF = '0' and RTS_FF = '0' and RTS_FF_in = '0') then err_state_not_IDLE_RTS_FF_RTS_FF_in <= '1'; else err_state_not_IDLE_RTS_FF_RTS_FF_in <= '0'; end if; end process; --checked process (state, DCTS, RTS_FF, RTS_FF_in) begin if ( (state = North or state = East or state = West or state = South or state = Local) and RTS_FF = '1' and DCTS = '1' and RTS_FF_in = '1') then err_state_not_IDLE_DCTS_RTS_FF_RTS_FF_in <= '1'; else err_state_not_IDLE_DCTS_RTS_FF_RTS_FF_in <= '0'; end if; end process; --checked process (state, DCTS, RTS_FF, RTS_FF_in) begin if ( (state = North or state = East or state = West or state = South or state = Local) and RTS_FF = '1' and DCTS = '0' and RTS_FF_in = '0') then err_state_not_IDLE_not_DCTS_RTS_FF_RTS_FF_in <= '1'; else err_state_not_IDLE_not_DCTS_RTS_FF_RTS_FF_in <= '0'; end if; end process; --checked process (RTS_FF, DCTS, state, state_in) begin if (RTS_FF = '1' and DCTS = '0' and state /= state_in) then err_RTS_FF_not_DCTS_state_state_in <= '1'; else err_RTS_FF_not_DCTS_state_state_in <= '0'; end if; end process; --checked process (RTS_FF, state_in, next_state_out) begin if (RTS_FF = '0' and state_in /= next_state_out) then err_not_RTS_FF_state_in_next_state <= '1'; else err_not_RTS_FF_state_in_next_state <= '0'; end if; end process; --checked process (RTS_FF, DCTS, state_in, next_state_out) begin if (RTS_FF = '1' and DCTS = '1' and state_in /= next_state_out) then err_RTS_FF_DCTS_state_in_next_state <= '1'; else err_RTS_FF_DCTS_state_in_next_state <= '0'; end if; end process; --checked process (RTS_FF, Grants) begin if (RTS_FF = '0' and Grants /= "00000") then err_not_DCTS_Grants <= '1'; else err_not_DCTS_Grants <= '0'; end if; end process; --checked process (DCTS, RTS_FF, Grants) begin if (RTS_FF = '1' and DCTS = '0' and Grants /= "00000") then err_DCTS_not_RTS_FF_Grants <= '1'; else err_DCTS_not_RTS_FF_Grants <= '0'; end if; end process; --checked process (DCTS, RTS_FF, state, Grants) begin if (DCTS = '1' and RTS_FF = '1' and state = IDLE and Grants /= "00000") then err_DCTS_RTS_FF_IDLE_Grants <= '1'; else err_DCTS_RTS_FF_IDLE_Grants <= '0'; end if; end process; --checked process (DCTS, RTS_FF, state, Grants) begin if (DCTS = '1' and RTS_FF = '1' and state /= IDLE and Grants /= "00001" and Grants /= "00010" and Grants /= "00100" and Grants /= "01000" and Grants /= "10000") then err_DCTS_RTS_FF_not_IDLE_Grants_onehot <= '1'; else err_DCTS_RTS_FF_not_IDLE_Grants_onehot <= '0'; end if; end process; --checked process (state, Requests, next_state_out) begin if ( (state = North or state = East or state = West or state = South or state = Local or state = IDLE) and Requests = "00000" and next_state_out /= IDLE ) then err_Requests_next_state_IDLE <= '1'; else err_Requests_next_state_IDLE <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 1 --checked process (state, Req_L, next_state_out) begin if ( state = IDLE and Req_L = '1' and next_state_out /= Local) then err_IDLE_Req_L <= '1'; else err_IDLE_Req_L <= '0'; end if; end process; process (state, Req_L, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /= West and state /= South and Req_L = '1' and next_state_out /= Local) then err_Local_Req_L <= '1'; else err_Local_Req_L <= '0'; end if; end process; --checked process (state, Req_N, next_state_out) begin if (state = North and Req_N = '1' and next_state_out /= North) then err_North_Req_N <= '1'; else err_North_Req_N <= '0'; end if; end process; ----checked process (state, Req_E, next_state_out) begin if (state = East and Req_E = '1' and next_state_out /= East) then err_East_Req_E <= '1'; else err_East_Req_E <= '0'; end if; end process; ----checked process (state, Req_W, next_state_out) begin if (state = West and Req_W = '1' and next_state_out /= West) then err_West_Req_W <= '1'; else err_West_Req_W <= '0'; end if; end process; ----checked process (state, Req_S, next_state_out) begin if (state = South and Req_S = '1' and next_state_out /= South) then err_South_Req_S <= '1'; else err_South_Req_S <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 2 --checked process (state, Req_L, Req_N, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_IDLE_Req_N <= '1'; else err_IDLE_Req_N <= '0'; end if; end process; process (state, Req_L, Req_N, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_Local_Req_N <= '1'; else err_Local_Req_N <= '0'; end if; end process; ----checked process (state, Req_N, Req_E, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_North_Req_E <= '1'; else err_North_Req_E <= '0'; end if; end process; process (state, Req_E, Req_W, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_East_Req_W <= '1'; else err_East_Req_W <= '0'; end if; end process; process (state, Req_W, Req_S, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_West_Req_S <= '1'; else err_West_Req_S <= '0'; end if; end process; process (state, Req_S, Req_L, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_South_Req_L <= '1'; else err_South_Req_L <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 3 process (state, Req_L, Req_N, Req_E, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_IDLE_Req_E <= '1'; else err_IDLE_Req_E <= '0'; end if; end process; process (state, Req_L, Req_N, Req_E, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_Local_Req_E <= '1'; else err_Local_Req_E <= '0'; end if; end process; process (state, Req_N, Req_E, Req_W, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_North_Req_W <= '1'; else err_North_Req_W <= '0'; end if; end process; process (state, Req_E, Req_W, Req_S, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_East_Req_S <= '1'; else err_East_Req_S <= '0'; end if; end process; process (state, Req_W, Req_S, Req_L, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_West_Req_L <= '1'; else err_West_Req_L <= '0'; end if; end process; process (state, Req_S, Req_L, Req_N, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_South_Req_N <= '1'; else err_South_Req_N <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 4 process (state, Req_L, Req_N, Req_E, Req_W, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_IDLE_Req_W <= '1'; else err_IDLE_Req_W <= '0'; end if; end process; process (state, Req_L, Req_N, Req_E, Req_W, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_Local_Req_W <= '1'; else err_Local_Req_W <= '0'; end if; end process; process (state, Req_N, Req_E, Req_W, Req_S, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_North_Req_S <= '1'; else err_North_Req_S <= '0'; end if; end process; process (state, Req_E, Req_W, Req_S, Req_L, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '0' and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_East_Req_L <= '1'; else err_East_Req_L <= '0'; end if; end process; process (state, Req_W, Req_S, Req_L, Req_N, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '0' and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_West_Req_N <= '1'; else err_West_Req_N <= '0'; end if; end process; process (state, Req_S, Req_L, Req_N, Req_E, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_South_Req_E <= '1'; else err_South_Req_E <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- -- Round 5 process (state, Req_L, Req_N, Req_E, Req_W, Req_S, next_state_out) begin if ( state = IDLE and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_IDLE_Req_S <= '1'; else err_IDLE_Req_S <= '0'; end if; end process; process (state, Req_L, Req_N, Req_E, Req_W, Req_S, next_state_out) begin if ( state /= IDLE and state /= North and state /=East and state /=West and state /= South and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '1' and next_state_out /= South) then err_Local_Req_S <= '1'; else err_Local_Req_S <= '0'; end if; end process; process (state, Req_N, Req_E, Req_W, Req_S, Req_L, next_state_out) begin if (state = North and Req_N = '0' and Req_E = '0' and Req_W = '0' and Req_S = '0' and Req_L = '1' and next_state_out /= Local) then err_North_Req_L <= '1'; else err_North_Req_L <= '0'; end if; end process; process (state, Req_E, Req_W, Req_S, Req_L, Req_N, next_state_out) begin if (state = East and Req_E = '0' and Req_W = '0' and Req_S = '0' and Req_L = '0' and Req_N = '1' and next_state_out /= North) then err_East_Req_N <= '1'; else err_East_Req_N <= '0'; end if; end process; process (state, Req_W, Req_S, Req_L, Req_N, Req_E, next_state_out) begin if (state = West and Req_W = '0' and Req_S = '0' and Req_L = '0' and Req_N = '0' and Req_E = '1' and next_state_out /= East) then err_West_Req_E <= '1'; else err_West_Req_E <= '0'; end if; end process; process (state, Req_S, Req_L, Req_N, Req_E, Req_W, next_state_out) begin if (state = South and Req_S = '0' and Req_L = '0' and Req_N = '0' and Req_E = '0' and Req_W = '1' and next_state_out /= West) then err_South_Req_W <= '1'; else err_South_Req_W <= '0'; end if; end process; ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- ----------------------------------------------------------------------------------------------------------------------- process (next_state_out) begin if (next_state_out /= IDLE and next_state_out /= North and next_state_out /= East and next_state_out /= West and next_state_out /= South and next_state_out /= Local) then err_next_state_onehot <= '1'; else err_next_state_onehot <= '0'; end if; end process; process (state_in) begin if (state_in /= IDLE and state_in /= North and state_in /= East and state_in /= West and state_in /= South and state_in /= Local) then err_state_in_onehot <= '1'; else err_state_in_onehot <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_L) begin if (DCTS = '1' and RTS_FF = '1' and state /= IDLE and state /= North and state /=East and state /=West and state /= South and Grant_L = '0' ) then err_DCTS_RTS_FF_state_Grant_L <= '1'; else err_DCTS_RTS_FF_state_Grant_L <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_N) begin if (DCTS = '1' and RTS_FF = '1' and state = North and Grant_N = '0' ) then err_DCTS_RTS_FF_state_Grant_N <= '1'; else err_DCTS_RTS_FF_state_Grant_N <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_E) begin if (DCTS = '1' and RTS_FF = '1' and state = East and Grant_E = '0' ) then err_DCTS_RTS_FF_state_Grant_E <= '1'; else err_DCTS_RTS_FF_state_Grant_E <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_W) begin if (DCTS = '1' and RTS_FF = '1' and state = West and Grant_W = '0' ) then err_DCTS_RTS_FF_state_Grant_W <= '1'; else err_DCTS_RTS_FF_state_Grant_W <= '0'; end if; end process; process (DCTS, RTS_FF, state, Grant_S) begin if (DCTS = '1' and RTS_FF = '1' and state = South and Grant_S = '0' ) then err_DCTS_RTS_FF_state_Grant_S <= '1'; else err_DCTS_RTS_FF_state_Grant_S <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = North and Xbar_sel /= "00001" ) then err_state_north_xbar_sel <= '1'; else err_state_north_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = East and Xbar_sel /= "00010" ) then err_state_east_xbar_sel <= '1'; else err_state_east_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = West and Xbar_sel /= "00100" ) then err_state_west_xbar_sel <= '1'; else err_state_west_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state = South and Xbar_sel /= "01000" ) then err_state_south_xbar_sel <= '1'; else err_state_south_xbar_sel <= '0'; end if; end process; process (state, Xbar_sel) begin if (state /= IDLE and state /= North and state /= East and state /= West and state /= South and Xbar_sel /= "10000" ) then err_state_local_xbar_sel <= '1'; else err_state_local_xbar_sel <= '0'; end if; end process; end behavior;

-- rgbctl_gen.vhd -- Jan Viktorin <xvikto03@stud.fit.vutbr.cz> -- Copyright (C) 2011, 2012 Jan Viktorin library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; library proc_common_v3_00_a; use proc_common_v3_00_a.proc_common_pkg.log2; entity rgbctl_gen is generic ( HBP : integer := 48; HDP : integer := 640; HFP : integer := 16; VBP : integer := 33; VDP : integer := 480; VFP : integer := 10; HPULSE : integer := 96; VPULSE : integer := 2 ); port ( CLK : in std_logic; RST : in std_logic; HS : out std_logic; VS : out std_logic; DE : out std_logic ); end entity; architecture full of rgbctl_gen is constant HPIXELS : integer := HPULSE + HBP + HDP + HFP; constant VLINES : integer := VPULSE + VBP + VDP + VFP; signal cnt_horiz : std_logic_vector(log2(HPIXELS) - 1 downto 0); signal cnt_horiz_ce : std_logic; signal cnt_horiz_o : std_logic; signal cnt_vert : std_logic_vector(log2(VLINES) - 1 downto 0); signal cnt_vert_ce : std_logic; signal cnt_vert_clr : std_logic; signal hdp_active : std_logic; signal vdp_active : std_logic; signal hpulse_active : std_logic; signal vpulse_active : std_logic; begin hdp_active <= '1' when cnt_horiz >= HPULSE + HBP and cnt_horiz < HPULSE + HBP + HDP else '0'; vdp_active <= '1' when cnt_vert >= VPULSE + VBP and cnt_vert < VPULSE + VBP + VDP else '0'; hpulse_active <= '1' when cnt_horiz < HPULSE else '0'; vpulse_active <= '1' when cnt_vert < VPULSE else '0'; DE <= hdp_active and vdp_active; -- negative logic: HS <= not hpulse_active; VS <= not vpulse_active; -------------------- cnt_horiz_ce <= '1'; cnt_vert_ce <= cnt_horiz_o; -------------------- cnt_horizp : process(CLK, RST, cnt_horiz_ce) begin if rising_edge(CLK) then if RST = '1' then cnt_horiz <= (others => '0'); elsif cnt_horiz_ce = '1' then if cnt_horiz = HPIXELS - 1 then cnt_horiz <= (others => '0'); else cnt_horiz <= cnt_horiz + 1; end if; end if; end if; end process; cnt_horiz_o <= '1' when cnt_horiz = HPIXELS - 1 else '0'; -------------------- cnt_vertp : process(CLK, RST, cnt_vert_ce) begin if rising_edge(CLK) then if RST = '1' then cnt_vert <= (others => '0'); elsif cnt_vert_ce = '1' then if cnt_vert = VLINES - 1 then cnt_vert <= (others => '0'); else cnt_vert <= cnt_vert + 1; end if; end if; end if; end process; end architecture;

library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.mem_bus_pkg.all; use work.tl_flat_memory_model_pkg.all; entity mem_bus_32_slave_bfm is generic ( g_name : string; g_latency : positive := 2 ); port ( clock : in std_logic; req : in t_mem_req_32; resp : out t_mem_resp_32 ); end mem_bus_32_slave_bfm; architecture bfm of mem_bus_32_slave_bfm is shared variable mem : h_mem_object; signal bound : boolean := false; signal pipe : t_mem_req_32_array(0 to g_latency-1) := (others => c_mem_req_32_init); begin -- this process registers this instance of the bfm to the server package bind: process begin register_mem_model(mem_bus_32_slave_bfm'path_name, g_name, mem); bound <= true; wait; end process; resp.rack <= '1' when bound and req.request='1' else '0'; resp.rack_tag <= req.tag when bound and req.request='1' else (others => '0'); process(clock) variable data : std_logic_vector(31 downto 0); variable word_addr : unsigned(31 downto 2); variable byte_addr : unsigned(1 downto 0); begin if rising_edge(clock) then pipe(0 to g_latency-2) <= pipe(1 to g_latency-1); pipe(g_latency-1) <= req; resp.dack_tag <= (others => '0'); resp.data <= (others => '0'); if bound then if pipe(0).request='1' then if pipe(0).read_writen='1' then resp.dack_tag <= pipe(0).tag; data := read_memory_32(mem, "000000" & std_logic_vector(pipe(0).address)); if pipe(0).address(1 downto 0) = "00" then resp.data <= data; elsif pipe(0).address(1 downto 0) = "01" then resp.data <= data(7 downto 0) & data(31 downto 8); elsif pipe(0).address(1 downto 0) = "10" then resp.data <= data(15 downto 0) & data(31 downto 16); else resp.data <= data(23 downto 0) & data(31 downto 24); end if; else word_addr := "000000" & pipe(0).address(25 downto 2); byte_addr := pipe(0).address(1 downto 0); for i in 0 to 3 loop if pipe(0).byte_en(i) = '1' then write_memory_8(mem, std_logic_vector(word_addr) & std_logic_vector(byte_addr), pipe(0).data(7+8*i downto 8*i)); end if; byte_addr := byte_addr + 1; end loop; end if; end if; end if; end if; end process; end bfm;

