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entity issueD is begin end entity issueD; architecture a of issueD is component c is generic (g : bit_vector); end component c; begin u : c generic map (g => (1 downto 0 => '1')); end architecture a;
entity issueD is begin end entity issueD; architecture a of issueD is component c is generic (g : bit_vector); end component c; begin u : c generic map (g => (1 downto 0 => '1')); end architecture a;
entity issueD is begin end entity issueD; architecture a of issueD is component c is generic (g : bit_vector); end component c; begin u : c generic map (g => (1 downto 0 => '1')); end architecture a;
---------------------------------------------------------------------------------- -- Company: -- Engineer: Ben Oztalay -- -- Create Date: 00:03:20 07/30/2009 -- Design Name: -- Module Name: Comp_ValChk9 - Behavioral -- Project Name: Value Checker -- Target Devices: -- Tool versions: -- Description: A simple component to check if one value (A) is equal to -- another (B). Outputs a one-bit result. 0 for false, 1 for true -- NOTE: Modified in this context to check against a constant value. -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Revision 0.10 - First draft written, no syntax errors occured -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_ARITH.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 Comp_ValChk9 is Port ( A : in STD_LOGIC_VECTOR (3 downto 0); equal : out STD_LOGIC); end Comp_ValChk9; architecture Behavioral of Comp_ValChk9 is begin main : process(A) is begin if A = x"9" then equal <= '1'; else equal <= '0'; end if; end process main; end Behavioral;
-- 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: tc2310.vhd,v 1.2 2001-10-26 16:30:17 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s02b07x00p01n01i02310ent IS END c07s02b07x00p01n01i02310ent; ARCHITECTURE c07s02b07x00p01n01i02310arch OF c07s02b07x00p01n01i02310ent IS BEGIN TESTING: PROCESS -- enumerated types. type SWITCH_LEVEL is ('0', '1', 'X'); -- Local declarations. variable SWITCHV : SWITCH_LEVEL := '0'; BEGIN SWITCHV := ABS SWITCHV; assert FALSE report "***FAILED TEST: c07s02b07x00p01n01i02310 - Unary operator abs is predefined for any numeric type only." severity ERROR; wait; END PROCESS TESTING; END c07s02b07x00p01n01i02310arch;
-- 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: tc2310.vhd,v 1.2 2001-10-26 16:30:17 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s02b07x00p01n01i02310ent IS END c07s02b07x00p01n01i02310ent; ARCHITECTURE c07s02b07x00p01n01i02310arch OF c07s02b07x00p01n01i02310ent IS BEGIN TESTING: PROCESS -- enumerated types. type SWITCH_LEVEL is ('0', '1', 'X'); -- Local declarations. variable SWITCHV : SWITCH_LEVEL := '0'; BEGIN SWITCHV := ABS SWITCHV; assert FALSE report "***FAILED TEST: c07s02b07x00p01n01i02310 - Unary operator abs is predefined for any numeric type only." severity ERROR; wait; END PROCESS TESTING; END c07s02b07x00p01n01i02310arch;
-- 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: tc2310.vhd,v 1.2 2001-10-26 16:30:17 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c07s02b07x00p01n01i02310ent IS END c07s02b07x00p01n01i02310ent; ARCHITECTURE c07s02b07x00p01n01i02310arch OF c07s02b07x00p01n01i02310ent IS BEGIN TESTING: PROCESS -- enumerated types. type SWITCH_LEVEL is ('0', '1', 'X'); -- Local declarations. variable SWITCHV : SWITCH_LEVEL := '0'; BEGIN SWITCHV := ABS SWITCHV; assert FALSE report "***FAILED TEST: c07s02b07x00p01n01i02310 - Unary operator abs is predefined for any numeric type only." severity ERROR; wait; END PROCESS TESTING; END c07s02b07x00p01n01i02310arch;
library ieee; use ieee.std_logic_1164.all; library grlib; use grlib.stdlib.all; library techmap; use techmap.gencomp.all; library stratixiii; use stratixiii.all; library altera; use altera.all; entity adqout is port( clk : in std_logic; -- clk0 clk_oct : in std_logic; -- clk90 dq_h : in std_logic; dq_l : in std_logic; dq_oe : in std_logic; dq_oct : in std_logic; -- gnd = disable dq_pad : out std_logic -- DQ pad ); end; architecture rtl of adqout is component stratixiii_ddio_out generic( power_up : string := "low"; async_mode : string := "none"; sync_mode : string := "none"; half_rate_mode : string := "false"; use_new_clocking_model : string := "false"; lpm_type : string := "stratixiii_ddio_out" ); port ( datainlo : in std_logic := '0'; datainhi : in std_logic := '0'; clk : in std_logic := '0'; clkhi : in std_logic := '0'; clklo : in std_logic := '0'; muxsel : in std_logic := '0'; ena : in std_logic := '1'; areset : in std_logic := '0'; sreset : in std_logic := '0'; dataout : out std_logic--; --dfflo : out std_logic; --dffhi : out std_logic; --devclrn : in std_logic := '1'; --devpor : in std_logic := '1' ); end component; component stratixiii_ddio_oe is generic( power_up : string := "low"; async_mode : string := "none"; sync_mode : string := "none"; lpm_type : string := "stratixiii_ddio_oe" ); port ( oe : IN std_logic := '1'; clk : IN std_logic := '0'; ena : IN std_logic := '1'; areset : IN std_logic := '0'; sreset : IN std_logic := '0'; dataout : OUT std_logic--; --dfflo : OUT std_logic; --dffhi : OUT std_logic; --devclrn : IN std_logic := '1'; --devpor : IN std_logic := '1' ); end component; component stratixiii_io_obuf generic( bus_hold : string := "false"; open_drain_output : string := "false"; shift_series_termination_control : string := "false"; lpm_type : string := "stratixiii_io_obuf" ); port( dynamicterminationcontrol : in std_logic := '0'; i : in std_logic := '0'; o : out std_logic; obar : out std_logic; oe : in std_logic := '1'--; --parallelterminationcontrol : in std_logic_vector(13 downto 0) := (others => '0'); --seriesterminationcontrol : in std_logic_vector(13 downto 0) := (others => '0') ); end component; component DFF is port( d, clk, clrn, prn : in std_logic; q : out std_logic); end component; signal vcc : std_logic; signal gnd : std_logic_vector(13 downto 0); signal dq_reg : std_logic; signal dq_oe_reg, dq_oe_reg_n, dq_oct_reg : std_logic; attribute syn_keep : boolean; attribute syn_preserve : boolean; attribute syn_keep of dq_oe_reg : signal is true; attribute