------------------------------------------------------------------------------ -- 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 - 2016, 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 ----------------------------------------------------------------------------- -- Package: libfpu -- File: libfpu.vhd -- Author: Jiri Gaisler, Gaisler Research -- Description: LEON3 FPU interface types and components ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; library gaisler; use gaisler.leon3.all; library techmap; use techmap.gencomp.all; package libfpu is type fp_rf_in_type is record rd1addr : std_logic_vector(3 downto 0); -- read address 1 rd2addr : std_logic_vector(3 downto 0); -- read address 2 wraddr : std_logic_vector(3 downto 0); -- write address wrdata : std_logic_vector(31 downto 0); -- write data ren1 : std_ulogic; -- read 1 enable ren2 : std_ulogic; -- read 2 enable wren : std_ulogic; -- write enable end record; type fp_rf_out_type is record data1 : std_logic_vector(31 downto 0); -- read data 1 data2 : std_logic_vector(31 downto 0); -- read data 2 end record; type fpc_pipeline_control_type is record pc : std_logic_vector(31 downto 0); inst : std_logic_vector(31 downto 0); cnt : std_logic_vector(1 downto 0); trap : std_ulogic; annul : std_ulogic; pv : std_ulogic; end record; type fpc_debug_in_type is record enable : std_ulogic; write : std_ulogic; fsr : std_ulogic; -- FSR access addr : std_logic_vector(4 downto 0); data : std_logic_vector(31 downto 0); end record; type fpc_debug_out_type is record data : std_logic_vector(31 downto 0); end record; constant fpc_debug_none : fpc_debug_out_type := (data => X"00000000" ); type fpc_in_type is record flush : std_ulogic; -- pipeline flush exack : std_ulogic; -- FP exception acknowledge a_rs1 : std_logic_vector(4 downto 0); d : fpc_pipeline_control_type; a : fpc_pipeline_control_type; e : fpc_pipeline_control_type; m : fpc_pipeline_control_type; x : fpc_pipeline_control_type; lddata : std_logic_vector(31 downto 0); -- load data dbg : fpc_debug_in_type; -- debug signals end record; type fpc_out_type is record data : std_logic_vector(31 downto 0); -- store data exc : std_logic; -- FP exception cc : std_logic_vector(1 downto 0); -- FP condition codes ccv : std_ulogic; -- FP condition codes valid ldlock : std_logic; -- FP pipeline hold holdn : std_ulogic; dbg : fpc_debug_out_type; -- FP debug signals end record; constant fpc_out_none : fpc_out_type := (X"00000000", '0', "00", '1', '0', '1', fpc_debug_none); component grfpwxsh generic ( tech : integer range 0 to NTECH := 0; pclow : integer range 0 to 2 := 2; dsu : integer range 0 to 1 := 0; disas : integer range 0 to 2 := 0; id : integer range 0 to 7 := 0; scantest : integer := 0 ); port ( rst : in std_ulogic; -- Reset clk : in std_ulogic; holdn : in std_ulogic; -- pipeline hold cpi : in fpc_in_type; cpo : out fpc_out_type; fpui : out grfpu_in_type; fpuo : in grfpu_out_type; testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; end;

-- 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 ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : gear_rv_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Gear Model (ROTATIONAL_V/ROTATIONAL domains) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/10/10 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity gear_rv_r is generic( ratio : real := 1.0); -- Gear ratio (Revs of shaft2 for 1 rev of shaft1) -- Note: can be negative, if shaft polarity changes port ( terminal rotv1 : rotational_v; terminal rot2 : rotational); end entity gear_rv_r; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of gear_rv_r is quantity w1 across torq_vel through rotv1 to rotational_v_ref; -- quantity w2 across torq2 through rotv2 to rotational_v_ref; quantity theta across torq_ang through rot2 to rotational_ref; begin -- w2 == w1*ratio; theta == ratio*w1'integ; torq_vel == -1.0*torq_ang*ratio; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Rotational to Electrical Converter -- ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity rot2v is generic ( k : real := 1.0); -- optional gain port ( terminal input : rotational; -- input terminal terminal output : electrical); -- output terminal end entity rot2v ; architecture bhv of rot2v is quantity rot_in across input to rotational_ref; -- Converter's input branch quantity v_out across out_i through output to electrical_ref;-- Converter's output branch begin -- bhv v_out == k*rot_in; end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- tran = R*sin(rot) -- -- Where pos = output translational position, -- R = horn radius, -- theta = input rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_r2t is generic ( R : real := 1.0); -- horn radius port ( terminal theta : ROTATIONAL; -- input angular position port terminal pos : TRANSLATIONAL); -- output translational position port end entity horn_r2t; architecture bhv of horn_r2t is QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; begin -- bhv tran == R*sin(rot); -- Convert angle in to translational out tran_frc == -rot_tq/R; -- Convert torque in to force out end bhv; -- ------------------------------------------------------------------------------- -- Control Horn for Rudder Control (mechanical implementation) -- -- Transfer Function: -- -- theta = arcsin(pos/R) -- -- Where pos = input translational position, -- R = horn radius, -- theta = output rotational angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity horn_t2r is generic ( R : real := 1.0); -- Rudder horn radius port ( terminal pos : translational; -- input translational position port terminal theta : rotational); -- output angular position port end entity horn_t2r ; architecture bhv of horn_t2r is QUANTITY tran across tran_frc through pos TO TRANSLATIONAL_REF; QUANTITY rot across rot_tq through theta TO ROTATIONAL_REF; begin -- bhv rot == arcsin(tran/R); -- Convert translational to angle rot_tq == -tran_frc*R; -- Convert force to torque end bhv; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : DC_Motor.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Basic DC Motor ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; use IEEE_proposed.electrical_systems.all; entity DC_Motor is generic ( r_wind : resistance; -- Motor winding resistance [Ohm] kt : real; -- Torque coefficient [N*m/Amp] l : inductance; -- Winding inductance [Henrys] d : real; -- Damping coefficient [N*m/(rad/sec)] j : mmoment_i); -- Moment of inertia [kg*meter**2] port (terminal p1, p2 : electrical; terminal shaft_rotv : rotational_v); end entity DC_Motor; ------------------------------------------------------------------------------- -- Basic Architecture -- Motor equations: V = Kt*W + I*Rwind + L*dI/dt -- T = -Kt*I + D*W + J*dW/dt ------------------------------------------------------------------------------- architecture basic of DC_Motor is quantity v across i through p1 to p2; quantity w across torq through shaft_rotv to rotational_v_ref; begin torq == -1.0*kt*i + d*w + j*w'dot; v == kt*w + i*r_wind + l*i'dot; end architecture basic; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : stop_r.vhd -- Author : Mentor Graphics -- Created : 2001/10/10 -- Last update: 2001/10/10 ------------------------------------------------------------------------------- -- Description: Mechanical Hard Stop (ROTATIONAL domain) ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- -- library IEEE; -- use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.MECHANICAL_SYSTEMS.all; entity stop_r is generic ( k_stop : real; -- ang_max : angle; -- ang_min : angle := 0.0; ang_max : real; ang_min : real := 0.0; damp_stop : real := 0.000000001 ); port ( terminal ang1, ang2 : rotational); end entity stop_r; architecture ideal of stop_r is quantity velocity : velocity; quantity ang across trq through ang1 to ang2; begin velocity == ang'dot; if ang > ang_max use trq == k_stop * (ang - ang_max) + (damp_stop * velocity); elsif ang > ang_min use trq == 0.0; else trq == k_stop * (ang - ang_min) + (damp_stop * velocity); end use; break on ang'above(ang_min), ang'above(ang_max); end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity tran_linkage is port ( terminal p1, p2 : translational ); begin end tran_linkage; architecture a1 of tran_linkage is QUANTITY pos_1 across frc_1 through p1 TO translational_ref; QUANTITY pos_2 across frc_2 through p2 TO translational_ref; begin pos_2 == pos_1; -- Pass position frc_2 == -frc_1; -- Pass force end; -- ------------------------------------------------------------------------------- -- Rudder Model (Rotational Spring) -- -- Transfer Function: -- -- torq = -k*(theta - theta_0) -- -- Where theta = input rotational angle, -- torq = output rotational angle, -- theta_0 = reference angle ------------------------------------------------------------------------------- -- Use IEEE_proposed instead of disciplines library IEEE; use ieee.math_real.all; library IEEE_proposed; use IEEE_proposed.mechanical_systems.all; entity rudder is generic ( k : real := 1.0; -- Spring constant theta_0 : real := 0.0); port ( terminal rot : rotational); -- input rotational angle end entity rudder; architecture bhv of rudder is QUANTITY theta across torq through rot TO ROTATIONAL_REF; begin -- bhv torq == k*(theta - theta_0); -- Convert force to torque end bhv; -- library IEEE; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity sum2_e is generic (k1, k2: real := 1.0); -- Gain multipliers port ( terminal in1, in2: electrical; terminal output: electrical); end entity sum2_e; architecture simple of sum2_e is QUANTITY vin1 ACROSS in1 TO ELECTRICAL_REF; QUANTITY vin2 ACROSS in2 TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == k1*vin1 + k2*vin2; end architecture simple; -- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity gain_e is generic ( k: REAL := 1.0); -- Gain multiplier port ( terminal input : electrical; terminal output: electrical); end entity gain_e; architecture simple of gain_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; begin vout == k*vin; end architecture simple; -- ------------------------------------------------------------------------------- -- S-Domain Limiter Model -- ------------------------------------------------------------------------------- library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity limiter_2_e is generic ( limit_high : real := 4.8; -- upper limit limit_low : real := -4.8); -- lower limit port ( terminal input: electrical; terminal output: electrical); end entity limiter_2_e; architecture simple of limiter_2_e is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; constant slope : real := 1.0e-4; begin if vin > limit_high use -- Upper limit exceeded, so limit input signal vout == limit_high + slope*(vin - limit_high); elsif vin < limit_low use -- Lower limit exceeded, so limit input signal vout == limit_low + slope*(vin - limit_low); else -- No limit exceeded, so pass input signal as is vout == vin; end use; break on vin'above(limit_high), vin'above(limit_low); end architecture simple; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : clock.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/06/16 ------------------------------------------------------------------------------- -- Description: Digital clock with 50% duty cycle ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity clock is generic ( period : time); -- Clock period port ( clk_out : out std_logic); end entity clock; architecture ideal of clock is begin CreateClock: process begin clk_out <= '0'; wait for period/2; clk_out <= '1'; wait for period/2; end process CreateClock; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- ------------------------------------------------------------------------------- -- Z-domain Lead Lag Filter -- -- Z-Domain Transfer Function: -- -- Y(z) a0(z) - a1(z-1) -- ---- = k * --------------- -- X(z) b0(z) - b1(z-1) -- -- Normalizing Gain = k -- -- Difference Equation: -- -- Y(K) = AX(k) - BX(k-1) + CY(k-1) ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; entity lead_lag_diff is port ( signal clk : in std_logic; -- clock terminal input: electrical; terminal output: electrical); end entity lead_lag_diff; architecture bhv of lead_lag_diff is QUANTITY vin ACROSS input TO ELECTRICAL_REF; QUANTITY vout ACROSS iout THROUGH output TO ELECTRICAL_REF; CONSTANT k : real := 400.0; -- Normalize gain signal z_out : real := 0.0; begin proc : process (clk) variable zi_dly1 : real := 0.0; -- Input delayed 1 clk cycle variable zo_dly1 : real := 0.0; -- Output delayed 1 clk cycle variable z_new : real := 0.0; -- New output value this clk cycle begin -- proc zo_dly1 := z_out; -- Store previous output value z_new := 0.6163507*vin - 0.6144184*zi_dly1 + 0.2307692*zo_dly1; zi_dly1 := vin; -- Store previous input value z_out <= z_new; end process; vout == k*z_out'ramp(100.0e-9); -- Ensure continuous transitions on output end bhv; -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity rudder_servo_z is port( terminal servo_in : electrical; terminal pos_fb : electrical; terminal servo_out : electrical ); end rudder_servo_z; architecture rudder_servo_z of rudder_servo_z is -- Component declarations -- Signal declarations signal clk : std_logic; terminal error : electrical; terminal limit_in : electrical; terminal ll_in : electrical; terminal summer_fb : electrical; begin -- Signal assignments -- Component instances summer : entity work.sum2_e(simple) port map( in1 => servo_in, in2 => summer_fb, output => error ); forward_gain : entity work.gain_e(simple) generic map( k => 100.0 ) port map( input => error, output => ll_in ); fb_gain : entity work.gain_e(simple) generic map( k => -4.57 ) port map( input => pos_fb, output => summer_fb ); XCMP21 : entity work.limiter_2_e(simple) generic map( limit_high => 4.8, limit_low => -4.8 ) port map( input => limit_in, output => servo_out ); clock1 : entity work.clock(ideal) generic map( period => 200us ) port map( CLK_OUT => clk ); XCMP23 : entity work.lead_lag_diff(bhv) port map( input => ll_in, output => limit_in, clk => clk ); end rudder_servo_z; -- ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation -- -- This model is a component of the Mentor Graphics VHDL-AMS educational open -- source model library, and is covered by this license agreement. This model, -- including any updates, modifications, revisions, copies, and documentation -- are copyrighted works of Mentor Graphics. USE OF THIS MODEL INDICATES YOUR -- COMPLETE AND UNCONDITIONAL ACCEPTANCE OF THE TERMS AND CONDITIONS SET FORTH -- IN THIS LICENSE AGREEMENT. Mentor Graphics grants you a non-exclusive -- license to use, reproduce, modify and distribute this model, provided that: -- (a) no fee or other consideration is charged for any distribution except -- compilations distributed in accordance with Section (d) of this license -- agreement; (b) the comment text embedded in this model is included verbatim -- in each copy of this model made or distributed by you, whether or not such -- version is modified; (c) any modified version must include a conspicuous -- notice that this model has been modified and the date of modification; and -- (d) any compilations sold by you that include this model must include a -- conspicuous notice that this model is available from Mentor Graphics in its -- original form at no charge. -- -- THIS MODEL IS LICENSED TO YOU "AS IS" AND WITH NO WARRANTIES, EXPRESS OR -- IMPLIED. MENTOR GRAPHICS SPECIFICALLY DISCLAIMS ALL IMPLIED WARRANTIES OF -- MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. MENTOR GRAPHICS SHALL -- HAVE NO RESPONSIBILITY FOR ANY DAMAGES WHATSOEVER. ------------------------------------------------------------------------------- -- File : v_sine.vhd -- Author : Mentor Graphics -- Created : 2001/06/16 -- Last update: 2001/07/03 ------------------------------------------------------------------------------- -- Description: Electrical sinusoidal voltage source -- Includes frequency domain settings ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2001/06/16 1.0 Mentor Graphics Created -- 2001/07/03 1.1 Mentor Graphics Changed generics from real to -- voltage. ------------------------------------------------------------------------------- library IEEE; use IEEE.MATH_REAL.all; -- Use proposed IEEE natures and packages library IEEE_proposed; use IEEE_proposed.ELECTRICAL_SYSTEMS.all; entity v_sine is generic ( freq : real; -- frequency [Hertz] amplitude : voltage; -- amplitude [Volts] phase : real := 0.0; -- initial phase [Degrees] offset : voltage := 0.0; -- DC value [Volts] df : real := 0.0; -- damping factor [1/second] ac_mag : voltage := 1.0; -- AC magnitude [Volts] ac_phase : real := 0.0); -- AC phase [Degrees] port ( terminal pos, neg : electrical); end entity v_sine; ------------------------------------------------------------------------------- -- Ideal Architecture ------------------------------------------------------------------------------- architecture ideal of v_sine is -- Declare Branch Quantities quantity v across i through pos to neg; -- Declare Quantity for Phase in radians (calculated below) quantity phase_rad : real; -- Declare Quantity in frequency domain for AC analysis quantity ac_spec : real spectrum ac_mag, math_2_pi*ac_phase/360.0; begin -- Convert phase to radians phase_rad == math_2_pi *(freq * NOW + phase / 360.0); if domain = quiescent_domain or domain = time_domain use v == offset + amplitude * sin(phase_rad) * EXP(-NOW * df); else v == ac_spec; -- used for Frequency (AC) analysis end use; end architecture ideal; ------------------------------------------------------------------------------- -- Copyright (c) 2001 Mentor Graphics Corporation ------------------------------------------------------------------------------- -- library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; library IEEE_proposed; use IEEE_proposed.electrical_systems.all; use IEEE_proposed.mechanical_systems.all; entity TB_CS2_Z_Domain_Diff is end TB_CS2_Z_Domain_Diff; architecture TB_CS2_Z_Domain_Diff of TB_CS2_Z_Domain_Diff is -- Component declarations -- Signal declarations terminal ctl_horn_in : rotational; terminal fb_rot2v : electrical; terminal gear_in : rotational_v; terminal link_in : translational; terminal link_out : translational; terminal mot_in : electrical; terminal rudder : rotational; terminal src_in : electrical; begin -- Signal assignments -- Component instances gear1 : entity work.gear_rv_r(ideal) generic map( ratio => 0.01 ) port map( rotv1 => gear_in, rot2 => ctl_horn_in ); gain_fb : entity work.rot2v(bhv) generic map( k => 1.0 ) port map( output => fb_rot2v, input => ctl_horn_in ); gear_horn : entity work.horn_r2t(bhv) port map( theta => ctl_horn_in, pos => link_in ); rudder_horn : entity work.horn_t2r(bhv) port map( theta => rudder, pos => link_out ); motor1 : entity work.DC_Motor(basic) generic map( r_wind => 2.2, kt => 3.43e-3, l => 2.03e-3, d => 5.63e-6, j => 168.0e-9 ) port map( p1 => mot_in, p2 => ELECTRICAL_REF, shaft_rotv => gear_in ); stop1 : entity work.stop_r(ideal) generic map( damp_stop => 1.0e2, k_stop => 1.0e6, ang_max => 1.05, ang_min => -1.05 ) port map( ang1 => ctl_horn_in, ang2 => ROTATIONAL_REF ); \Linkage\ : entity work.tran_linkage(a1) port map( p2 => link_out, p1 => link_in ); XCMP5 : entity work.rudder(bhv) generic map( k => 0.2 ) port map( rot => rudder ); rudder_servo_z1 : entity work.rudder_servo_z port map( servo_out => mot_in, servo_in => src_in, pos_fb => fb_rot2v ); v3 : entity work.v_sine(ideal) generic map( freq => 1.0, amplitude => 4.8 ) port map( pos => src_in, neg => ELECTRICAL_REF ); end TB_CS2_Z_Domain_Diff; --

---------------------------------------------------------------------------------- -- Company: OHO-Elektronik -- Engineer: Michael Randelzhofer mr@oho-elektronik.de +491776116444 -- -- Create Date: 10.11.2008 -- Design Name: -- Module Name: OhoPack.vhd -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 1.00 - File Created -- Revision 1.01 - Brightness support -- Revision 1.02 - Added display test -- Revision 1.03 - display update support, new interface signal names -- Additional Comments: -- package for OHO_DY1 display module ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL ; USE IEEE.NUMERIC_STD.ALL ; package OhoPack is type y2d_type is array(14 downto 0) of std_logic_vector(8 downto 0) ; -- OHO_DY1 hex decodes for positions (7 downto 0) -> edgacpbf constant seg_a: std_logic_vector(7 downto 0) := X"10" ; constant seg_b: std_logic_vector(7 downto 0) := X"02" ; constant seg_c: std_logic_vector(7 downto 0) := X"08" ; constant seg_d: std_logic_vector(7 downto 0) := X"40" ; constant seg_e: std_logic_vector(7 downto 0) := X"80" ; constant seg_f: std_logic_vector(7 downto 0) := X"01" ; constant seg_g: std_logic_vector(7 downto 0) := X"20" ; constant seg_dp: std_logic_vector(7 downto 0) := X"04" ; -- hex decoder shift values constant H0x0: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f ; constant H0x1: std_logic_vector(7 downto 0) := seg_b or seg_c ; constant H0x2: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_g or seg_e or seg_d ; constant H0x3: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_g ; constant H0x4: std_logic_vector(7 downto 0) := seg_f or seg_g or seg_b or seg_c ; constant H0x5: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d ; constant H0x6: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d or seg_e ; constant H0x7: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c ; constant H0x8: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f or seg_g ; constant H0x9: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_f or seg_g ; constant H0xa: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_e or seg_f or seg_g ; constant H0xb: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_f or seg_g ; constant H0xc: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_e or seg_d ; constant H0xd: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_g ; constant H0xe: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e or seg_d ; constant H0xf: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e ; constant L_a: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_e or seg_f or seg_g ; constant L_b: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_f or seg_g ; constant L_c: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_e or seg_d ; constant L_d: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_g ; constant L_e: std_logic_vector(7 downto 0) := seg_a or seg_g or seg_d or seg_e or seg_f ; constant L_f: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_e ; constant L_g: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_f or seg_g ; constant L_h: std_logic_vector(7 downto 0) := seg_c or seg_e or seg_g or seg_f ; constant L_hh: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_e or seg_f or seg_g ; constant L_i: std_logic_vector(7 downto 0) := seg_b or seg_c ; constant L_j: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d ; constant L_l: std_logic_vector(7 downto 0) := seg_d or seg_e or seg_f ; constant L_n: std_logic_vector(7 downto 0) := seg_c or seg_e or seg_g ; constant L_o: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e or seg_g ; constant L_oo: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_c or seg_d or seg_e or seg_f ; constant L_p: std_logic_vector(7 downto 0) := seg_a or seg_b or seg_g or seg_f or seg_e ; constant L_r: std_logic_vector(7 downto 0) := seg_e or seg_g ; constant L_s: std_logic_vector(7 downto 0) := seg_a or seg_f or seg_g or seg_c or seg_d ; constant L_t: std_logic_vector(7 downto 0) := seg_f or seg_e or seg_g or seg_d ; constant L_u: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_e or seg_f ; constant L_v: std_logic_vector(7 downto 0) := seg_c or seg_d or seg_e ; constant L_x: std_logic_vector(7 downto 0) := seg_c or seg_f or seg_g ; constant L_y: std_logic_vector(7 downto 0) := seg_b or seg_c or seg_d or seg_g or seg_f ; constant hex: std_logic := '1' ; constant raw: std_logic := '0' ; constant DupVal: std_logic_vector(11 DOWNTO 0) := X"001" ; FUNCTION Rise(sig:std_logic; sigq:std_logic) return boolean ; FUNCTION Fall(sig:std_logic; sigq:std_logic) return boolean ; FUNCTION ShiftBit(bitshift:std_logic_vector(2 downto 0); shiftval:std_logic_vector(7 downto 0)) return std_logic ; FUNCTION SerialHexDecode(bitpos:std_logic_vector(2 downto 0); ledcode:std_logic_vector(8 downto 0)) return std_logic ; FUNCTION Mirror(slv:std_logic_vector) return std_logic_vector ; end OhoPack ; package body OhoPack is -- generate one clock pulse on rising edge of signal sig FUNCTION Rise(sig:std_logic; sigq:std_logic) return boolean is VARIABLE Z : boolean ; BEGIN if (sig and not sigq) = '1' then Z := true ; else Z := false ; end if ; RETURN Z ; END Rise ; -- generate one clock pulse on falling edge of signal sig FUNCTION Fall(sig:std_logic; sigq:std_logic) return boolean is VARIABLE Z : boolean ; BEGIN if (not sig and sigq) = '1' then Z := true ; else Z := false ; end if ; RETURN Z ; END Fall ; -- serial bit decoder for bit positions -- bitshiftposition=0 -> result=shiftval(7) -- bitshiftposition=1 -> result=shiftval(6) -- bitshiftposition=2 -> result=shiftval(5) -- bitshiftposition=3 -> result=shiftval(4) -- bitshiftposition=4 -> result=shiftval(3) -- bitshiftposition=5 -> result=shiftval(2) -- bitshiftposition=6 -> result=shiftval(1) -- bitshiftposition=7 -> result=shiftval(0) FUNCTION ShiftBit(bitshift:std_logic_vector(2 downto 0); shiftval:std_logic_vector(7 downto 0)) return std_logic is VARIABLE Z : std_logic ; VARIABLE mv : std_logic_vector(7 downto 0) ; BEGIN mv := Mirror(shiftval) ; Z := mv(to_integer(unsigned(bitshift))) ; RETURN Z ; END ShiftBit ; -- lookup table driven hex decoder, needs binary up counter on bitpos -- input digit data is 9bits: ledcode(8 downto 0) -- ledcode(8)=0 -> ledcode(7 downto 0)=LED raw data; use led constants defined in this package -- ledcode(8)=1 -> ledcode(3 downto 0)=display hex nibble; ledcode(7)=decimal point FUNCTION SerialHexDecode(bitpos:std_logic_vector(2 downto 0); ledcode:std_logic_vector(8 downto 0)) return std_logic is VARIABLE Z : std_logic ; VARIABLE hexval : std_logic_vector(3 downto 0) ; VARIABLE dp : std_logic_vector(7 downto 0) ; BEGIN hexval := ledcode(3 downto 0) ; if (ledcode(7)='0') then dp := (others => '0') ; else dp := seg_dp ; end if ; if (ledcode(8)='0') then Z := ShiftBit(bitpos,ledcode(7 downto 0)) ; else case hexval is when X"0" => Z := ShiftBit(bitpos,H0x0 or dp) ; when X"1" => Z := ShiftBit(bitpos,H0x1 or dp) ; when X"2" => Z := ShiftBit(bitpos,H0x2 or dp) ; when X"3" => Z := ShiftBit(bitpos,H0x3 or dp) ; when X"4" => Z := ShiftBit(bitpos,H0x4 or dp) ; when X"5" => Z := ShiftBit(bitpos,H0x5 or dp) ; when X"6" => Z := ShiftBit(bitpos,H0x6 or dp) ; when X"7" => Z := ShiftBit(bitpos,H0x7 or dp) ; when X"8" => Z := ShiftBit(bitpos,H0x8 or dp) ; when X"9" => Z := ShiftBit(bitpos,H0x9 or dp) ; when X"a" => Z := ShiftBit(bitpos,H0xa or dp) ; when X"b" => Z := ShiftBit(bitpos,H0xb or dp) ; when X"c" => Z := ShiftBit(bitpos,H0xc or dp) ; when X"d" => Z := ShiftBit(bitpos,H0xd or dp) ; when X"e" => Z := ShiftBit(bitpos,H0xe or dp) ; when X"f" => Z := ShiftBit(bitpos,H0xf or dp) ; when others => end case ; end if ; RETURN Z ; END SerialHexDecode ; --this function mirrors all the bits of the input vector FUNCTION Mirror(slv:std_logic_vector) return std_logic_vector is VARIABLE MIR : std_logic_vector(slv'high downto slv'low); BEGIN FOR i IN (slv'low) to slv'high LOOP MIR(i) := (slv(slv'high-i)) ; END LOOP ; RETURN MIR ; END Mirror ; end OHOPack ;

-------------------------------------------------------------------------------- -------------------------------------------------------------------------------- -- Description: -- -- This components takes two inputs ,x and y, and outputs their signed -- -- product on the output s. This component also allows width-scaling of the -- -- output in any direction and size. This sclaling may leed to overflow in -- -- the output. In that case, the output is saturated. -- -- -- -- Generics: -- -- X_WIDTH - Bitwidth of the input x -- -- X_FRACTION - Fractional width of the input x -- -- Y_WIDTH - Bitwidth of the input y -- -- Y_FRACTION - Fractional width of the input y -- -- S_WIDTH - Bitwidth of the output s -- -- S_FRACTION - Fractional width of the output s -- -- -- -- Input/Output: -- -- x - First term. -- -- y - Second term -- -- overflow - Overflow indicator -- -- s - Product -- -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- entity Multiplier_Saturate is generic (X_WIDTH : natural := 16; X_FRACTION : natural := 15; Y_WIDTH : natural := 16; Y_FRACTION : natural := 15; S_WIDTH : natural := 16; S_FRACTION : natural := 15); port(x : in std_logic_vector(X_WIDTH-1 downto 0); y : in std_logic_vector(Y_WIDTH-1 downto 0); overflow : out std_logic; s : out std_logic_vector(S_WIDTH-1 downto 0)); end Multiplier_Saturate; -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- architecture behaviour of Multiplier_Saturate is -- Constants constant RESULT_WIDTH : integer := X_WIDTH+Y_WIDTH; constant LSB : integer := X_FRACTION+Y_FRACTION-S_FRACTION; constant MSB : integer := X_FRACTION+Y_FRACTION-S_FRACTION+S_WIDTH; -- Signal Declarations signal overflow_copy : std_logic; signal s_product : std_logic_vector(RESULT_WIDTH-1 downto 0); signal s_output : std_logic_vector(S_WIDTH-1 downto 0); -------------------------------------------------------------------------------- -------------------------------------------------------------------------------- begin -- Calculate product s_product <= std_logic_vector(signed(x) * signed(y)); -- Map to output gen_mapping : for i in 0 to S_WIDTH-1 generate if_inside : if(((LSB+i) <= (RESULT_WIDTH-1)) and ((LSB+i) >= (0))) generate s_output(i) <= s_product(LSB+i); end generate; if_above: if((LSB+i) > (RESULT_WIDTH-1)) generate s_output(i) <= s_product(RESULT_WIDTH-1); end generate; if_under: if((LSB+i) < (0)) generate s_output(i) <= '0'; end generate; end generate; -- Check for overflow gen_overflow: if(MSB < RESULT_WIDTH) generate process(s_product) constant ones : std_logic_vector(RESULT_WIDTH downto MSB) := (others => '1'); constant zeroes : std_logic_vector(RESULT_WIDTH downto MSB) := (others => '0'); begin if((s_product(RESULT_WIDTH-1 downto MSB-1) = zeroes) or (s_product(RESULT_WIDTH-1 downto MSB-1) = ones)) then overflow_copy <= '0'; else overflow_copy <= '1'; end if; end process; end generate; gen_no_overflow: if(MSB >= RESULT_WIDTH) generate overflow_copy <= '0'; end generate; overflow <= overflow_copy; -- Saturate output process(s_product, overflow_copy, s_output) begin if(overflow_copy = '1') then if(s_product(RESULT_WIDTH-1) = '1') then s <= (others => '0'); s(S_WIDTH-1) <= '1'; else s <= (others => '1'); s(S_WIDTH-1) <= '0'; end if; else s <= s_output; end if; end process; end behaviour; -------------------------------------------------------------------------------- --------------------------------------------------------------------------------