syn_preserve of dq_oe_reg : signal is true; attribute syn_keep of dq_oe_reg_n : signal is true; attribute syn_preserve of dq_oe_reg_n : signal is true; begin vcc <= '1'; gnd <= (others => '0'); -- DQ output register -------------------------------------------------------------- dq_reg0 : stratixiii_ddio_out generic map( power_up => "high", async_mode => "none", sync_mode => "none", half_rate_mode => "false", use_new_clocking_model => "true", lpm_type => "stratixiii_ddio_out" ) port map( datainlo => dq_l, datainhi => dq_h, clk => clk, clkhi => clk, clklo => clk, muxsel => clk, ena => vcc, areset => gnd(0), sreset => gnd(0), dataout => dq_reg--, --dfflo => open, --dffhi => open, --devclrn => vcc, --devpor => vcc ); -- Outout enable and oct for DQ ----------------------------------------------------- -- dq_oe_reg0 : stratixiii_ddio_oe -- generic map( -- power_up => "low", -- async_mode => "none", -- sync_mode => "none", -- lpm_type => "stratixiii_ddio_oe" -- ) -- port map( -- oe => dq_oe, -- clk => clk, -- ena => vcc, -- areset => gnd(0), -- sreset => gnd(0), -- dataout => dq_oe_reg--, -- --dfflo => open, -- --dffhi => open, -- --devclrn => vcc, -- --devpor => vcc -- ); -- dq_oe_reg0 : dff -- port map( -- d => dq_oe, -- clk => clk, -- clrn => vcc, -- prn => vcc, -- q => dq_oe_reg -- ); dq_oe_reg0 : process(clk) begin if rising_edge(clk) then dq_oe_reg <= dq_oe; end if; end process; dq_oe_reg_n <= not dq_oe_reg; -- dq_oct_reg0 : stratixiii_ddio_oe -- generic map( -- power_up => "low", -- async_mode => "none", -- sync_mode => "none", -- lpm_type => "stratixiii_ddio_oe" -- ) -- port map( -- oe => dq_oct, -- clk => clk_oct, -- ena => vcc, -- areset => gnd(0), -- sreset => gnd(0), -- dataout => dq_oct_reg--, -- --dfflo => open, -- --dffhi => open, -- --devclrn => vcc, -- --devpor => vcc -- ); -- Out buffer (DQ) ------------------------------------------------------------------ dq_buf0 : stratixiii_io_obuf generic map( open_drain_output => "false", shift_series_termination_control => "false", bus_hold => "false", lpm_type => "stratixiii_io_obuf" ) port map( i => dq_reg, oe => dq_oe_reg_n, dynamicterminationcontrol => dq_oct,--dq_oct_reg, --gnd(0),--dq_oct_reg, --seriesterminationcontrol => gnd, --parallelterminationcontrol => gnd, o => dq_pad, obar => open ); end;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.componentsPkg.all; use work.auxPkg.all; entity tb_UpCounter is end tb_UpCounter; architecture arch of tb_UpCounter is constant WIDTH : integer := 8; -- simulation stuff constant CLK_PERIOD : time := 100 ns; signal ccount : integer := 1; type tbstatusType is (rst, idle, done, load, count); signal tbStatus : tbstatusType := idle; -- general control signals signal ClkxC : std_logic := '1'; signal RstxRB : std_logic; -- data/control signals signal LoadxE : std_logic; signal CExE : std_logic; signal CinxD : std_logic_vector(WIDTH-1 downto 0); signal CoutxD : std_logic_vector(WIDTH-1 downto 0); begin -- arch ---------------------------------------------------------------------------- -- device under test ---------------------------------------------------------------------------- dut: UpCounter generic map ( WIDTH => WIDTH) port map ( ClkxC => ClkxC, RstxRB => RstxRB, LoadxEI => LoadxE, CExEI => CExE, CinxDI => CinxD, CoutxDO => CoutxD); ---------------------------------------------------------------------------- -- stimuli ---------------------------------------------------------------------------- stimuliTb : process begin -- process stimuliTb tbStatus <= rst; LoadxE <= '0'; CExE <= '0'; CinxD <= (others => '0'); wait until (ClkxC'event and ClkxC = '1' and RstxRB = '0'); wait until (ClkxC'event and ClkxC = '1' and RstxRB = '1'); tbStatus <= idle; wait for CLK_PERIOD*0.25; tbStatus <= load; -- load start value LoadxE <= '1'; CinxD <= std_logic_vector(to_unsigned(2, WIDTH)); wait for CLK_PERIOD; tbStatus <= idle; -- idle LoadxE <= '0'; CExE <= '0'; CinxD <= (others => '0'); wait for CLK_PERIOD; wait for CLK_PERIOD; tbStatus <= count; -- count CExE <= '1'; wait for CLK_PERIOD; wait for CLK_PERIOD; wait for CLK_PERIOD; wait for CLK_PERIOD; wait for CLK_PERIOD; wait for CLK_PERIOD; tbStatus <= idle; -- idle LoadxE <= '0'; CExE <= '0'; CinxD <= (others => '0'); wait for CLK_PERIOD; wait for CLK_PERIOD; tbStatus <= load; -- load start value LoadxE <= '1'; CExE <= '0'; CinxD <= std_logic_vector(to_unsigned(5, WIDTH)); wait for CLK_PERIOD; tbStatus <= idle; -- idle LoadxE <= '0'; CExE <= '0'; CinxD <= (others => '0'); wait for CLK_PERIOD; wait for CLK_PERIOD; tbStatus <= count; -- count CExE <= '1'; wait for CLK_PERIOD; wait for CLK_PERIOD; wait for CLK_PERIOD; tbStatus <= done; -- done LoadxE <= '0'; CExE <= '0'; CinxD <= (others => '0'); wait for CLK_PERIOD; -- stop simulation wait until (ClkxC'event and ClkxC = '1'); assert false report "stimuli processed; sim. terminated after " & int2str(ccount) & " cycles" severity failure; end process stimuliTb; ---------------------------------------------------------------------------- -- clock and reset generation ---------------------------------------------------------------------------- ClkxC <= not ClkxC after CLK_PERIOD/2; RstxRB <= '0', '1' after CLK_PERIOD*1.25; ---------------------------------------------------------------------------- -- cycle counter ---------------------------------------------------------------------------- cyclecounter : process (ClkxC) begin if (ClkxC'event and ClkxC = '1') then ccount <= ccount + 1; end if; end process cyclecounter; end arch;