---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 14:42:09 02/09/2013 -- Design Name: -- Module Name: Top - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.NUMERIC_STD.all; use IEEE.STD_LOGIC_UNSIGNED.all; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity Top is port ( -- Standard 6847 signals -- -- expept DA which is now input only -- except nRP which re-purposed as a nWR CLK : in std_logic; DD : inout std_logic_vector (7 downto 0); DA : in std_logic_vector (12 downto 0); CHB : out std_logic; OA : out std_logic; OB : out std_logic; nMS : in std_logic; CSS : in std_logic; nHS : out std_logic; nFS : out std_logic; nWR : in std_logic; -- Was nRP AG : in std_logic; AS : in std_logic; INV : in std_logic; INTEXT : in std_logic; GM : in std_logic_vector (2 downto 0); Y : out std_logic; -- 5 bit VGA Output R : out std_logic_vector (0 downto 0); G : out std_logic_vector (1 downto 0); B : out std_logic_vector (0 downto 0); HSYNC : out std_logic; VSYNC : out std_logic; -- 1 bit AUDIO Output AUDIO : out std_logic; -- Other GODIL specific pins clock49 : in std_logic; nRST : in std_logic; nBXXX : in std_logic; -- Jumpers -- Enables VGA Signals on PL4 nPL4 : in std_logic; -- Moves SID from 9FE0 to BDC0 nSIDD : in std_logic; -- Active low version of the SID Select Signal for disabling the external bus buffers -- nSIDSEL : out std_logic; -- PS/2 Mouse PS2_CLK : inout std_logic; PS2_DATA : inout std_logic; -- UART uart_TxD : out std_logic; uart_RxD : in std_logic ); end Top; architecture BEHAVIORAL of Top is -- clock32 is the main clock signal clock32 : std_logic; -- clock25 is a full speed VGA clock signal clock25 : std_logic; -- clock15 is just used between two DCMs signal clock15 : std_logic; -- Reset signal (active high) signal reset : std_logic; -- Reset signal to 6847 (active high), not currently used signal reset_vid : std_logic; -- pipelined versions of the address/data/write signals signal nWR1 : std_logic; signal nWR2 : std_logic; signal nMS1 : std_logic; signal nMS2 : std_logic; signal nWRMS1 : std_logic; signal nWRMS2 : std_logic; signal nBXXX1 : std_logic; signal nBXXX2 : std_logic; signal DA1 : std_logic_vector (12 downto 0); signal DA2 : std_logic_vector (12 downto 0); signal DD1 : std_logic_vector (7 downto 0); signal DD2 : std_logic_vector (7 downto 0); signal DD3 : std_logic_vector (7 downto 0); signal ram_we : std_logic; signal addr : std_logic_vector (12 downto 0); signal din : std_logic_vector (7 downto 0); -- Dout back to the Atom, that is either VRAM or SID signal dout : std_logic_vector (7 downto 0); -- SID sigmals signal sid_cs : std_logic; signal sid_we : std_logic; signal sid_audio : std_logic; -- UART sigmals signal uart_cs : std_logic; signal uart_we : std_logic; -- Atom extension register signals signal reg_cs : std_logic; signal reg_we : std_logic; signal final_red : std_logic; signal final_green1 : std_logic; signal final_green0 : std_logic; signal final_blue : std_logic; signal final_vsync : std_logic; signal final_hsync : std_logic; signal final_char_a : std_logic_vector (10 downto 0); component DCM0 port( CLKIN_IN : in std_logic; CLK0_OUT : out std_logic; CLK0_OUT1 : out std_logic; CLK2X_OUT : out std_logic ); end component; component DCMSID0 port( CLKIN_IN : in std_logic; CLK0_OUT : out std_logic; CLK0_OUT1 : out std_logic; CLK2X_OUT : out std_logic ); end component; component DCMSID1 port( CLKIN_IN : in std_logic; CLK0_OUT : out std_logic; CLK0_OUT1 : out std_logic; CLK2X_OUT : out std_logic ); end component; component AtomGodilVideo generic ( CImplGraphicsExt : boolean; CImplSoftChar : boolean; CImplSID : boolean; CImplVGA80x40 : boolean; CImplHWScrolling : boolean; CImplMouse : boolean; CImplUart : boolean; MainClockSpeed : integer; DefaultBaud : integer ); port ( -- clock_vga is a full speed VGA clock (25MHz ish) clock_vga : in std_logic; -- clock_main is the main clock clock_main : in std_logic; -- A fixed 32MHz clock for the SID clock_sid_32MHz : in std_logic; -- As fast a clock as possible for the SID DAC clock_sid_dac : in std_logic; -- Reset signal (active high) reset : in std_logic; -- Reset signal to 6847 (active high), not currently used reset_vid : in std_logic; -- Main Address / Data Bus din : in std_logic_vector (7 downto 0); dout : out std_logic_vector (7 downto 0); addr : in std_logic_vector (12 downto 0); -- 6847 Control Signals CSS : in std_logic; AG : in std_logic; GM : in std_logic_vector (2 downto 0); nFS : out std_logic; -- RAM signals ram_we : in std_logic; -- SID signals reg_cs : in std_logic; reg_we : in std_logic; -- SID signals sid_cs : in std_logic; sid_we : in std_logic; sid_audio : out std_logic; -- PS/2 Mouse PS2_CLK : inout std_logic; PS2_DATA : inout std_logic; -- UART signals uart_cs : in std_logic; uart_we : in std_logic; uart_RxD : in std_logic; uart_TxD : out std_logic; uart_escape : out std_logic; uart_break : out std_logic; -- VGA Signals final_red : out std_logic; final_green1 : out std_logic; final_green0 : out std_logic; final_blue : out std_logic; final_vsync : out std_logic; final_hsync : out std_logic ); end component; begin reset <= not nRST; reset_vid <= '0'; -- Currently set at 49.152 * 8 / 31 = 12.684MHz -- half VGA should be 25.175 / 2 = 12. 5875 -- we could get closer with to cascaded multipliers Inst_DCM0 : DCM0 port map ( CLKIN_IN => clock49, CLK0_OUT => clock25, CLK0_OUT1 => open, CLK2X_OUT => open ); Inst_DCMSID0 : DCMSID0 port map ( CLKIN_IN => clock49, CLK0_OUT => clock15, CLK0_OUT1 => open, CLK2X_OUT => open ); Inst_DCMSID1 : DCMSID1 port map ( CLKIN_IN => clock15, CLK0_OUT => clock32, CLK0_OUT1 => open, CLK2X_OUT => open ); Inst_AtomGodilVideo : AtomGodilVideo generic map ( CImplGraphicsExt => true, CImplSoftChar => true, CImplSID => true, CImplVGA80x40 => true, CImplHWScrolling => true, CImplMouse => true, CImplUart => true, MainClockSpeed => 32000000, DefaultBaud => 115200 ) port map ( clock_vga => clock25, clock_main => clock32, clock_sid_32Mhz => clock32, clock_sid_dac => clock49, reset => reset, reset_vid => reset_vid, din => din, dout => dout, addr => addr, CSS => CSS, AG => AG, GM => GM, nFS => nFS, ram_we => ram_we, reg_cs => reg_cs, reg_we => reg_we, sid_cs => sid_cs, sid_we => sid_we, sid_audio => sid_audio, PS2_CLK => PS2_CLK, PS2_DATA => PS2_DATA, uart_cs => uart_cs, uart_we => uart_we, uart_RxD => uart_RxD, uart_TxD => uart_TxD, uart_escape => open, uart_break => open, final_red => final_red, final_green1 => final_green1, final_green0 => final_green0, final_blue => final_blue, final_vsync => final_vsync, final_hsync => final_hsync ); -- Pipelined version of address/data/write signals process (clock32) begin if rising_edge(clock32) then nBXXX2 <= nBXXX1; nBXXX1 <= nBXXX; nMS2 <= nMS1; nMS1 <= nMS; nWRMS2 <= nWRMS1; nWRMS1 <= nWR or nMS; nWR2 <= nWR1; nWR1 <= nWR; DD3 <= DD2; DD2 <= DD1; DD1 <= DD; DA2 <= DA1; DA1 <= DA; end if; end process; -- Signals driving the VRAM -- Write just before the rising edge of nWR ram_we <= '1' when (nWRMS1 = '1' and nWRMS2 = '0' and nBXXX2 = '1') else '0'; din <= DD3; addr <= DA2; -- Signals driving the internal registers -- When nSIDD=0 the registers are mapped to BDE0-BDFF -- When nSIDD=1 the registers are mapped to 9FE0-9FFF reg_cs <= '1' when (nSIDD = '1' and nMS2 = '0' and DA2(12 downto 5) = "11111111") or (nSIDD = '0' and nBXXX2 = '0' and DA2(11 downto 5) = "1101111") else '0'; reg_we <= '1' when (nSIDD = '1' and nWRMS1 = '1' and nWRMS2 = '0') or (nSIDD = '0' and nWR1 = '1' and nWR2 = '0') else '0'; -- Signals driving the SID -- When nSIDD=0 the SID is mapped to BDC0-BDDF -- When nSIDD=1 the SID is mapped to 9FC0-9FDF sid_cs <= '1' when (nSIDD = '1' and nMS2 = '0' and DA2(12 downto 5) = "11111110") or (nSIDD = '0' and nBXXX2 = '0' and DA2(11 downto 5) = "1101110") else '0'; sid_we <= '1' when (nSIDD = '1' and nWRMS1 = '1' and nWRMS2 = '0') or (nSIDD = '0' and nWR1 = '1' and nWR2 = '0') else '0'; -- Signals driving the UART -- When nSIDD=0 the UART is mapped to BDB0-BDBF -- When nSIDD=1 the UART is mapped to 9FB0-9FBF uart_cs <= '1' when (nSIDD = '1' and nMS2 = '0' and DA2(12 downto 4) = "111111011") or (nSIDD = '0' and nBXXX2 = '0' and DA2(11 downto 4) = "11011011") else '0'; uart_we <= '1' when (nSIDD = '1' and nWRMS1 = '1' and nWRMS2 = '0') or (nSIDD = '0' and nWR1 = '1' and nWR2 = '0') else '0'; AUDIO <= sid_audio; -- Output the SID Select Signal so it can be used to disable the bus buffers -- TODO: this looks incorrect -- nSIDSEL <= not sid_cs; -- Tri-state data back to the Atom DD <= dout when (nMS = '0' and nWR = '1') else (others => 'Z'); -- 1/1/1 Bit RGB Video to PL4 Connectors OA <= final_red when nPL4 = '0' else '0'; CHB <= final_green1 when nPL4 = '0' else '0'; OB <= final_blue when nPL4 = '0' else '0'; nHS <= final_hsync when nPL4 = '0' else '0'; Y <= final_vsync when nPL4 = '0' else '0'; -- 1/2/1 Bit RGB Video to GODIL Test Connector R(0) <= final_red; G(1) <= final_green1; G(0) <= final_green0; B(0) <= final_blue; VSYNC <= final_vsync; HSYNC <= final_hsync; end BEHAVIORAL;

LIBRARY ieee; USE ieee.std_logic_1164.all; ENTITY fa IS PORT( a,b,Cin : IN std_logic; S,Cout : OUT std_logic ); END ENTITY; ARCHITECTURE behavior OF fa IS BEGIN S <= a XOR b XOR Cin; Cout <= (a AND b) OR ((a XOR b) AND Cin); END ARCHITECTURE behavior;

library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.std_logic_unsigned.ALL; use IEEE.numeric_std.all; use work.MurmurHashUtils.ALL; entity BinarySearchBRAM is generic( DATA_WIDTH : integer := 32; ADDR_WIDTH : integer := 10 ); port( clk : in std_logic;-- un solo reloj para ambos puertos de la BRAM --Puerto de escritura en el cual se vana grabar los datos en la tabla porta_wr : in std_logic; porta_waddr : in std_logic_vector( (ADDR_WIDTH-1) downto 0); porta_din : in std_logic_vector( (DATA_WIDTH-1) downto 0); porta_rd : in std_logic; porta_raddr : in std_logic_vector( (ADDR_WIDTH-1) downto 0); porta_dout : out std_logic_vector( (DATA_WIDTH-1) downto 0); --puerto de lectura, desde el cual se van a leer los 0 --datos para la comparación portb_rd : in std_logic; portb_addr : in std_logic_vector( (ADDR_WIDTH-1) downto 0); portb_dout : out std_logic_vector( (DATA_WIDTH-1) downto 0) ); end entity BinarySearchBRAM; architecture Inferral of BinarySearchBRAM is type mem_type is array ( (2**ADDR_WIDTH)-1 downto 0 ) of std_logic_vector(DATA_WIDTH-1 downto 0); shared variable mem : mem_type; begin portA:process (clk, porta_wr, porta_waddr, porta_raddr, porta_din, porta_rd) begin if rising_edge(clk) then if ( porta_wr = '1' ) then mem(conv_integer(porta_waddr)) := porta_din; elsif ( porta_rd = '1' ) then porta_dout <= mem(conv_integer(porta_raddr)); end if; end if; end process portA; portB:process (clk, portb_rd, portb_addr) begin if rising_edge(clk) then if ( portb_rd = '1' ) then portb_dout <= mem(conv_integer(portb_addr)); end if; end if; end process portB; end architecture Inferral;

-- ============================================================== -- File generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC -- Version: 2015.3 -- Copyright (C) 2015 Xilinx Inc. All rights reserved. -- -- ============================================================== -- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity my_video_filter_line_buffers_val_1_ram is generic( mem_type : string := "block"; dwidth : integer := 8; awidth : integer := 13; mem_size : integer := 5760 ); port ( addr0 : in std_logic_vector(awidth-1 downto 0); ce0 : in std_logic; d0 : in std_logic_vector(dwidth-1 downto 0); we0 : in std_logic; q0 : out std_logic_vector(dwidth-1 downto 0); addr1 : in std_logic_vector(awidth-1 downto 0); ce1 : in std_logic; d1 : in std_logic_vector(dwidth-1 downto 0); we1 : in std_logic; q1 : out std_logic_vector(dwidth-1 downto 0); clk : in std_logic ); end entity; architecture rtl of my_video_filter_line_buffers_val_1_ram is signal addr0_tmp : std_logic_vector(awidth-1 downto 0); signal addr1_tmp : std_logic_vector(awidth-1 downto 0); type mem_array is array (0 to mem_size-1) of std_logic_vector (dwidth-1 downto 0); shared variable ram : mem_array; attribute syn_ramstyle : string; attribute syn_ramstyle of ram : variable is "block_ram"; attribute ram_style : string; attribute ram_style of ram : variable is mem_type; attribute EQUIVALENT_REGISTER_REMOVAL : string; begin memory_access_guard_0: process (addr0) begin addr0_tmp <= addr0; --synthesis translate_off if (CONV_INTEGER(addr0) > mem_size-1) then addr0_tmp <= (others => '0'); else addr0_tmp <= addr0; end if; --synthesis translate_on end process; p_memory_access_0: process (clk) begin if (clk'event and clk = '1') then if (ce0 = '1') then if (we0 = '1') then ram(CONV_INTEGER(addr0_tmp)) := d0; end if; q0 <= ram(CONV_INTEGER(addr0_tmp)); end if; end if; end process; memory_access_guard_1: process (addr1) begin addr1_tmp <= addr1; --synthesis translate_off if (CONV_INTEGER(addr1) > mem_size-1) then addr1_tmp <= (others => '0'); else addr1_tmp <= addr1; end if; --synthesis translate_on end process; p_memory_access_1: process (clk) begin if (clk'event and clk = '1') then if (ce1 = '1') then if (we1 = '1') then ram(CONV_INTEGER(addr1_tmp)) := d1; end if; q1 <= ram(CONV_INTEGER(addr1_tmp)); end if; end if; end process; end rtl; Library IEEE; use IEEE.std_logic_1164.all; entity my_video_filter_line_buffers_val_1 is generic ( DataWidth : INTEGER := 8; AddressRange : INTEGER := 5760; AddressWidth : INTEGER := 13); port ( reset : IN STD_LOGIC; clk : IN STD_LOGIC; address0 : IN STD_LOGIC_VECTOR(AddressWidth - 1 DOWNTO 0); ce0 : IN STD_LOGIC; we0 : IN STD_LOGIC; d0 : IN STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); q0 : OUT STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); address1 : IN STD_LOGIC_VECTOR(AddressWidth - 1 DOWNTO 0); ce1 : IN STD_LOGIC; we1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0); q1 : OUT STD_LOGIC_VECTOR(DataWidth - 1 DOWNTO 0)); end entity; architecture arch of my_video_filter_line_buffers_val_1 is component my_video_filter_line_buffers_val_1_ram is port ( clk : IN STD_LOGIC; addr0 : IN STD_LOGIC_VECTOR; ce0 : IN STD_LOGIC; d0 : IN STD_LOGIC_VECTOR; we0 : IN STD_LOGIC; q0 : OUT STD_LOGIC_VECTOR; addr1 : IN STD_LOGIC_VECTOR; ce1 : IN STD_LOGIC; d1 : IN STD_LOGIC_VECTOR; we1 : IN STD_LOGIC; q1 : OUT STD_LOGIC_VECTOR); end component; begin my_video_filter_line_buffers_val_1_ram_U : component my_video_filter_line_buffers_val_1_ram port map ( clk => clk, addr0 => address0, ce0 => ce0, d0 => d0, we0 => we0, q0 => q0, addr1 => address1, ce1 => ce1, d1 => d1, we1 => we1, q1 => q1); end architecture;

library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.usb_pkg.all; use work.io_bus_pkg.all; use work.mem_bus_pkg.all; library unisim; use unisim.vcomponents.all; entity usb_controller is generic ( g_tag : std_logic_vector(7 downto 0) := X"55" ); port ( ulpi_clock : in std_logic; ulpi_reset : in std_logic; -- ULPI Interface ULPI_DATA : inout std_logic_vector(7 downto 0); ULPI_DIR : in std_logic; ULPI_NXT : in std_logic; ULPI_STP : out std_logic; -- LED interface usb_busy : out std_logic; -- register interface bus sys_clock : in std_logic; sys_reset : in std_logic; sys_mem_req : out t_mem_req; sys_mem_resp: in t_mem_resp; sys_io_req : in t_io_req; sys_io_resp : out t_io_resp ); end usb_controller; architecture wrap of usb_controller is signal nano_addr : unsigned(7 downto 0); signal nano_write : std_logic; signal nano_read : std_logic; signal nano_wdata : std_logic_vector(15 downto 0); signal nano_rdata : std_logic_vector(15 downto 0); signal stall : std_logic := '0'; signal rx_pid : std_logic_vector(3 downto 0) := X"0"; signal rx_token : std_logic_vector(10 downto 0) := (others => '0'); signal rx_valid_token : std_logic := '0'; signal rx_valid_handsh : std_logic := '0'; signal rx_valid_packet : std_logic := '0'; signal rx_error : std_logic := '0'; signal rx_user_valid : std_logic := '0'; signal rx_user_start : std_logic := '0'; signal rx_user_data : std_logic_vector(7 downto 0) := X"12"; signal tx_busy : std_logic; signal tx_ack : std_logic; signal tx_send_token : std_logic; signal tx_send_handsh : std_logic; signal tx_pid : std_logic_vector(3 downto 0); signal tx_token : std_logic_vector(10 downto 0); signal tx_send_data : std_logic; signal tx_no_data : std_logic; signal tx_user_data : std_logic_vector(7 downto 0); signal tx_user_last : std_logic; signal tx_user_next : std_logic; signal tx_length : unsigned(10 downto 0); signal transferred : unsigned(10 downto 0); -- cmd interface signal cmd_addr : std_logic_vector(3 downto 0); signal cmd_valid : std_logic; signal cmd_write : std_logic; signal cmd_wdata : std_logic_vector(15 downto 0); signal cmd_ack : std_logic; signal cmd_ready : std_logic; signal sys_buf_addr : std_logic_vector(10 downto 0); signal sys_buf_en : std_logic; signal sys_buf_we : std_logic; signal sys_buf_wdata : std_logic_vector(7 downto 0); signal sys_buf_rdata : std_logic_vector(7 downto 0); signal ulpi_buf_addr : std_logic_vector(10 downto 0); signal ulpi_buf_en : std_logic; signal ulpi_buf_we : std_logic; signal ulpi_buf_wdata : std_logic_vector(7 downto 0); signal ulpi_buf_rdata : std_logic_vector(7 downto 0); -- low level signal tx_data : std_logic_vector(7 downto 0) := X"00"; signal tx_last : std_logic := '0'; signal tx_valid : std_logic := '0'; signal tx_start : std_logic := '0'; signal tx_next : std_logic := '0'; signal tx_chirp_start : std_logic; signal tx_chirp_level : std_logic; signal tx_chirp_end : std_logic; signal rx_data : std_logic_vector(7 downto 0); signal status : std_logic_vector(7 downto 0); signal rx_last : std_logic; signal rx_valid : std_logic; signal rx_store : std_logic; signal rx_register : std_logic; signal reg_read : std_logic := '0'; signal reg_write : std_logic := '0'; signal reg_ack : std_logic; signal reg_addr : std_logic_vector(5 downto 0); signal reg_wdata : std_logic_vector(7 downto 0); signal speed : std_logic_vector(1 downto 0) := "10"; -- TODO! begin i_nano: entity work.nano port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_write => nano_write, io_read => nano_read, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- system interface (to write code into the nano) sys_clock => sys_clock, sys_reset => sys_reset, sys_io_req => sys_io_req, sys_io_resp => sys_io_resp ); i_regs: entity work.usb_io_bank port map ( clock => ulpi_clock, reset => ulpi_reset, -- i/o interface io_addr => nano_addr, io_read => nano_read, io_write => nano_write, io_wdata => nano_wdata, io_rdata => nano_rdata, stall => stall, -- memory controller mem_ready => cmd_ready, transferred => transferred, -- Register access reg_addr => reg_addr, reg_read => reg_read, reg_write => reg_write, reg_ack => reg_ack, reg_wdata => reg_wdata, reg_rdata => rx_data, status => status, -- I/O pins from RX rx_pid => rx_pid, rx_token => rx_token, rx_valid_token => rx_valid_token, rx_valid_handsh => rx_valid_handsh, rx_valid_packet => rx_valid_packet, rx_error => rx_error, -- I/O pins to TX tx_pid => tx_pid, tx_token => tx_token, tx_send_token => tx_send_token, tx_send_handsh => tx_send_handsh, tx_send_data => tx_send_data, tx_length => tx_length, tx_no_data => tx_no_data, tx_ack => tx_ack, tx_chirp_start => tx_chirp_start, tx_chirp_end => tx_chirp_end, tx_chirp_level => tx_chirp_level ); i_bridge_to_mem_ctrl: entity work.bridge_to_mem_ctrl port map ( ulpi_clock => ulpi_clock, ulpi_reset => ulpi_reset, nano_addr => nano_addr, nano_write => nano_write, nano_wdata => nano_wdata, sys_clock => sys_clock, sys_reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack ); i_memctrl: entity work.usb_memory_ctrl generic map ( g_tag => g_tag ) port map ( clock => sys_clock, reset => sys_reset, -- cmd interface cmd_addr => cmd_addr, cmd_valid => cmd_valid, cmd_write => cmd_write, cmd_wdata => cmd_wdata, cmd_ack => cmd_ack, cmd_ready => cmd_ready, -- BRAM interface ram_addr => sys_buf_addr, ram_en => sys_buf_en, ram_we => sys_buf_we, ram_wdata => sys_buf_wdata, ram_rdata => sys_buf_rdata, -- memory interface mem_req => sys_mem_req, mem_resp => sys_mem_resp ); i_buf_ram: RAMB16_S9_S9 port map ( CLKA => sys_clock, SSRA => sys_reset, ENA => sys_buf_en, WEA => sys_buf_we, ADDRA => sys_buf_addr, DIA => sys_buf_wdata, DIPA => "0", DOA => sys_buf_rdata, CLKB => ulpi_clock, SSRB => ulpi_reset, ENB => ulpi_buf_en, WEB => ulpi_buf_we, ADDRB => ulpi_buf_addr, DIB => ulpi_buf_wdata, DIPB => "0", DOB => ulpi_buf_rdata ); i_buf_ctrl: entity work.rxtx_to_buf port map ( clock => ulpi_clock, reset => ulpi_reset, -- transferred length transferred => transferred, -- bram interface ram_addr => ulpi_buf_addr, ram_wdata => ulpi_buf_wdata, ram_rdata => ulpi_buf_rdata, ram_we => ulpi_buf_we, ram_en => ulpi_buf_en, -- Interface from RX user_rx_valid => rx_user_valid, user_rx_start => rx_user_start, user_rx_data => rx_user_data, user_rx_last => rx_last, -- Interface to TX send_data => tx_send_data, last_addr => tx_length, no_data => tx_no_data, user_tx_data => tx_user_data, user_tx_last => tx_user_last, user_tx_next => tx_user_next ); i_tx: entity work.ulpi_tx port map ( clock => ulpi_clock, reset => ulpi_reset, -- Bus Interface tx_start => tx_start, tx_last => tx_last, tx_valid => tx_valid, tx_next => tx_next, tx_data => tx_data, -- Status speed => speed, status => status, busy => tx_busy, tx_ack => tx_ack, -- Interface to send tokens send_token => tx_send_token, send_handsh => tx_send_handsh, pid => tx_pid, token => tx_token, -- Interface to send data packets send_data => tx_send_data, no_data => tx_no_data, user_data => tx_user_data, user_last => tx_user_last, user_next => tx_user_next, -- Interface to read/write registers and reset packets send_reset_data => tx_chirp_start, reset_data => tx_chirp_level, reset_last => tx_chirp_end ); i_rx: entity work.ulpi_rx generic map ( g_allow_token => false ) port map ( clock => ulpi_clock, reset => ulpi_reset, rx_data => rx_data, rx_last => rx_last, rx_valid => rx_valid, rx_store => rx_store, pid => rx_pid, token => rx_token, valid_token => rx_valid_token, valid_handsh => rx_valid_handsh, valid_packet => rx_valid_packet, data_out => rx_user_data, data_valid => rx_user_valid, data_start => rx_user_start, error => rx_error ); i_bus: entity work.ulpi_bus port map ( clock => ulpi_clock, reset => ulpi_reset, ULPI_DATA => ULPI_DATA, ULPI_DIR => ULPI_DIR, ULPI_NXT => ULPI_NXT, ULPI_STP => ULPI_STP, status => status, -- register interface reg_read => reg_read, reg_write => reg_write, reg_address => reg_addr, reg_wdata => reg_wdata, reg_ack => reg_ack, -- stream interface tx_data => tx_data, tx_last => tx_last, tx_valid => tx_valid, tx_start => tx_start, tx_next => tx_next, rx_data => rx_data, rx_last => rx_last, rx_register => rx_register, rx_store => rx_store, rx_valid => rx_valid ); end wrap;

-- Copyright 1986-2017 Xilinx, Inc. All Rights Reserved. -- -------------------------------------------------------------------------------- -- Tool Version: Vivado v.2017.2 (win64) Build 1909853 Thu Jun 15 18:39:09 MDT 2017 -- Date : Tue Sep 19 09:38:22 2017 -- Host : DarkCube running 64-bit major release (build 9200) -- Command : write_vhdl -force -mode synth_stub -- c:/Users/markb/Source/Repos/FPGA_Sandbox/RecComp/Lab1/embedded_lab_2/embedded_lab_2.srcs/sources_1/bd/zynq_design_1/ip/zynq_design_1_rst_ps7_0_100M_0/zynq_design_1_rst_ps7_0_100M_0_stub.vhdl -- Design : zynq_design_1_rst_ps7_0_100M_0 -- Purpose : Stub declaration of top-level module interface -- Device : xc7z020clg484-1 -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; entity zynq_design_1_rst_ps7_0_100M_0 is Port ( slowest_sync_clk : in STD_LOGIC; ext_reset_in : in STD_LOGIC; aux_reset_in : in STD_LOGIC; mb_debug_sys_rst : in STD_LOGIC; dcm_locked : in STD_LOGIC; mb_reset : out STD_LOGIC; bus_struct_reset : out STD_LOGIC_VECTOR ( 0 to 0 ); peripheral_reset : out STD_LOGIC_VECTOR ( 0 to 0 ); interconnect_aresetn : out STD_LOGIC_VECTOR ( 0 to 0 ); peripheral_aresetn : out STD_LOGIC_VECTOR ( 0 to 0 ) ); end zynq_design_1_rst_ps7_0_100M_0; architecture stub of zynq_design_1_rst_ps7_0_100M_0 is attribute syn_black_box : boolean; attribute black_box_pad_pin : string; attribute syn_black_box of stub : architecture is true; attribute black_box_pad_pin of stub : architecture is "slowest_sync_clk,ext_reset_in,aux_reset_in,mb_debug_sys_rst,dcm_locked,mb_reset,bus_struct_reset[0:0],peripheral_reset[0:0],interconnect_aresetn[0:0],peripheral_aresetn[0:0]"; attribute x_core_info : string; attribute x_core_info of stub : architecture is "proc_sys_reset,Vivado 2017.2"; begin end;

-- 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: tc3141.vhd,v 1.2 2001-10-26 16:29:52 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c05s02b02x00p10n01i03141ent_a IS generic ( g1 : real := 22.0 ); END c05s02b02x00p10n01i03141ent_a; ARCHITECTURE c05s02b02x00p10n01i03141arch_a OF c05s02b02x00p10n01i03141ent_a IS BEGIN TESTING: PROCESS BEGIN assert NOT( g1 = 22.0 ) report "***PASSED TEST: c05s02b02x00p10n01i03141" severity NOTE; assert ( g1 = 22.0 ) report "***FAILED TEST: c05s02b02x00p10n01i03141 - The formal generics take on implicit OPENs." severity ERROR; wait; END PROCESS TESTING; END c05s02b02x00p10n01i03141arch_a; -- ENTITY c05s02b02x00p10n01i03141ent IS END c05s02b02x00p10n01i03141ent; ARCHITECTURE c05s02b02x00p10n01i03141arch OF c05s02b02x00p10n01i03141ent IS component c05s02b02x00p10n01i03141ent_a end component; for comp1 : c05s02b02x00p10n01i03141ent_a use entity work.c05s02b02x00p10n01i03141ent_a(c05s02b02x00p10n01i03141arch_a); BEGIN comp1 : c05s02b02x00p10n01i03141ent_a; END c05s02b02x00p10n01i03141arch; configuration c05s02b02x00p10n01i03141_cfg of c05s02b02x00p10n01i03141ent is for c05s02b02x00p10n01i03141arch end for; end c05s02b02x00p10n01i03141_cfg;