-------------------------------------------------------------------------------------------------- -- Decimator -------------------------------------------------------------------------------------------------- -- Matthew Dallmeyer - d01matt@gmail.com -------------------------------------------------------------------------------------------------- -- PACKAGE -------------------------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; library work; use work.dsp_pkg.all; package decimator_pkg is component decimator is generic( h : coefficient_array); port( clk_high : in std_logic; clk_low : in std_logic; rst : in std_logic; sig_high : in sig; sig_low : out sig); end component; end package; -------------------------------------------------------------------------------------------------- -- ENTITY -------------------------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.dsp_pkg.all; use work.demuxer_pkg.all; use work.multichannel_fir_filter_pkg.all; entity decimator is generic( h : coefficient_array); port( clk_high : in std_logic; clk_low : in std_logic; rst : in std_logic; sig_high : in sig; sig_low : out sig); end decimator; -------------------------------------------------------------------------------------------------- -- ARCHITECTURE -------------------------------------------------------------------------------------------------- architecture behave of decimator is constant H0 : coefficient_array(1 to (h'length+1)/2) := slice_coefficient_array(h, 2, 1, 0); constant H1 : coefficient_array(1 to (h'length+1)/2) := slice_coefficient_array(h, 2, 2, 0); signal sig1 : sig := (others => '0'); signal sig2 : sig := (others => '0'); signal filtered1 : fir_sig := (others => '0'); signal filtered2 : fir_sig := (others => '0'); signal sum : fir_sig := (others => '0'); begin --Demux the signal --NOTE: If this design were to ever support decimation factor > 2, the demux would need to send --out the signal to the parallel lines in descending order. demux_sig : demuxer generic map(INIT_SEL => b"01")--start demux on the lowest channel, demux should rotate right port map( clk => clk_low, clk_2x => clk_high, rst => rst, sigs => std_logic_vector(sig_high), sig(sig1) => sig1, sig(sig2) => sig2); --Low pass the demuxed signals using the multichannel approach anti_alias : multichannel_fir_filter generic map(h0 => H0, h1 => H1, INIT_SEL => b"10") port map( clk => clk_low, clk_2x => clk_high, rst => rst, x1 => sig1, x2 => sig2, y1 => filtered1, y2 => filtered2); --Sum the 2 filtered signals together update_sum : process(clk_low) begin if(rising_edge(clk_low)) then if(rst = '1') then sum <= (others => '0'); else sum <= filtered1 + filtered2; end if; end if; end process; sig_low <= sum(30 downto 15); end behave;
------------------------------------------------------------------------------- -- -- SD/MMC Bootloader -- -- $Id: spi_boot_pack-p.vhd,v 1.1 2005/02/08 20:41:33 arniml Exp $ -- ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; package spi_boot_pack is function "=" (a : std_logic; b : integer) return boolean; end spi_boot_pack; package body spi_boot_pack is function "=" (a : std_logic; b : integer) return boolean is variable result_v : boolean; begin result_v := false; case a is when '0' => if b = 0 then result_v := true; end if; when '1' => if b = 1 then result_v := true; end if; when others => null; end case; return result_v; end; end spi_boot_pack; ------------------------------------------------------------------------------- -- File History: -- -- $Log: spi_boot_pack-p.vhd,v $ -- Revision 1.1 2005/02/08 20:41:33 arniml -- initial check-in -- -------------------------------------------------------------------------------
------------------------------------------------------------------------------ -- 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 ----------------------------------------------------------------------------- -- Package: amba -- File: amba.vhd -- Author: Jiri Gaisler, Gaisler Research -- Modified by: Jan Andersson, Aeroflex Gaisler -- Description: AMBA 2.0 bus signal definitions + support for plug&play ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; -- pragma translate_off use std.textio.all; -- pragma translate_on library grlib; use grlib.config_types.all; use grlib.config.all; use grlib.stdlib.all; package amba is ------------------------------------------------------------------------------- -- AMBA configuration ------------------------------------------------------------------------------- -- AHBDW - AHB data with -- -- Valid values are 32, 64, 128 and 256 -- -- The value here sets the width of the AMBA AHB data vectors for all -- cores in the library. -- constant AHBDW : integer := CFG_AHBDW; -- CORE_ACDM - Enable AMBA Compliant Data Muxing in cores -- -- Valid values are 0 and 1 -- -- 0: All GRLIB cores that use the ahbread* programs defined in this package -- will read their data from the low part of the AHB data vector. -- -- 1: All GRLIB cores that use the ahbread* programs defined in this package -- will select valid data, as defined in the AMBA AHB standard, from the -- AHB data vectors based on the address input. If a core uses a function -- that does not have the address input, a failure will be asserted. -- constant CORE_ACDM : integer := CFG_AHB_ACDM; constant NAHBMST : integer := 16; -- maximum AHB masters constant NAHBSLV : integer := 16; -- maximum AHB slaves constant NAPBSLV : integer := 16; -- maximum APB slaves constant NAHBIRQ : integer := 32; -- maximum interrupts constant NAHBAMR : integer := 4; -- maximum address mapping registers constant NAHBIR : integer := 4; -- maximum AHB identification registers constant NAHBCFG : integer := NAHBIR + NAHBAMR; -- words in AHB config block constant NAPBIR : integer := 1; -- maximum APB configuration words constant NAPBAMR : integer := 1; -- maximum APB configuration words constant NAPBCFG : integer := NAPBIR + NAPBAMR; -- words in APB config block constant NBUS : integer := 4; -- Number of test vector bits constant NTESTINBITS : integer := 4+GRLIB_CONFIG_ARRAY(grlib_techmap_testin_extra); ------------------------------------------------------------------------------- -- AMBA interface type declarations and constant ------------------------------------------------------------------------------- subtype amba_config_word is std_logic_vector(31 downto 0); type ahb_config_type is array (0 to NAHBCFG-1) of amba_config_word; type apb_config_type is array (0 to NAPBCFG-1) of amba_config_word; -- AHB master inputs type ahb_mst_in_type is record hgrant : std_logic_vector(0 to NAHBMST-1); -- bus grant hready : std_ulogic; -- transfer done hresp : std_logic_vector(1 downto 0); -- response type hrdata : std_logic_vector(AHBDW-1 downto 0); -- read data bus hirq : std_logic_vector(NAHBIRQ-1 downto 0); -- interrupt result bus testen : std_ulogic; -- scan test enable testrst : std_ulogic; -- scan test reset scanen : std_ulogic; -- scan enable testoen : std_ulogic; -- test output enable testin : std_logic_vector(NTESTINBITS-1 downto 0); -- test vector for syncrams end record; -- AHB master outputs type ahb_mst_out_type is record hbusreq : std_ulogic; -- bus request hlock : std_ulogic; -- lock request htrans : std_logic_vector(1 downto 0); -- transfer type haddr : std_logic_vector(31 downto 0); -- address bus (byte) hwrite : std_ulogic; -- read/write hsize : std_logic_vector(2 downto 0); -- transfer size hburst : std_logic_vector(2 downto 0); -- burst type hprot : std_logic_vector(3 downto 0); -- protection control hwdata : std_logic_vector(AHBDW-1 downto 0); -- write data bus hirq : std_logic_vector(NAHBIRQ-1 downto 0); -- interrupt bus hconfig : ahb_config_type; -- memory access reg. hindex : integer range 0 to NAHBMST-1; -- diagnostic use only end record; -- AHB slave inputs type ahb_slv_in_type is record hsel : std_logic_vector(0 to NAHBSLV-1); -- slave select haddr : std_logic_vector(31 downto 0); -- address bus (byte) hwrite : std_ulogic; -- read/write htrans : std_logic_vector(1 downto 0); -- transfer type hsize : std_logic_vector(2 downto 0); -- transfer size hburst : std_logic_vector(2 downto 0); -- burst type hwdata : std_logic_vector(AHBDW-1 downto 0); -- write data bus hprot : std_logic_vector(3 downto 0); -- protection control hready : std_ulogic; -- transfer done hmaster : std_logic_vector(3 downto 0); -- current master hmastlock : std_ulogic; -- locked access hmbsel : std_logic_vector(0 to NAHBAMR-1); -- memory bank select hirq : std_logic_vector(NAHBIRQ-1 downto 0); -- interrupt result bus testen : std_ulogic; -- scan test enable testrst : std_ulogic; -- scan test reset scanen : std_ulogic; -- scan enable testoen : std_ulogic; -- test output enable testin : std_logic_vector(NTESTINBITS-1 downto 0); -- test vector for syncrams end record; -- AHB slave outputs type ahb_slv_out_type is record hready : std_ulogic; -- transfer done hresp : std_logic_vector(1 downto 0); -- response type hrdata : std_logic_vector(AHBDW-1 downto 0); -- read data bus hsplit : std_logic_vector(NAHBMST-1 downto 0); -- split completion hirq : std_logic_vector(NAHBIRQ-1 downto 0); -- interrupt bus hconfig : ahb_config_type; -- memory access reg. hindex : integer range 0 to NAHBSLV-1; -- diagnostic use only end record; -- array types type ahb_mst_out_vector_type is array (natural range <>) of ahb_mst_out_type; type ahb_mst_in_vector_type is array (natural range <>) of ahb_mst_in_type; type ahb_slv_out_vector_type is array (natural range <>) of ahb_slv_out_type; type ahb_slv_in_vector_type is array (natural range <>) of ahb_slv_in_type; subtype ahb_mst_out_vector is ahb_mst_out_vector_type(NAHBMST-1 downto 0); subtype ahb_slv_out_vector is ahb_slv_out_vector_type(NAHBSLV-1 downto 0); type ahb_mst_out_bus_vector is array (0 to NBUS-1) of ahb_mst_out_vector; type ahb_slv_out_bus_vector is array (0 to NBUS-1) of ahb_slv_out_vector; -- constants constant HTRANS_IDLE: std_logic_vector(1 downto 0) := "00"; constant HTRANS_BUSY: std_logic_vector(1 downto 0) := "01"; constant HTRANS_NONSEQ: std_logic_vector(1 downto 0) := "10"; constant HTRANS_SEQ: std_logic_vector(1 downto 0) := "11"; constant HBURST_SINGLE: std_logic_vector(2 downto 0) := "000"; constant HBURST_INCR: std_logic_vector(2 downto 0) := "001"; constant HBURST_WRAP4: std_logic_vector(2 downto 0) := "010"; constant HBURST_INCR4: std_logic_vector(2 downto 0) := "011"; constant HBURST_WRAP8: std_logic_vector(2 downto 0) := "100"; constant HBURST_INCR8: std_logic_vector(2 downto 0) := "101"; constant HBURST_WRAP16: std_logic_vector(2 downto 0) := "110"; constant HBURST_INCR16: std_logic_vector(2 downto 0) := "111"; constant HSIZE_BYTE: std_logic_vector(2 downto 0) := "000"; constant HSIZE_HWORD: std_logic_vector(2 downto 0) := "001"; constant HSIZE_WORD: std_logic_vector(2 downto 0) := "010"; constant HSIZE_DWORD: std_logic_vector(2 downto 0) := "011"; constant HSIZE_4WORD: std_logic_vector(2 downto 0) := "100"; constant HSIZE_8WORD: std_logic_vector(2 downto 0) := "101"; constant HSIZE_16WORD: std_logic_vector(2 downto 0) := "110"; constant HSIZE_32WORD: std_logic_vector(2 downto 0) := "111"; constant HRESP_OKAY: std_logic_vector(1 downto 0) := "00"; constant HRESP_ERROR: std_logic_vector(1 downto 0) := "01"; constant HRESP_RETRY: std_logic_vector(1 downto 0) := "10"; constant HRESP_SPLIT: std_logic_vector(1 downto 0) := "11"; -- APB slave inputs type apb_slv_in_type is record psel : std_logic_vector(0 to NAPBSLV-1); -- slave select penable : std_ulogic; -- strobe paddr : std_logic_vector(31 downto 0); -- address bus (byte) pwrite : std_ulogic; -- write pwdata : std_logic_vector(31 downto 0); -- write data bus pirq : std_logic_vector(NAHBIRQ-1 downto 0); -- interrupt result bus testen : std_ulogic; -- scan test enable testrst : std_ulogic; -- scan test reset scanen : std_ulogic; -- scan enable testoen : std_ulogic; -- test output enable testin : std_logic_vector(NTESTINBITS-1 downto 0); -- test vector for syncrams end record; -- APB slave outputs type apb_slv_out_type is record prdata : std_logic_vector(31 downto 0); -- read data bus pirq : std_logic_vector(NAHBIRQ-1 downto 0); -- interrupt bus pconfig : apb_config_type; -- memory access reg. pindex : integer range 0 to NAPBSLV -1; -- diag use only end record; -- array types type apb_slv_out_vector is array (0 to NAPBSLV-1) of apb_slv_out_type; -- support for plug&play configuration constant AMBA_CONFIG_VER0 : std_logic_vector(1 downto 0) := "00"; subtype amba_vendor_type is integer range 0 to 16#ff#; subtype amba_device_type is integer range 0 to 16#3ff#; subtype amba_version_type is integer range 0 to 16#3f#; subtype amba_cfgver_type is integer range 0 to 3; subtype amba_irq_type is integer range 0 to NAHBIRQ-1; subtype ahb_addr_type is integer range 0 to 16#fff#; constant zx : std_logic_vector(31 downto 0) := (others => '0'); constant zahbdw : std_logic_vector(AHBDW-1 downto 0) := (others => '0'); constant zxirq : std_logic_vector(NAHBIRQ-1 