-- This testbench fails with GHDL 0.29 and with GHDL svn_2013-02-13. library ieee; use ieee.std_logic_1164.all; entity clkgen is -- NOTE: Removing the default value makes the testbench work as expected. port ( b: out std_ulogic := '0' ); end entity; architecture arch of clkgen is signal a: std_ulogic; begin a <= '0', '1' after 10 ns, '0' after 20 ns; b <= a; end architecture; library ieee; use ieee.std_logic_1164.all; entity tb is end entity; architecture arch of tb is -- NOTE: Declaring C as std_ulogic makes the testbench work as expected. signal c: std_logic; begin u0: entity work.clkgen port map ( b => c ); process begin wait for 1 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait until c = '1' for 50 ns; -- This is ok with GHDL 0.29. assert c = '1' severity failure; wait until c = '0' for 50 ns; if c = '0' then report "good: C is '0' as expected"; else -- This fails with GHDL 0.29. report "BAD: C is not '0'" severity failure; end if; wait; end process; end architecture;

library ieee; use IEEE.std_logic_1164.all; use IEEE.numeric_std.all; entity edge_extender is generic ( NUM_CYCLES : integer := 32 ); port ( clk : in std_logic; reset : in std_logic; interrupt_in : in std_logic; interrupt_out : out std_logic ); end entity edge_extender; architecture rtl of edge_extender is signal register_bank : std_logic_vector(NUM_CYCLES-1 downto 0); begin gen_reg_bank : for i in 1 to NUM_CYCLES-1 generate process(clk) begin if rising_edge(clk) then if reset = '1' then register_bank(i) <= '0'; else register_bank(i) <= register_bank(i-1); end if; end if; end process; end generate gen_reg_bank; process(clk) begin if rising_edge(clk) then if reset = '1' then register_bank(0) <= '0'; else register_bank(0) <= interrupt_in; end if; end if; end process; interrupt_out <= '1' when register_bank /= std_logic_vector(to_unsigned(0, NUM_CYCLES)) else '0'; end architecture rtl;

library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity mem32k is generic ( simulation : boolean := false ); port ( clock : in std_logic; reset : in std_logic; address : in std_logic_vector(26 downto 0); request : in std_logic; mwrite : in std_logic; wdata : in std_logic_vector(7 downto 0); rdata : out std_logic_vector(7 downto 0); rack : out std_logic; dack : out std_logic; claimed : out std_logic ); attribute keep_hierarchy : string; attribute keep_hierarchy of mem32k : entity is "yes"; end mem32k; architecture gideon of mem32k is subtype t_byte is std_logic_vector(7 downto 0); type t_byte_array is array(natural range <>) of t_byte; signal my_mem : t_byte_array(0 to 32767); signal claimed_i : std_logic; signal do_write : std_logic; attribute ram_style : string; attribute ram_style of my_mem : signal is "block"; begin claimed_i <= '1' when address(26 downto 15) = "000000000000" else '0'; claimed <= claimed_i; rack <= claimed_i and request; do_write <= claimed_i and request and mwrite; -- synthesis translate_off model: if simulation generate mram: entity work.bram_model_8sp generic map("intram", 15) -- 32k port map ( CLK => clock, SSR => reset, EN => request, WE => do_write, ADDR => address(14 downto 0), DI => wdata, DO => rdata ); end generate; -- synthesis translate_on process(clock) begin if rising_edge(clock) then if not simulation then rdata <= my_mem(to_integer(unsigned(address(14 downto 0)))); else rdata <= (others => 'Z'); end if; dack <= claimed_i and request; if do_write='1' then my_mem(to_integer(unsigned(address(14 downto 0)))) <= wdata; end if; end if; end process; end gideon;

---------------------------------------------------------------------------------- -- Responsáveis: Danillo Neves -- Luiz Gustavo -- Rodrigo Guimarães -- Ultima mod.: 03/jun/2017 -- Nome do Módulo: TestBank do Banco de Registradores -- Descrição: TestBank para o Conjunto de registradores com largura de -- palavra parametrizável e com habilitação ---------------------------------------------------------------------------------- ---------------------------------- -- Importando a biblioteca IEEE e especificando o uso dos estados lógicos -- padrão ---------------------------------- LIBRARY ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; ---------------------------------- -- Definiçao da entidade ---------------------------------- entity RG_tb is Generic (DATA_WIDTH_GB : natural := 32; ADDRESS_WIDTH_GB : natural := 5; AMOUNT_REG_GB : natural := 32); end RG_tb; ---------------------------------- -- Descritivo da operacionalidade da entidade ---------------------------------- architecture RG_tb_Op of RG_tb is -- Componente descrito no proprio arquivo *.vhd component RegBank is Generic (DATA_WIDTH : natural := DATA_WIDTH_GB; ADDRESS_WIDTH : natural := ADDRESS_WIDTH_GB; AMOUNT_REG : natural := AMOUNT_REG_GB); Port (clk, wren : in std_logic; radd1, radd2 : in std_logic_vector(ADDRESS_WIDTH - 1 downto 0); wadd : in std_logic_vector(ADDRESS_WIDTH - 1 downto 0); wdata : in std_logic_vector(DATA_WIDTH - 1 downto 0); rdata1, rdata2: out std_logic_vector(DATA_WIDTH - 1 downto 0)); end component; type vector_array is array (natural range <>) of std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0); type vector_array2 is array (natural range <>) of std_logic_vector(DATA_WIDTH_GB - 1 downto 0); -- Clock e periodo de mudanca signal CLK : std_logic := '0'; constant PERIOD : time := 25 us; constant PAUSA : time := 24 us; -- Manipuladores do banco de registradores signal WREN : std_logic; signal RADD1, RADD2 : std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0); signal WADD : std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0); signal WDATA : std_logic_vector(DATA_WIDTH_GB - 1 downto 0); signal RDATA1, RDATA2 : std_logic_vector(DATA_WIDTH_GB - 1 downto 0); begin -- Gerar clock CLK <= not(CLK) after PERIOD; -- Manipulador do Banco de Registradores RB_TB: RegBank port map(CLK, WREN, RADD1, RADD2, WADD, WDATA, RDATA1, RDATA2); -- Teste em si teste: process variable init0 : std_logic := '0'; variable init1 : std_logic_vector(ADDRESS_WIDTH_GB - 1 downto 0) := (others => '0'); variable init2 : std_logic_vector(DATA_WIDTH_GB - 1 downto 0) := (others => '0'); variable ender : vector_array(0 to 7); variable valor : vector_array2(0 to 15); begin -- Inicializaçao para o teste WREN <= init0; RADD1 <= init1; RADD2 <= init1; WADD <= init1; WDATA <= init2; RDATA1 <= init2; RDATA2 <= init2; -- Valores aleatorios para escrita valor(00) := x"00025900"; valor(01) := x"00026797"; valor(02) := x"00092430"; valor(03) := x"00059664"; valor(04) := x"00008572"; valor(05) := x"00004416"; valor(06) := x"00000016"; valor(07) := x"00030581"; valor(08) := x"00006963"; valor(09) := x"00009871"; valor(10) := x"00091257"; valor(11) := x"00082022"; valor(12) := x"00089633"; valor(13) := x"00058236"; valor(14) := x"00052965"; valor(15) := x"00000001"; -- Teste com WREN em '1' e em '0' for enable in std_logic range '1' downto '0' loop WREN <= enable; -- Escrevendo valores nos registradores for valorAtri in valor'range loop WDATA <= valor(valorAtri); -- Acesso ao endereco para escrita, para todos os registradores -- incluindo o $zero (o mesmo nao deve ser alterado) for endereco in 0 to AMOUNT_REG_GB loop WADD <= std_logic_vector(to_signed(endereco, WADD'length)); report "Com WREN = " & std_logic'image(WREN) severity NOTE; report "Escreveu-se -> " & integer'image(to_integer(unsigned(WADD))) & " no end. -> " & integer'image(to_integer(unsigned(WDATA))) severity NOTE; wait for 2 * PERIOD; -- Testando leitura, com e sem a habilitacao do WREN -- com RADD1 e RADD2 para todas as possibilidades; -- Considera-se leitura e escrita para o mesmo registrador for leitura1 in 0 to AMOUNT_REG_GB loop RADD1 <= std_logic_vector(to_signed(leitura1, RADD1'length)); for leitura2 in 0 to AMOUNT_REG_GB loop RADD2 <= std_logic_vector(to_signed(leitura2, RADD2'length)); report "Com WREN = " & std_logic'image(WREN) severity NOTE; report "Leu-se -> " & integer'image(to_integer(unsigned(RDATA1))) & " do end. -> " & integer'image(to_integer(unsigned(RADD1))) severity NOTE; report "Leu-se -> " & integer'image(to_integer(unsigned(RDATA2))) & " do end. -> " & integer'image(to_integer(unsigned(RADD2))) severity NOTE; wait for 2 * PERIOD; end loop; end loop; end loop; end loop; end loop; end process teste; end architecture RG_tb_Op;

-- 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: tc2790.vhd,v 1.2 2001-10-26 16:30:22 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- entity CONSTANT is end CONSTANT; ENTITY c13s09b00x00p99n01i02790ent IS END c13s09b00x00p99n01i02790ent; ARCHITECTURE c13s09b00x00p99n01i02790arch OF c13s09b00x00p99n01i02790ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s09b00x00p99n01i02790 - Reserved word CONSTANT can not be used as an entity name." severity ERROR; wait; END PROCESS TESTING; END c13s09b00x00p99n01i02790arch;

library ieee; use ieee.std_logic_1164.all; package arch_defs is subtype byte_t is std_logic_vector( 7 downto 0); subtype half_t is std_logic_vector(15 downto 0); subtype word_t is std_logic_vector(31 downto 0); subtype addr_t is std_logic_vector(31 downto 0); subtype intaddr_t is std_logic_vector(31 downto 0); subtype addrdiff_t is std_logic_vector(31 downto 0); subtype ctrl_t is std_logic; subtype ctrl_memwidth_t is std_logic_vector(1 downto 0); subtype instruction_t is word_t; subtype mask_t is word_t; subtype reg_t is std_logic_vector(4 downto 0); subtype opcode_t is std_logic_vector(5 downto 0); subtype func_t is std_logic_vector(5 downto 0); function is_type_r(instr: instruction_t) return boolean; function is_type_j(instr: instruction_t) return boolean; function is_type_I(instr: instruction_t) return boolean; function J(op : std_logic_vector) return std_logic_vector; function I(op : std_logic_vector; rs : std_logic_vector := "-----"; rt :std_logic_vector := "-----") return std_logic_vector; function R(op : std_logic_vector := "000000"; rs : std_logic_vector := "-----"; rt : std_logic_vector := "-----"; rd : std_logic_vector := "-----";shift : std_logic_vector := "00000"; func : std_logic_vector(5 downto 0)) return std_logic_vector; function word(w : word_t) return word_t; function half(w : word_t) return half_t; function byte(w : word_t) return byte_t; constant WIDTH_NONE : ctrl_memwidth_t := "00"; constant WIDTH_BYTE : ctrl_memwidth_t := "01"; constant WIDTH_HALF : ctrl_memwidth_t := "10"; constant WIDTH_WORD : ctrl_memwidth_t := "11"; type alu_op_t is ( ALU_ADD, ALU_ADDU, ALU_SUB, ALU_SUBU, ALU_AND, ALU_OR, ALU_NOR, ALU_XOR, ALU_LU, ALU_SLL, ALU_SRL, ALU_SRA, ALU_MULT, ALU_MULTU, ALU_DIV, ALU_DIVU, ALU_MFHI, ALU_MFLO, ALU_MTHI, ALU_MTLO, ALU_SLT, ALU_SLTU, -- TODO zero extend or sign extent? ALU_EQ, ALU_NE, ALU_LEZ, ALU_LTZ, ALU_GTZ, ALU_GEZ ); subtype traps_t is std_logic_vector(7 downto 0); constant TRAP_NONE : traps_t := X"00"; constant TRAP_DIVERROR : traps_t := X"01"; constant TRAP_OVERFLOW : traps_t := X"02"; constant TRAP_SEGFAULT : traps_t := X"04"; constant TRAP_BREAKPOINT : traps_t := X"08"; constant TRAP_SYSCALL : traps_t := X"10"; constant TRAP_EPE : traps_t := X"20"; constant TRAP_UNIMPLEMENTED : traps_t := X"40"; type exception_config_t is ( EXCEPTIONS_IGNORE -- Bad idea! --EXCEPTIONS_HALT,-- e.g. light a red LED and stop fetching new instructions --EXCEPTIONS_RESET-- reboot --EXCEPTIONS_TRAP -- invoke user-programmable exception handlers ); -- Taken from https://opencores.org/project,plasma,opcodes -- And http://web.cse.ohio-state.edu/~crawfis.3/cse675-02/Slides/MIPS%20Instruction%20Set.pdf -- 32 bit defines constant ZERO : word_t := X"00000000"; constant HI_Z : word_t := (others => 'Z'); constant NEG_ONE : word_t := not ZERO; constant INT_MIN : word_t := X"8000_0000"; constant INT_MAX : word_t := X"7fff_ffff"; constant DONT_CARE : word_t := (others => 'X'); -- Register file constant R0 : reg_t := B"0_0000"; -- $zero constant R1 : reg_t := B"0_0001"; alias AT is R1; constant R2 : reg_t := B"0_0010"; alias v0 is R2; constant R3 : reg_t := B"0_0011"; alias v1 is R3; constant R4 : reg_t := B"0_0100"; alias a0 is R4; constant R5 : reg_t := B"0_0101"; alias a1 is R5; constant R6 : reg_t := B"0_0110"; alias a2 is R6; constant R7 : reg_t := B"0_0111"; alias a3 is R7; constant R8 : reg_t := B"0_1000"; alias t0 is R8; constant R9 : reg_t := B"0_1001"; alias t1 is R9; constant R10 : reg_t := B"0_1010"; alias t2 is R10; constant R11 : reg_t := B"0_1011"; alias t3 is R11; constant R12 : reg_t := B"0_1100"; alias t4 is R12; constant R13 : reg_t := B"0_1101"; alias t5 is R13; constant R14 : reg_t := B"0_1110"; alias t6 is R14; constant R15 : reg_t := B"0_1111"; alias t7 is R15; constant R16 : reg_t := B"1_0000"; alias s0 is R16; constant R17 : reg_t := B"1_0001"; alias s1 is R17; constant R18 : reg_t := B"1_0010"; alias s2 is R18; constant R19 : reg_t := B"1_0011"; alias s3 is R19; constant R20 : reg_t := B"1_0100"; alias s4 is R20; constant R21 : reg_t := B"1_0101"; alias s5 is R21; constant R22 : reg_t := B"1_0110"; alias s6 is R22; constant R23 : reg_t := B"1_0111"; alias s7 is R23; constant R24 : reg_t := B"1_1000"; alias t8 is R24; constant R25 : reg_t := B"1_1001"; alias t9 is R25; constant R26 : reg_t := B"1_1010"; alias k0 is R26; constant R27 : reg_t := B"1_1011"; alias k1 is R27; constant R28 : reg_t := B"1_1100"; alias gp is R28; constant R29 : reg_t := B"1_1101"; alias sp is R29; constant R30 : reg_t := B"1_1110"; alias fp is R30; constant R31 : reg_t := B"1_1111"; alias ra is R31; constant VGA_PIXELFREQ : natural := 25175*1000; end arch_defs; package body arch_defs is function is_type_r(instr: instruction_t) return boolean is begin return instr(31 downto 26) = "000000"; end is_type_r; function is_type_j(instr: instruction_t) return boolean is begin return instr(31 downto 26) = "000010" or instr(31 downto 26) = "000011"; end is_type_j; function is_type_i(instr: instruction_t) return boolean is begin return not is_type_j(instr) and not is_type_r(instr); end is_type_i; function J(op : std_logic_vector) return std_logic_vector is begin return op & (31-6 downto 0 => '-'); end J; function I(op : std_logic_vector; rs : std_logic_vector := "-----"; rt :std_logic_vector := "-----") return std_logic_vector is begin return op & rs & rt & (15 downto 0 => '-'); end I; function R(op : std_logic_vector := "000000"; rs : std_logic_vector := "-----"; rt : std_logic_vector := "-----"; rd : std_logic_vector := "-----";shift : std_logic_vector := "00000"; func : std_logic_vector(5 downto 0)) return std_logic_vector is begin return op & (14 downto 0 => '-') & shift & func; end R; function word(w : word_t) return word_t is begin return w(31 downto 0); end function; function half(w : word_t) return half_t is begin return w(15 downto 0); end function; function byte(w : word_t) return byte_t is begin return w( 7 downto 0); end function; -- ALU constant OP_ADD : mask_t := R(func => "100000"); constant OP_ADDU : mask_t := R(func => "100001"); constant OP_AND : mask_t := R(func => "100100"); constant OP_NOR : mask_t := R(func => "100111"); constant OP_OR : mask_t := R(func => "100101"); constant OP_SLT : mask_t := R(func => "101010"); constant OP_SLTU : mask_t := R(func => "101011"); constant OP_SUB : mask_t := R(func => "100010"); constant OP_SUBU : mask_t := R(func => "100011"); constant OP_XOR : mask_t := R(func => "100110"); constant OP_ADDI : mask_t := I(op => "001000"); constant OP_ADDIU : mask_t := I(op => "001001"); constant OP_ANDI : mask_t := I(op => "001100"); constant OP_LUI : mask_t := I(op => "001111"); constant OP_ORI : mask_t := I(op => "001101"); constant OP_SLTI : mask_t := I(op => "001010"); constant OP_SLTIU : mask_t := I(op => "001011"); constant OP_XORI : mask_t := I(op => "001110"); -- Shifter constant OP_SLL : mask_t := R(shift => "-----", func => "000000"); constant OP_SLLV : mask_t := R(shift => "00000", func => "000100"); constant OP_SRA : mask_t := R(shift => "-----", func => "000011"); constant OP_SRAV : mask_t := R(shift => "00000", func => "000111"); constant OP_SRL : mask_t := R(shift => "-----", func => "000010"); constant OP_SRLV : mask_t := R(shift => "00000", func => "000110"); -- Multiply and Divide constant OP_DIV : mask_t := R(rd => "00000", func => "011010"); constant OP_DIVU : mask_t := R(rd => "00000", func => "011011"); constant OP_MFHI : mask_t := R(rs => "00000", rt => "00000", func => "010000"); constant OP_MFLO : mask_t := R(rs => "00000", rt => "00000", func => "010010"); constant OP_MTHI : mask_t := R(rt => "00000", rd => "00000", func => "010001"); constant OP_MTLO : mask_t := R(rt => "00000", rd => "00000", func => "010011"); constant OP_MULT : mask_t := R(rd => "00000", func => "011000"); constant OP_MULTU : mask_t := R(rd => "00000", func => "011001"); -- Branch constant OP_BEQ : mask_t := I(op => "000100"); constant OP_BGEZ : mask_t := I(op => "000001", rt => "00001"); constant OP_BGEZAL: mask_t := I(op => "000001", rt => "10001"); constant OP_BGTZ : mask_t := I(op => "000111", rt => "00000"); constant OP_BLEZ : mask_t := I(op => "000110", rt => "00000"); constant OP_BLTZ : mask_t := I(op => "000001", rt => "00000"); constant OP_BLTZAL: mask_t := I(op => "000001", rt => "10000"); constant OP_BNE : mask_t := I(op => "000101"); constant OP_J : mask_t := J(op => "000010"); constant OP_JAL : mask_t := J(op => "000011"); constant OP_JR : mask_t := R(rt => R0, func => "001000", rd => R0); constant OP_JALR : mask_t := R(rt => R0, func => "100010"); constant OP_BREAK : mask_t := "000000"&(19 downto 0 => '-')&"001101"; constant OP_MFC0 : mask_t := "010000"&"00000"&(9 downto 0 => '-')&(10 downto 0 => '0'); constant OP_MTC0 : mask_t := "010000"&"00100"&(9 downto 0 => '-')&(10 downto 0 => '0'); constant OP_SYSCALL : mask_t := "000000"&(19 downto 0 => '-')&"001100"; -- Memory Access constant OP_LB : mask_t := I(op => "100000"); constant OP_LBU : mask_t := I(op => "100100"); constant OP_LH : mask_t := I(op => "100001"); constant OP_LHU : mask_t := I(op => "100101"); constant OP_LW : mask_t := I(op => "100011"); constant OP_SB : mask_t := I(op => "101000"); constant OP_SH : mask_t := I(op => "101001"); constant OP_SW : mask_t := I(op => "101011"); end arch_defs;

------------------------------------------------------------------------------- -- -- File: DataPathLatency.vhd -- Author: Tudor Gherman, Robert Bocos -- Original Project: ZmodScopeController -- Date: 20 May 2020 -- ------------------------------------------------------------------------------- -- (c) 2020 Copyright Digilent Incorporated -- All Rights Reserved -- -- This program is free software; distributed under the terms of BSD 3-clause -- license ("Revised BSD License", "New BSD License", or "Modified BSD License") -- -- Redistribution and use in source and binary forms, with or without modification, -- are permitted provided that the following conditions are met: -- -- 1. Redistributions of source code must retain the above copyright notice, this -- list of conditions and the following disclaimer. -- 2. 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. -- 3. Neither the name(s) of the above-listed copyright holder(s) nor the names -- of its contributors may be used to endorse or promote products derived -- from this software without specific prior written permission. -- -- 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 OWNER 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. -- ------------------------------------------------------------------------------- -- -- This module emulates the DataPah.vhd module latency. This operation is -- necessary to test the calibrated outputs in the tb_TestTop top level test bench -- of the ZmodScopeController. -- The FIFO data latency is specified (is it? not sure...) in -- Xilinx pg057 Table 3-26 (Read Port Flags Update Latency Due to a Write Operation) -- Latency = 1 wr_clk + (N + 4) rd_clk (+1 rd_clk) -- The latency is defined in Fig. 3-40 of the same document. A register stage -- corresponds to 0 cycles of latency. Thus, for a latency of 1 wr_clk, 2 register -- stages have to be implemented in the write clock domain to emulate the FIFO write -- latency. An extra cycle needs to be considered for the IDDR primitives in the data -- path. Thus, a total of 3 register stages are added on the write clock domain to -- emulate the DataPath module write domain latency. -- Considering the same definition for the read clock domain latency, N+4+1 -- register stages are added on the read clock domain. library IEEE; use IEEE.STD_LOGIC_1164.ALL; entity DataPathLatency is Generic ( -- FIFO number of synchronization stages kNumFIFO_Stages : integer := 0; -- Channel data width kDataWidth : integer := 14 ); Port ( ZmodDcoClk : in STD_LOGIC; ZmodDcoClkDly : std_logic; doDataIn : in STD_LOGIC_VECTOR (kDataWidth-1 downto 0); doChA_DataOut : out STD_LOGIC_VECTOR (kDataWidth-1 downto 0); doChB_DataOut : out STD_LOGIC_VECTOR (kDataWidth-1 downto 0) ); end DataPathLatency; architecture Behavioral of DataPathLatency is signal doChA_DataIn, doChB_DataIn, doChB_DataInFalling : STD_LOGIC_VECTOR (kDataWidth-1 downto 0); type cDlyArray_t is array (kNumFIFO_Stages+4 downto 0) of std_logic_vector(kDataWidth-1 downto 0); signal cChA_DataDly, cChB_DataDly : cDlyArray_t := (others => (others => '0')); type dDlyArray_t is array (1 downto 0) of std_logic_vector(kDataWidth-1 downto 0); signal dChA_DataDly, dChB_DataDly : dDlyArray_t := (others => (others => '0')); begin -- Emulate IDDR on ChA (sampled on rising edge) ProcIDDR_ChA : process (ZmodDcoClkDly) begin if (rising_edge(ZmodDcoClkDly)) then doChA_DataIn <= doDataIn; end if; end process; -- Emulate IDDR on ChB (sampled on falling edge) ProcIDDR_ChB_Falling : process (ZmodDcoClkDly) begin if (falling_edge(ZmodDcoClkDly)) then doChB_DataInFalling <= doDataIn; end if; end process; ProcIDDR_ChB_Rising : process (ZmodDcoClkDly) begin if (rising_edge(ZmodDcoClkDly)) then doChB_DataIn <= doChB_DataInFalling; end if; end process; --Emulate the D Flip-Flops which are the last stages of the DataPath module ProcDelayDcoClkOut: process (ZmodDcoClk) begin if (rising_edge(ZmodDcoClk)) then doChA_DataOut <= doChA_DataIn; doChB_DataOut <= doChB_DataIn; end if; end process; end Behavioral;

------------------------------------------------------------------------------ -- 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 - 2016, 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 ----------------------------------------------------------------------------- -- Package: libleon3 -- File: libleon3.vhd -- Author: Jiri Gaisler Gaisler Research -- Description: LEON3 internal components ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; library grlib; use grlib.amba.all; library techmap; use techmap.gencomp.all; library gaisler; use gaisler.leon3.all; use gaisler.libiu.all; use gaisler.libcache.all; use gaisler.libfpu.all; use gaisler.mmuiface.all; package libleon3 is component proc3 generic ( hindex : integer := 0; fabtech : integer range 0 to NTECH := 0; memtech : integer := 0; nwindows : integer range 2 to 32 := 8; dsu : integer range 0 to 1 := 0; fpu : integer range 0 to 15 := 0; v8 : integer range 0 to 63 := 0; cp : integer range 0 to 1 := 0; mac : integer range 0 to 1 := 0; pclow : integer range 0 to 2 := 2; notag : integer range 0 to 1 := 0; nwp : integer range 0 to 4 := 0; icen : integer range 0 to 1 := 0; irepl : integer range 0 to 3 := 2; isets : integer range 1 to 4 := 1; ilinesize : integer range 4 to 8 := 4; isetsize : integer range 1 to 256 := 1; isetlock : integer range 0 to 1 := 0; dcen : integer range 0 to 1 := 0; drepl : integer range 0 to 3 := 2; dsets : integer range 1 to 4 := 1; dlinesize : integer range 4 to 8 := 4; dsetsize : integer range 1 to 256 := 1; dsetlock : integer range 0 to 1 := 0; dsnoop : integer range 0 to 7 := 0; ilram : integer range 0 to 2 := 0; ilramsize : integer range 1 to 512 := 1; ilramstart : integer range 0 to 255 := 16#8e#; dlram : integer range 0 to 2 := 0; dlramsize : integer range 1 to 512 := 1; dlramstart : integer range 0 to 255 := 16#8f#; mmuen : integer range 0 to 1 := 0; itlbnum : integer range 2 to 64 := 8; dtlbnum : integer range 2 to 64 := 8; tlb_type : integer range 0 to 3 := 1; tlb_rep : integer range 0 to 1 := 0; lddel : integer range 1 to 2 := 2; disas : integer range 0 to 2 := 0; tbuf : integer range 0 to 128 := 0; pwd : integer range 0 to 2 := 0; -- power-down svt : integer range 0 to 1 := 0; -- single-vector trapping rstaddr : integer := 0; smp : integer range 0 to 15 := 0; -- support SMP systems cached : integer := 0; clk2x : integer := 0; scantest : integer := 0; mmupgsz : integer range 0 to 5 := 0; bp : integer := 1; npasi : integer range 0 to 1 := 0; pwrpsr : integer range 0 to 1 := 0; rex : integer := 0; altwin : integer range 0 to 1 := 0 ); port ( clk : in std_ulogic; rstn : in std_ulogic; holdn : out std_ulogic; ahbi : in ahb_mst_in_type; ahbo : out ahb_mst_out_type; ahbsi : in ahb_slv_in_type; ahbso : in ahb_slv_out_vector; rfi : out iregfile_in_type; rfo : in iregfile_out_type; crami : out cram_in_type; cramo : in cram_out_type; tbi : out tracebuf_in_type; tbo : in tracebuf_out_type; tbi_2p : out tracebuf_2p_in_type; tbo_2p : in tracebuf_2p_out_type; fpi : out fpc_in_type; fpo : in fpc_out_type; cpi : out fpc_in_type; cpo : in fpc_out_type; irqi : in l3_irq_in_type; irqo : out l3_irq_out_type; dbgi : in l3_debug_in_type; dbgo : out l3_debug_out_type; hclk, sclk : in std_ulogic; hclken : in std_ulogic ); end component; component grfpwx generic ( fabtech : integer := 0; memtech : integer := 0; mul : integer range 0 to 3 := 0; pclow : integer range 0 to 2 := 2; dsu : integer range 0 to 1 := 0; disas : integer range 0 to 2 := 0; netlist : integer := 0; index : integer := 0; scantest: integer := 0); port ( rst : in std_ulogic; -- Reset clk : in std_ulogic; holdn : in std_ulogic; -- pipeline hold cpi : in fpc_in_type; cpo : out fpc_out_type; testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; component grlfpwx generic ( tech : integer := 0; pclow : integer range 0 to 2 := 2; dsu : integer range 0 to 1 := 0; disas : integer range 0 to 2 := 0; pipe : integer := 0; netlist : integer := 0; index : integer := 0; scantest: integer := 0 ); port ( rst : in std_ulogic; -- Reset clk : in std_ulogic; holdn : in std_ulogic; -- pipeline hold cpi : in fpc_in_type; cpo : out fpc_out_type; testin: in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; component regfile_3p_l3 generic ( tech : integer := 0; abits : integer := 6; dbits : integer := 8; wrfst : integer := 0; numregs : integer := 64; testen : integer := 0); port ( wclk : in std_ulogic; waddr : in std_logic_vector((abits -1) downto 0); wdata : in std_logic_vector((dbits -1) downto 0); we : in std_ulogic; rclk : in std_ulogic; raddr1 : in std_logic_vector((abits -1) downto 0); re1 : in std_ulogic; rdata1 : out std_logic_vector((dbits -1) downto 0); raddr2 : in std_logic_vector((abits -1) downto 0); re2 : in std_ulogic; rdata2 : out std_logic_vector((dbits -1) downto 0); testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) ); end component; end;

--This should pass context c1 is end context c1; --This should fail context c1 is end context c1; context c1 is end context c1; context c2 is end context c2; context c1 is end context c1;