downto 0) := (others => '0'); constant zy : std_logic_vector(0 to 31) := (others => '0'); constant ztestin : std_logic_vector(NTESTINBITS-1 downto 0) := (others => '0'); constant apb_none : apb_slv_out_type := (zx, zxirq(NAHBIRQ-1 downto 0), (others => zx), 0); constant ahbm_none : ahb_mst_out_type := ( '0', '0', "00", zx, '0', "000", "000", "0000", zahbdw, zxirq(NAHBIRQ-1 downto 0), (others => zx), 0); constant ahbm_in_none : ahb_mst_in_type := ((others => '0'), '0', (others => '0'), zahbdw, zxirq(NAHBIRQ-1 downto 0), '0', '0', '0', '0', ztestin); constant ahbs_none : ahb_slv_out_type := ( '1', "00", zahbdw, zx(NAHBMST-1 downto 0), zxirq(NAHBIRQ-1 downto 0), (others => zx), 0); constant ahbs_in_none : ahb_slv_in_type := ( zy(0 to NAHBSLV-1), zx, '0', "00", "000", "000", zahbdw, "0000", '1', "0000", '0', zy(0 to NAHBAMR-1), zxirq(NAHBIRQ-1 downto 0), '0', '0', '0', '0', ztestin); constant ahbsv_none : ahb_slv_out_vector := (others => ahbs_none); constant apb_slv_in_none : apb_slv_in_type := ((others => '0'), '0', (others => '0'), '0', (others => '0'), (others => '0'), '0', '0', '0', '0', ztestin); ------------------------------------------------------------------------------- -- Subprograms ------------------------------------------------------------------------------- function ahb_device_reg(vendor : amba_vendor_type; device : amba_device_type; cfgver : amba_cfgver_type; version : amba_version_type; interrupt : amba_irq_type) return std_logic_vector; function ahb_membar(memaddr : ahb_addr_type; prefetch, cache : std_ulogic; addrmask : ahb_addr_type) return std_logic_vector; function ahb_membar_opt(memaddr : ahb_addr_type; prefetch, cache : std_ulogic; addrmask : ahb_addr_type; enable : integer) return std_logic_vector; function ahb_iobar(memaddr : ahb_addr_type; addrmask : ahb_addr_type) return std_logic_vector; function apb_iobar(memaddr : ahb_addr_type; addrmask : ahb_addr_type) return std_logic_vector; function ahb_slv_dec_cache(haddr : std_logic_vector(31 downto 0); ahbso : ahb_slv_out_vector; cached : integer) return std_ulogic; function ahb_slv_dec_pfetch(haddr : std_logic_vector(31 downto 0); ahbso : ahb_slv_out_vector) return std_ulogic; function ahb_membar_size (addrmask : ahb_addr_type) return integer; function ahb_iobar_size (addrmask : ahb_addr_type) return integer; function ahbdrivedata (hdata : std_logic_vector) return std_logic_vector; function ahbselectdata (hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2); hsize : std_logic_vector(2 downto 0)) return std_logic_vector; function ahbreadword ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector; procedure ahbreadword ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(31 downto 0)); function ahbreadword ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector; procedure ahbreadword ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(31 downto 0)); function ahbreaddword ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector; procedure ahbreaddword ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(63 downto 0)); function ahbreaddword ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector; procedure ahbreaddword ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(63 downto 0)); function ahbread4word ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector; procedure ahbread4word ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(127 downto 0)); function ahbread4word ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector; procedure ahbread4word ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(127 downto 0)); function ahbread8word ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector; procedure ahbread8word ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(255 downto 0)); function ahbread8word ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector; procedure ahbread8word ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(255 downto 0)); function ahbreaddata ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2); hsize : std_logic_vector(2 downto 0)) return std_logic_vector; function ahbreaddata ( hdata : std_logic_vector(AHBDW-1 downto 0); hsize : std_logic_vector(2 downto 0)) return std_logic_vector; procedure ahbmomux ( signal ai : in ahb_mst_out_type; signal ao : out ahb_mst_out_type; signal en : in std_ulogic); procedure ahbsomux ( signal ai : in ahb_slv_out_type; signal ao : out ahb_slv_out_type; signal en : in std_ulogic); procedure apbsomux ( signal ai : in apb_slv_out_type; signal ao : out apb_slv_out_type; signal en : in std_ulogic); ------------------------------------------------------------------------------- -- Components ------------------------------------------------------------------------------- component ahbctrl generic ( defmast : integer := 0; -- default master split : integer := 0; -- split support rrobin : integer := 0; -- round-robin arbitration timeout : integer range 0 to 255 := 0; -- HREADY timeout ioaddr : ahb_addr_type := 16#fff#; -- I/O area MSB address iomask : ahb_addr_type := 16#fff#; -- I/O area address mask cfgaddr : ahb_addr_type := 16#ff0#; -- config area MSB address cfgmask : ahb_addr_type := 16#ff0#; -- config area address mask nahbm : integer range 1 to NAHBMST := NAHBMST; -- number of masters nahbs : integer range 1 to NAHBSLV := NAHBSLV; -- number of slaves ioen : integer range 0 to 15 := 1; -- enable I/O area disirq : integer range 0 to 1 := 0; -- disable interrupt routing fixbrst : integer range 0 to 1 := 0; -- support fix-length bursts debug : integer range 0 to 2 := 2; -- print config to console fpnpen : integer range 0 to 1 := 0; -- full PnP configuration decoding icheck : integer range 0 to 1 := 1; devid : integer := 0; -- unique device ID enbusmon : integer range 0 to 1 := 0; --enable bus monitor assertwarn : integer range 0 to 1 := 0; --enable assertions for warnings asserterr : integer range 0 to 1 := 0; --enable assertions for errors hmstdisable : integer := 0; --disable master checks hslvdisable : integer := 0; --disable slave checks arbdisable : integer := 0; --disable arbiter checks mprio : integer := 0; --master with highest priority mcheck : integer range 0 to 2 := 