-- (c) Copyright 1995-2014 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:blk_mem_gen:8.1 -- IP Revision: 0 LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.numeric_std.ALL; ENTITY zynq_1_blk_mem_gen_0_0 IS PORT ( clka : IN STD_LOGIC; wea : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addra : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dina : IN STD_LOGIC_VECTOR(31 DOWNTO 0); douta : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); clkb : IN STD_LOGIC; web : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addrb : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dinb : IN STD_LOGIC_VECTOR(31 DOWNTO 0); doutb : OUT STD_LOGIC_VECTOR(31 DOWNTO 0) ); END zynq_1_blk_mem_gen_0_0; ARCHITECTURE zynq_1_blk_mem_gen_0_0_arch OF zynq_1_blk_mem_gen_0_0 IS ATTRIBUTE DowngradeIPIdentifiedWarnings : string; ATTRIBUTE DowngradeIPIdentifiedWarnings OF zynq_1_blk_mem_gen_0_0_arch: ARCHITECTURE IS "yes"; COMPONENT blk_mem_gen_v8_1 IS GENERIC ( C_FAMILY : STRING; C_XDEVICEFAMILY : STRING; C_ELABORATION_DIR : STRING; C_INTERFACE_TYPE : INTEGER; C_AXI_TYPE : INTEGER; C_AXI_SLAVE_TYPE : INTEGER; C_HAS_AXI_ID : INTEGER; C_AXI_ID_WIDTH : INTEGER; C_MEM_TYPE : INTEGER; C_BYTE_SIZE : INTEGER; C_ALGORITHM : INTEGER; C_PRIM_TYPE : INTEGER; C_LOAD_INIT_FILE : INTEGER; C_INIT_FILE_NAME : STRING; C_INIT_FILE : STRING; C_USE_DEFAULT_DATA : INTEGER; C_DEFAULT_DATA : STRING; C_RST_TYPE : STRING; C_HAS_RSTA : INTEGER; C_RST_PRIORITY_A : STRING; C_RSTRAM_A : INTEGER; C_INITA_VAL : STRING; C_HAS_ENA : INTEGER; C_HAS_REGCEA : INTEGER; C_USE_BYTE_WEA : INTEGER; C_WEA_WIDTH : INTEGER; C_WRITE_MODE_A : STRING; C_WRITE_WIDTH_A : INTEGER; C_READ_WIDTH_A : INTEGER; C_WRITE_DEPTH_A : INTEGER; C_READ_DEPTH_A : INTEGER; C_ADDRA_WIDTH : INTEGER; C_HAS_RSTB : INTEGER; C_RST_PRIORITY_B : STRING; C_RSTRAM_B : INTEGER; C_INITB_VAL : STRING; C_HAS_ENB : INTEGER; C_HAS_REGCEB : INTEGER; C_USE_BYTE_WEB : INTEGER; C_WEB_WIDTH : INTEGER; C_WRITE_MODE_B : STRING; C_WRITE_WIDTH_B : INTEGER; C_READ_WIDTH_B : INTEGER; C_WRITE_DEPTH_B : INTEGER; C_READ_DEPTH_B : INTEGER; C_ADDRB_WIDTH : INTEGER; C_HAS_MEM_OUTPUT_REGS_A : INTEGER; C_HAS_MEM_OUTPUT_REGS_B : INTEGER; C_HAS_MUX_OUTPUT_REGS_A : INTEGER; C_HAS_MUX_OUTPUT_REGS_B : INTEGER; C_MUX_PIPELINE_STAGES : INTEGER; C_HAS_SOFTECC_INPUT_REGS_A : INTEGER; C_HAS_SOFTECC_OUTPUT_REGS_B : INTEGER; C_USE_SOFTECC : INTEGER; C_USE_ECC : INTEGER; C_HAS_INJECTERR : INTEGER; C_SIM_COLLISION_CHECK : STRING; C_COMMON_CLK : INTEGER; C_ENABLE_32BIT_ADDRESS : INTEGER; C_DISABLE_WARN_BHV_COLL : INTEGER; C_DISABLE_WARN_BHV_RANGE : INTEGER; C_USE_BRAM_BLOCK : INTEGER; C_CTRL_ECC_ALGO : STRING ); PORT ( clka : IN STD_LOGIC; rsta : IN STD_LOGIC; ena : IN STD_LOGIC; regcea : IN STD_LOGIC; wea : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addra : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dina : IN STD_LOGIC_VECTOR(31 DOWNTO 0); douta : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); clkb : IN STD_LOGIC; rstb : IN STD_LOGIC; enb : IN STD_LOGIC; regceb : IN STD_LOGIC; web : IN STD_LOGIC_VECTOR(0 DOWNTO 0); addrb : IN STD_LOGIC_VECTOR(8 DOWNTO 0); dinb : IN STD_LOGIC_VECTOR(31 DOWNTO 0); doutb : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); injectsbiterr : IN STD_LOGIC; injectdbiterr : IN STD_LOGIC; sbiterr : OUT STD_LOGIC; dbiterr : OUT STD_LOGIC; rdaddrecc : OUT STD_LOGIC_VECTOR(8 DOWNTO 0); s_aclk : IN STD_LOGIC; s_aresetn : IN STD_LOGIC; s_axi_awid : IN STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_awaddr : IN STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_awlen : IN STD_LOGIC_VECTOR(7 DOWNTO 0); s_axi_awsize : IN STD_LOGIC_VECTOR(2 DOWNTO 0); s_axi_awburst : IN STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_awvalid : IN STD_LOGIC; s_axi_awready : OUT STD_LOGIC; s_axi_wdata : IN STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_wstrb : IN STD_LOGIC_VECTOR(0 DOWNTO 0); s_axi_wlast : IN STD_LOGIC; s_axi_wvalid : IN STD_LOGIC; s_axi_wready : OUT STD_LOGIC; s_axi_bid : OUT STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_bresp : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_bvalid : OUT STD_LOGIC; s_axi_bready : IN STD_LOGIC; s_axi_arid : IN STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_araddr : IN STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_arlen : IN STD_LOGIC_VECTOR(7 DOWNTO 0); s_axi_arsize : IN STD_LOGIC_VECTOR(2 DOWNTO 0); s_axi_arburst : IN STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_arvalid : IN STD_LOGIC; s_axi_arready : OUT STD_LOGIC; s_axi_rid : OUT STD_LOGIC_VECTOR(3 DOWNTO 0); s_axi_rdata : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); s_axi_rresp : OUT STD_LOGIC_VECTOR(1 DOWNTO 0); s_axi_rlast : OUT STD_LOGIC; s_axi_rvalid : OUT STD_LOGIC; s_axi_rready : IN STD_LOGIC; s_axi_injectsbiterr : IN STD_LOGIC; s_axi_injectdbiterr : IN STD_LOGIC; s_axi_sbiterr : OUT STD_LOGIC; s_axi_dbiterr : OUT STD_LOGIC; s_axi_rdaddrecc : OUT STD_LOGIC_VECTOR(8 DOWNTO 0) ); END COMPONENT blk_mem_gen_v8_1; ATTRIBUTE X_CORE_INFO : STRING; ATTRIBUTE X_CORE_INFO OF zynq_1_blk_mem_gen_0_0_arch: ARCHITECTURE IS "blk_mem_gen_v8_1,Vivado 2013.4"; ATTRIBUTE CHECK_LICENSE_TYPE : STRING; ATTRIBUTE CHECK_LICENSE_TYPE OF zynq_1_blk_mem_gen_0_0_arch : ARCHITECTURE IS "zynq_1_blk_mem_gen_0_0,blk_mem_gen_v8_1,{}"; ATTRIBUTE CORE_GENERATION_INFO : STRING; ATTRIBUTE CORE_GENERATION_INFO OF zynq_1_blk_mem_gen_0_0_arch: ARCHITECTURE IS "zynq_1_blk_mem_gen_0_0,blk_mem_gen_v8_1,{x_ipProduct=Vivado 2013.4,x_ipVendor=xilinx.com,x_ipLibrary=ip,x_ipName=blk_mem_gen,x_ipVersion=8.1,x_ipCoreRevision=0,x_ipLanguage=VERILOG,C_FAMILY=zynq,C_XDEVICEFAMILY=zynq,C_ELABORATION_DIR=./,C_INTERFACE_TYPE=0,C_AXI_TYPE=1,C_AXI_SLAVE_TYPE=0,C_HAS_AXI_ID=0,C_AXI_ID_WIDTH=4,C_MEM_TYPE=2,C_BYTE_SIZE=9,C_ALGORITHM=1,C_PRIM_TYPE=1,C_LOAD_INIT_FILE=0,C_INIT_FILE_NAME=no_coe_file_loaded,C_INIT_FILE=NONE,C_USE_DEFAULT_DATA=0,C_DEFAULT_DATA=0,C_RST_TYPE=SYNC,C_HAS_RSTA=0,C_RST_PRIORITY_A=CE,C_RSTRAM_A=0,C_INITA_VAL=0,C_HAS_ENA=0,C_HAS_REGCEA=0,C_USE_BYTE_WEA=0,C_WEA_WIDTH=1,C_WRITE_MODE_A=READ_FIRST,C_WRITE_WIDTH_A=32,C_READ_WIDTH_A=32,C_WRITE_DEPTH_A=512,C_READ_DEPTH_A=512,C_ADDRA_WIDTH=9,C_HAS_RSTB=0,C_RST_PRIORITY_B=CE,C_RSTRAM_B=0,C_INITB_VAL=0,C_HAS_ENB=0,C_HAS_REGCEB=0,C_USE_BYTE_WEB=0,C_WEB_WIDTH=1,C_WRITE_MODE_B=READ_FIRST,C_WRITE_WIDTH_B=32,C_READ_WIDTH_B=32,C_WRITE_DEPTH_B=512,C_READ_DEPTH_B=512,C_ADDRB_WIDTH=9,C_HAS_MEM_OUTPUT_REGS_A=1,C_HAS_MEM_OUTPUT_REGS_B=1,C_HAS_MUX_OUTPUT_REGS_A=0,C_HAS_MUX_OUTPUT_REGS_B=0,C_MUX_PIPELINE_STAGES=0,C_HAS_SOFTECC_INPUT_REGS_A=0,C_HAS_SOFTECC_OUTPUT_REGS_B=0,C_USE_SOFTECC=0,C_USE_ECC=0,C_HAS_INJECTERR=0,C_SIM_COLLISION_CHECK=ALL,C_COMMON_CLK=0,C_ENABLE_32BIT_ADDRESS=0,C_DISABLE_WARN_BHV_COLL=0,C_DISABLE_WARN_BHV_RANGE=0,C_USE_BRAM_BLOCK=0,C_CTRL_ECC_ALGO=NONE}"; ATTRIBUTE X_INTERFACE_INFO : STRING; ATTRIBUTE X_INTERFACE_INFO OF clka: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA CLK"; ATTRIBUTE X_INTERFACE_INFO OF wea: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA WE"; ATTRIBUTE X_INTERFACE_INFO OF addra: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA ADDR"; ATTRIBUTE X_INTERFACE_INFO OF dina: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA DIN"; ATTRIBUTE X_INTERFACE_INFO OF douta: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTA DOUT"; ATTRIBUTE X_INTERFACE_INFO OF clkb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB CLK"; ATTRIBUTE X_INTERFACE_INFO OF web: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB WE"; ATTRIBUTE X_INTERFACE_INFO OF addrb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB ADDR"; ATTRIBUTE X_INTERFACE_INFO OF dinb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB DIN"; ATTRIBUTE X_INTERFACE_INFO OF doutb: SIGNAL IS "xilinx.com:interface:bram:1.0 BRAM_PORTB DOUT"; BEGIN U0 : blk_mem_gen_v8_1 GENERIC MAP ( C_FAMILY => "zynq", C_XDEVICEFAMILY => "zynq", C_ELABORATION_DIR => "./", C_INTERFACE_TYPE => 0, C_AXI_TYPE => 1, C_AXI_SLAVE_TYPE => 0, C_HAS_AXI_ID => 0, C_AXI_ID_WIDTH => 4, C_MEM_TYPE => 2, C_BYTE_SIZE => 9, C_ALGORITHM => 1, C_PRIM_TYPE => 1, C_LOAD_INIT_FILE => 0, C_INIT_FILE_NAME => "no_coe_file_loaded", C_INIT_FILE => "NONE", C_USE_DEFAULT_DATA => 0, C_DEFAULT_DATA => "0", C_RST_TYPE => "SYNC", C_HAS_RSTA => 0, C_RST_PRIORITY_A => "CE", C_RSTRAM_A => 0, C_INITA_VAL => "0", C_HAS_ENA => 0, C_HAS_REGCEA => 0, C_USE_BYTE_WEA => 0, C_WEA_WIDTH => 1, C_WRITE_MODE_A => "READ_FIRST", C_WRITE_WIDTH_A => 32, C_READ_WIDTH_A => 32, C_WRITE_DEPTH_A => 512, C_READ_DEPTH_A => 512, C_ADDRA_WIDTH => 9, C_HAS_RSTB => 0, C_RST_PRIORITY_B => "CE", C_RSTRAM_B => 0, C_INITB_VAL => "0", C_HAS_ENB => 0, C_HAS_REGCEB => 0, C_USE_BYTE_WEB => 0, C_WEB_WIDTH => 1, C_WRITE_MODE_B => "READ_FIRST", C_WRITE_WIDTH_B => 32, C_READ_WIDTH_B => 32, C_WRITE_DEPTH_B => 512, C_READ_DEPTH_B => 512, C_ADDRB_WIDTH => 9, C_HAS_MEM_OUTPUT_REGS_A => 1, C_HAS_MEM_OUTPUT_REGS_B => 1, C_HAS_MUX_OUTPUT_REGS_A => 0, C_HAS_MUX_OUTPUT_REGS_B => 0, C_MUX_PIPELINE_STAGES => 0, C_HAS_SOFTECC_INPUT_REGS_A => 0, C_HAS_SOFTECC_OUTPUT_REGS_B => 0, C_USE_SOFTECC => 0, C_USE_ECC => 0, C_HAS_INJECTERR => 0, C_SIM_COLLISION_CHECK => "ALL", C_COMMON_CLK => 0, C_ENABLE_32BIT_ADDRESS => 0, C_DISABLE_WARN_BHV_COLL => 0, C_DISABLE_WARN_BHV_RANGE => 0, C_USE_BRAM_BLOCK => 0, C_CTRL_ECC_ALGO => "NONE" ) PORT MAP ( clka => clka, rsta => '0', ena => '0', regcea => '0', wea => wea, addra => addra, dina => dina, douta => douta, clkb => clkb, rstb => '0', enb => '0', regceb => '0', web => web, addrb => addrb, dinb => dinb, doutb => doutb, injectsbiterr => '0', injectdbiterr => '0', s_aclk => '0', s_aresetn => '0', s_axi_awid => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), s_axi_awaddr => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), s_axi_awlen => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 8)), s_axi_awsize => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 3)), s_axi_awburst => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 2)), s_axi_awvalid => '0', s_axi_wdata => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), s_axi_wstrb => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 1)), s_axi_wlast => '0', s_axi_wvalid => '0', s_axi_bready => '0', s_axi_arid => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 4)), s_axi_araddr => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 32)), s_axi_arlen => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 8)), s_axi_arsize => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 3)), s_axi_arburst => STD_LOGIC_VECTOR(TO_UNSIGNED(0, 2)), s_axi_arvalid => '0', s_axi_rready => '0', s_axi_injectsbiterr => '0', s_axi_injectdbiterr => '0' ); END zynq_1_blk_mem_gen_0_0_arch;

library verilog; use verilog.vl_types.all; entity F2DSS_ACE_PPE_DPRAM_CTRL is port( PCLK : in vl_logic; PRESETN : in vl_logic; PADDR : in vl_logic_vector(12 downto 0); PSEL : in vl_logic; PENABLE : in vl_logic; PWRITE : in vl_logic; PWDATA : in vl_logic_vector(31 downto 0); PREADY_DPRAM_CTRL: out vl_logic; xfer_din_mux_not_from_RAM: in vl_logic_vector(31 downto 0); keep_bits_31_24 : in vl_logic; keep_bits_7_0 : in vl_logic; RAM_WR_B : in vl_logic; RAM_RD_A : in vl_logic; RAM_RD_B : in vl_logic; RAM_RD_B_hold_en: in vl_logic; RAM_ADDR_A : in vl_logic_vector(8 downto 0); RAM_ADDR_B : in vl_logic_vector(8 downto 0); RAM_ADDRESSES_EQUAL: out vl_logic; RAM_DO_A : out vl_logic_vector(31 downto 0); RAM_DO_B : out vl_logic_vector(31 downto 0); RAM_DO_B_rdhold : out vl_logic_vector(31 downto 0); RAM_RD_B_apbrd_pre: out vl_logic; TEST_MODE : in vl_logic; RB_TEST : in vl_logic; RB_CSBA : in vl_logic; RB_CSBB : in vl_logic; RB_RWBA : in vl_logic; RB_RWBB : in vl_logic; RB_ADA : in vl_logic_vector(8 downto 0); RB_ADB : in vl_logic_vector(8 downto 0); RB_WDA : in vl_logic_vector(31 downto 0); RB_WDB : in vl_logic_vector(31 downto 0); RB_RDA : out vl_logic_vector(31 downto 0); RB_RDB : out vl_logic_vector(31 downto 0) ); end F2DSS_ACE_PPE_DPRAM_CTRL;

entity test is type t is range 0 to 16#f.f#2.; end;

--! --! @file: exercise5_7.vhd --! @brief: --! @author: Antonio Gutierrez --! @date: 2013-10-23 --! --! -------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_all; -------------------------------------- entity hamming_weight_vector is generic port ( x: in std_logic_vector(N-1 downto 0); y: out integer range 0 to N); end entity hamming_weight_vector; -------------------------------------- architecture circuit of hamming_weight_vector is type oneDoneD is array (0 to N) of integer range 0 to N; signal temp: oneDoneD; begin -- initialize count of 1's temp(0) <= 0; -- count number of 1's gen: for i in 1 to N generate temp(i) <= temp(i-1) + 1 when x(i-1) <= '1' else temp(i-1); end generate gen; -- output the number y <= temp(N); end architecture circuit; --------------------------------------

`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 Wkm6jePTcXZSrLXq2Jd+2eDjYQwZwP3qX5rlLbMDOgVBPjNOBNcdGsnCzvFN/pYcPHWGDqRgOsko 5BQ3JkvOGg== `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 Tyb52n7XkiWlDtHJMD41VIlSnRAM3dfYZJ7gTRSdcKL51ynimywbrlnC/YdSO1WPFjHw0C81R16J 60QW4qvPByPWQjuTLTfXX2/T1qYa/e/qV9vQIr3x6zJtHO+KkpxUeoMU1pHYVzUhp9SogzH6UTFl SxbNDrV/OxqLIg4mI/E= `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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