1; --check memory map for intersects ccheck : integer range 0 to 1 := 1; --perform sanity checks on pnp config acdm : integer := 0; --AMBA compliant data muxing (for hsize > word) index : integer := 0; --index for trace print-out ahbtrace : integer := 0; --AHB trace enable hwdebug : integer := 0; fourgslv : integer := 0 ); port ( rst : in std_ulogic; clk : in std_ulogic; msti : out ahb_mst_in_type; msto : in ahb_mst_out_vector; slvi : out ahb_slv_in_type; slvo : in ahb_slv_out_vector; testen : in std_ulogic := '0'; testrst : in std_ulogic := '1'; scanen : in std_ulogic := '0'; testoen : in std_ulogic := '1'; testsig : in std_logic_vector(1+GRLIB_CONFIG_ARRAY(grlib_techmap_testin_extra) downto 0) := (others => '0') ); end component; component apbctrl generic ( hindex : integer := 0; haddr : integer := 0; hmask : integer := 16#fff#; nslaves : integer range 1 to NAPBSLV := NAPBSLV; debug : integer range 0 to 2 := 2; -- print config to console icheck : integer range 0 to 1 := 1; enbusmon : integer range 0 to 1 := 0; asserterr : integer range 0 to 1 := 0; assertwarn : integer range 0 to 1 := 0; pslvdisable : integer := 0; mcheck : integer range 0 to 1 := 1; ccheck : integer range 0 to 1 := 1 ); port ( rst : in std_ulogic; clk : in std_ulogic; ahbi : in ahb_slv_in_type; ahbo : out ahb_slv_out_type; apbi : out apb_slv_in_type; apbo : in apb_slv_out_vector ); end component; component ahbctrl_mb generic ( defmast : integer := 0; -- default master split : integer := 0; -- split support rrobin : integer := 0; -- round-robin arbitration timeout : integer range 0 to 255 := 0; -- HREADY timeout ioaddr : ahb_addr_type := 16#fff#; -- I/O area MSB address iomask : ahb_addr_type := 16#fff#; -- I/O area address mask cfgaddr : ahb_addr_type := 16#ff0#; -- config area MSB address cfgmask : ahb_addr_type := 16#ff0#; -- config area address mask nahbm : integer range 1 to NAHBMST := NAHBMST; -- number of masters nahbs : integer range 1 to NAHBSLV := NAHBSLV; -- number of slaves ioen : integer range 0 to 15 := 1; -- enable I/O area disirq : integer range 0 to 1 := 0; -- disable interrupt routing fixbrst : integer range 0 to 1 := 0; -- support fix-length bursts debug : integer range 0 to 2 := 2; -- report cores to console fpnpen : integer range 0 to 1 := 0; -- full PnP configuration decoding busndx : integer range 0 to 3 := 0; icheck : integer range 0 to 1 := 1; devid : integer := 0; -- unique device ID enbusmon : integer range 0 to 1 := 0; --enable bus monitor assertwarn : integer range 0 to 1 := 0; --enable assertions for warnings asserterr : integer range 0 to 1 := 0; --enable assertions for errors hmstdisable : integer := 0; --disable master checks hslvdisable : integer := 0; --disable slave checks arbdisable : integer := 0; --disable arbiter checks mprio : integer := 0; --master with highest priority mcheck : integer range 0 to 2 := 1; --check memory map for intersect ccheck : integer range 0 to 1 := 1; --perform sanity checks on pnp config acdm : integer := 0 --AMBA compliant data muxing (for hsize > word) ); port ( rst : in std_ulogic; clk : in std_ulogic; msti : out ahb_mst_in_type; msto : in ahb_mst_out_bus_vector; slvi : out ahb_slv_in_type; slvo : in ahb_slv_out_bus_vector; testen : in std_ulogic := '0'; testrst : in std_ulogic := '1'; scanen : in std_ulogic := '0'; testoen : in std_ulogic := '1' ); end component; component ahbdefmst generic ( hindex : integer range 0 to NAHBMST-1 := 0); port ( ahbmo : out ahb_mst_out_type); end component; type ahb_dma_in_type is record address : std_logic_vector(31 downto 0); wdata : std_logic_vector(AHBDW-1 downto 0); start : std_ulogic; burst : std_ulogic; write : std_ulogic; busy : std_ulogic; irq : std_ulogic; size : std_logic_vector(2 downto 0); end record; type ahb_dma_out_type is record start : std_ulogic; active : std_ulogic; ready : std_ulogic; retry : std_ulogic; mexc : std_ulogic; haddr : std_logic_vector(9 downto 0); rdata : std_logic_vector(AHBDW-1 downto 0); end record; component ahbmst generic ( hindex : integer := 0; hirq : integer := 0; venid : integer := 1; devid : integer := 0; version : integer := 0; chprot : integer := 3; incaddr : integer := 0); port ( rst : in std_ulogic; clk : in std_ulogic; dmai : in ahb_dma_in_type; dmao : out ahb_dma_out_type; ahbi : in ahb_mst_in_type; ahbo : out ahb_mst_out_type ); end component; -- pragma translate_off component ahbmon is generic( asserterr : integer range 0 to 1 := 1; assertwarn : integer range 0 to 1 := 1; hmstdisable : integer := 0; hslvdisable : integer := 0; arbdisable : integer := 0; nahbm : integer range 0 to NAHBMST := NAHBMST; nahbs : integer range 0 to NAHBSLV := NAHBSLV; ebterm : integer range 0 to 1 := 0 ); port( rst : in std_ulogic; clk : in std_ulogic; ahbmi : in ahb_mst_in_type; ahbmo : in ahb_mst_out_vector; ahbsi : in ahb_slv_in_type; ahbso : in ahb_slv_out_vector; err : out std_ulogic); end component; component apbmon is generic( asserterr : integer range 0 to 1 := 1; assertwarn : integer range 0 to 1 := 1; pslvdisable : integer := 0; napb : integer range 0 to NAPBSLV := NAPBSLV ); port( rst : in std_ulogic; clk : in std_ulogic; apbi : in apb_slv_in_type; apbo : in apb_slv_out_vector; err : out std_ulogic); end component; component ambamon is generic( asserterr : integer range 0 to 1 := 1; assertwarn : integer range 0 to 1 := 1; hmstdisable : integer := 0; hslvdisable : integer := 0; pslvdisable : integer := 0; arbdisable : integer := 0; nahbm : integer range 0 to NAHBMST := NAHBMST; nahbs : integer range 0 to NAHBSLV := NAHBSLV; napb : integer range 0 to NAPBSLV := NAPBSLV; ebterm : integer range 0 to 1 := 0 ); port( rst : in std_ulogic; clk : in std_ulogic; ahbmi : in ahb_mst_in_type; ahbmo : in ahb_mst_out_vector; ahbsi : in ahb_slv_in_type; ahbso : in ahb_slv_out_vector; apbi : in apb_slv_in_type; apbo : in apb_slv_out_vector; err : out std_ulogic); end component; subtype vendor_description is string(1 to 24); subtype device_description is string(1 to 31); type device_table_type is array (0 to 1023) of device_description; type vendor_library_type is record vendorid : amba_vendor_type; vendordesc : vendor_description; device_table : device_table_type; end record; type device_array is array (0 to 255) of vendor_library_type; -- pragma translate_on end; package body amba is function ahb_device_reg(vendor : amba_vendor_type; device : amba_device_type; cfgver : amba_cfgver_type; version : amba_version_type; interrupt : amba_irq_type) return std_logic_vector is variable cfg : std_logic_vector(31 downto 0); begin case cfgver is when 0 => cfg(31 downto 24) := std_logic_vector(to_unsigned(vendor, 8)); cfg(23 downto 12) := std_logic_vector(to_unsigned(device, 12)); cfg(11 downto 10) := std_logic_vector(to_unsigned(cfgver, 2)); cfg( 9 downto 5) := std_logic_vector(to_unsigned(version, 5)); cfg( 4 downto 0) := std_logic_vector(to_unsigned(interrupt, 5)); when others => cfg := (others => '0'); end case; return(cfg); end; function ahb_membar(memaddr : ahb_addr_type; prefetch, cache : std_ulogic; addrmask : ahb_addr_type) return std_logic_vector is variable cfg : std_logic_vector(31 downto 0); begin cfg(31 downto 20) := std_logic_vector(to_unsigned(memaddr, 12)); cfg(19 downto 16) := "00" & prefetch & cache; cfg(15 downto 4) := std_logic_vector(to_unsigned(addrmask, 12)); cfg( 3 downto 0) := "0010"; return(cfg); end; function ahb_membar_opt(memaddr : ahb_addr_type; prefetch, cache : std_ulogic; addrmask : ahb_addr_type; enable : integer) return std_logic_vector is variable cfg : std_logic_vector(31 downto 0); begin cfg := (others => '0'); if enable /= 0 then return (ahb_membar(memaddr, prefetch, cache, addrmask)); else return(cfg); end if; end; function ahb_iobar(memaddr : ahb_addr_type; addrmask : ahb_addr_type) return std_logic_vector is variable cfg : std_logic_vector(31 downto 0); begin cfg(31 downto 20) := std_logic_vector(to_unsigned(memaddr, 12)); cfg(19 downto 16) := "0000"; cfg(15 downto 4) := std_logic_vector(to_unsigned(addrmask, 12)); cfg( 3 downto 0) := "0011"; return(cfg); end; function apb_iobar(memaddr : ahb_addr_type; addrmask : ahb_addr_type) return std_logic_vector is variable cfg : std_logic_vector(31 downto 0); begin cfg(31 downto 20) := std_logic_vector(to_unsigned(memaddr, 12)); cfg(19 downto 16) := "0000"; cfg(15 downto 4) := std_logic_vector(to_unsigned(addrmask, 12)); cfg( 3 downto 0) := "0001"; return(cfg); end; function ahb_slv_dec_cache(haddr : std_logic_vector(31 downto 0); ahbso : ahb_slv_out_vector; cached : integer) return std_ulogic is variable hcache : std_ulogic; variable ctbl : std_logic_vector(15 downto 0); begin hcache := '0'; ctbl := (others => '0'); if cached = 0 then for i in 0 to NAHBSLV-1 loop for j in NAHBAMR to NAHBCFG-1 loop if (ahbso(i).hconfig(j)(16) = '1') and (ahbso(i).hconfig(j)(15 downto 4) /= "000000000000") then if (haddr(31 downto 20) and ahbso(i).hconfig(j)(15 downto 4)) = (ahbso(i).hconfig(j)(31 downto 20) and ahbso(i).hconfig(j)(15 downto 4)) then hcache := '1'; end if; end if; end loop; end loop; else ctbl := conv_std_logic_vector(cached, 16); hcache := ctbl(conv_integer(haddr(31 downto 28))); end if; return(hcache); end; function ahb_slv_dec_pfetch(haddr : std_logic_vector(31 downto 0); ahbso : ahb_slv_out_vector) return std_ulogic is variable pfetch : std_ulogic; begin pfetch := '0'; for i in 0 to NAHBSLV-1 loop for j in NAHBAMR to NAHBCFG-1 loop if ((ahbso(i).hconfig(j)(17) = '1') and (ahbso(i).hconfig(j)(15 downto 4) /= "000000000000")) then if (haddr(31 downto 20) and ahbso(i).hconfig(j)(15 downto 4)) = (ahbso(i).hconfig(j)(31 downto 20) and ahbso(i).hconfig(j)(15 downto 4)) then pfetch := '1'; end if; end if; end loop; end loop; return(pfetch); end; function ahb_membar_size (addrmask : ahb_addr_type) return integer is begin if addrmask = 0 then return 0; end if; return (4096 - addrmask) * 1024 * 1024; end; function ahb_iobar_size (addrmask : ahb_addr_type) return integer is begin return (4096 - addrmask) * 256; end; -- purpose: Duplicates 'hdata' to suite AHB data width. If the input vector's -- length exceeds AHBDW the low part is returned. function ahbdrivedata ( hdata : std_logic_vector) return std_logic_vector is variable data : std_logic_vector(AHBDW-1 downto 0); begin -- ahbdrivedata if AHBDW < hdata'length then data := hdata(AHBDW+hdata'low-1 downto hdata'low); else for i in 0 to AHBDW/hdata'length-1 loop data(hdata'length-1+hdata'length*i downto hdata'length*i) := hdata; end loop; end if; return data; end ahbdrivedata; -- Takes in AHB data vector 'hdata' and returns valid data on the full -- data vector output based on 'haddr' and 'hsize' inputs together with -- GRLIB AHB bus width. The function works down to word granularity. function ahbselectdata ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2); hsize : std_logic_vector(2 downto 0)) return std_logic_vector is variable ret : std_logic_vector(AHBDW-1 downto 0); begin -- ahbselectdata ret := hdata; case hsize is when HSIZE_8WORD => if AHBDW = 256 then ret := hdata; end if; when HSIZE_4WORD => if AHBDW = 256 then if haddr(4) = '0' then ret := ahbdrivedata(hdata(AHBDW-1 downto AHBDW/2)); else ret := ahbdrivedata(hdata(AHBDW/2-1 downto 0)); end if; end if; when HSIZE_DWORD => if AHBDW = 256 then case haddr(4 downto 3) is when "00" => ret := ahbdrivedata(hdata(4*(AHBDW/4)-1 downto 3*(AHBDW/4))); when "01" => ret := ahbdrivedata(hdata(3*(AHBDW/4)-1 downto 2*(AHBDW/4))); when "10" => ret := ahbdrivedata(hdata(2*(AHBDW/4)-1 downto 1*(AHBDW/4))); when others => ret := ahbdrivedata(hdata(1*(AHBDW/4)-1 downto 0*(AHBDW/4))); end case; elsif AHBDW = 128 then if haddr(3) = '0' then ret := ahbdrivedata(hdata(AHBDW-1 downto AHBDW/2)); else ret := ahbdrivedata(hdata(AHBDW/2-1 downto 0)); end if; end if; when others => if AHBDW = 256 then case haddr(4 downto 2) is when "000" => ret := ahbdrivedata(hdata(8*(AHBDW/8)-1 downto 7*(AHBDW/8))); when "001" => ret := ahbdrivedata(hdata(7*(AHBDW/8)-1 downto 6*(AHBDW/8))); when "010" => ret := ahbdrivedata(hdata(6*(AHBDW/8)-1 downto 5*(AHBDW/8))); when "011" => ret := ahbdrivedata(hdata(5*(AHBDW/8)-1 downto 4*(AHBDW/8))); when "100" => ret := ahbdrivedata(hdata(4*(AHBDW/8)-1 downto 3*(AHBDW/8))); when "101" => ret := ahbdrivedata(hdata(3*(AHBDW/8)-1 downto 2*(AHBDW/8))); when "110" => ret := ahbdrivedata(hdata(2*(AHBDW/8)-1 downto 1*(AHBDW/8))); when others => ret := ahbdrivedata(hdata(1*(AHBDW/8)-1 downto 0*(AHBDW/8))); end case; elsif AHBDW = 128 then case haddr(3 downto 2) is when "00" => ret := ahbdrivedata(hdata(4*(AHBDW/4)-1 downto 3*(AHBDW/4))); when "01" => ret := ahbdrivedata(hdata(3*(AHBDW/4)-1 downto 2*(AHBDW/4))); when "10" => ret := ahbdrivedata(hdata(2*(AHBDW/4)-1 downto 1*(AHBDW/4))); when others => ret := ahbdrivedata(hdata(1*(AHBDW/4)-1 downto 0*(AHBDW/4))); end case; elsif AHBDW = 64 then if haddr(2) = '0' then ret := ahbdrivedata(hdata(AHBDW-1 downto AHBDW/2)); else ret := ahbdrivedata(hdata(AHBDW/2-1 downto 0)); end if; end if; end case; return ret; end ahbselectdata; -- Description of ahbread* functions and procedures. -- -- The ahbread* subprograms with an 'haddr' input selects the valid slice of -- data from the AHB data vector, 'hdata', based on the 'haddr' input if -- CORE_ACDM is set to 1 (see top of this package). Otherwise the low part of -- the AHB data vector will be returned. -- -- The ahbread* subprograms that do not have a 'haddr' input will always -- return the low slice of the 'hdata' input. These subprograms will assert a -- failure if CORE_ACDM is set to 1. -- function ahbreadword ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector is variable data : std_logic_vector(31 downto 0); begin if CORE_ACDM = 1 then data := ahbselectdata(hdata, haddr, HSIZE_WORD)(31 downto 0); else data := hdata(31 downto 0); end if; return data; end ahbreadword; procedure ahbreadword ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(31 downto 0)) is begin data := ahbreadword(hdata, haddr); end ahbreadword; function ahbreadword ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector is variable data : std_logic_vector(31 downto 0); begin -- pragma translate_off assert CORE_ACDM = 0 report "ahbreadword without address input used when CORE_ACDM /= 0" severity failure; -- pragma translate_on data := hdata(31 downto 0); return data; end ahbreadword; procedure ahbreadword ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(31 downto 0)) is begin data := ahbreadword(hdata); end ahbreadword; function ahbreaddword ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector is variable data : std_logic_vector(255 downto 0); begin -- pragma translate_off assert AHBDW > 32 report "ahbreaddword can not be used in system with AHB data width < 64" severity failure; -- pragma translate_on if AHBDW = 256 then if CORE_ACDM = 1 then data(AHBDW/4-1 downto 0) := ahbselectdata(hdata, haddr, HSIZE_DWORD)(AHBDW/4-1 downto 0); else data(AHBDW/4-1 downto 0) := hdata(AHBDW/4-1 downto 0); end if; elsif AHBDW = 128 then if CORE_ACDM = 1 then data(AHBDW/2-1 downto 0) := ahbselectdata(hdata, haddr, HSIZE_DWORD)(AHBDW/2-1 downto 0); else data(AHBDW/2-1 downto 0) := hdata(AHBDW/2-1 downto 0); end if; elsif AHBDW = 64 then if CORE_ACDM = 1 then data(AHBDW-1 downto 0) := ahbselectdata(hdata, haddr, HSIZE_DWORD)(AHBDW-1 downto 0); else data(AHBDW-1 downto 0) := hdata(AHBDW-1 downto 0); end if; end if; return data(63 downto 0); end ahbreaddword; procedure ahbreaddword ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(63 downto 0)) is begin data := ahbreaddword(hdata, haddr); end ahbreaddword; function ahbreaddword ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector is variable data : std_logic_vector(255 downto 0); begin -- pragma translate_off assert AHBDW > 32 report "ahbreaddword can not be used in system with AHB data width < 64" severity failure; assert CORE_ACDM = 0 report "ahbreaddword without address input used when CORE_ACDM /= 0" severity failure; -- pragma translate_on if AHBDW = 256 then data(AHBDW/4-1 downto 0) := hdata(AHBDW/4-1 downto 0); elsif AHBDW = 128 then data(AHBDW/2-1 downto 0) := hdata(AHBDW/2-1 downto 0); elsif AHBDW = 64 then data(AHBDW-1 downto 0) := hdata(AHBDW-1 downto 0); end if; return data(63 downto 0); end ahbreaddword; procedure ahbreaddword ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(63 downto 0)) is begin data := ahbreaddword(hdata); end ahbreaddword; function ahbread4word ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector is variable data : std_logic_vector(255 downto 0); begin -- pragma translate_off assert AHBDW > 64 report "ahbread4word can not be used in system with AHB data width < 128 bits" severity failure; -- pragma translate_on if AHBDW = 256 then if CORE_ACDM = 1 then data(AHBDW/2-1 downto 0) := ahbselectdata(hdata, haddr, HSIZE_4WORD)(AHBDW/2-1 downto 0); else data(AHBDW/2-1 downto 0) := hdata(AHBDW/2-1 downto 0); end if; elsif AHBDW = 128 then if CORE_ACDM = 1 then data(AHBDW-1 downto 0) := ahbselectdata(hdata, haddr, HSIZE_4WORD)(AHBDW-1 downto 0); else data(AHBDW-1 downto 0) := hdata(AHBDW-1 downto 0); end if; end if; return data(127 downto 0); end ahbread4word; procedure ahbread4word ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(127 downto 0)) is begin data := ahbread4word(hdata, haddr); end ahbread4word; function ahbread4word ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector is variable data : std_logic_vector(255 downto 0); begin -- pragma translate_off assert AHBDW > 64 report "ahbread4word can not be used in system with AHB data width < 128 bits" severity failure; assert CORE_ACDM = 0 report "ahbread4word without address input used when CORE_ACDM /= 0" severity failure; -- pragma translate_on if AHBDW = 256 then data(AHBDW/2-1 downto 0) := hdata(AHBDW/2-1 downto 0); elsif AHBDW = 128 then data(AHBDW-1 downto 0) := hdata(AHBDW-1 downto 0); end if; return data(127 downto 0); end ahbread4word; procedure ahbread4word ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(127 downto 0)) is begin data := ahbread4word(hdata); end ahbread4word; function ahbread8word ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2)) return std_logic_vector is variable data : std_logic_vector(AHBDW-1 downto 0); begin -- pragma translate_off assert AHBDW > 128 report "ahbread8word can not be used in system with AHB data width < 256 bits" severity failure; -- pragma translate_on if CORE_ACDM = 1 then data(AHBDW-1 downto 0) := ahbselectdata(hdata, haddr, HSIZE_8WORD)(AHBDW-1 downto 0); else data(AHBDW-1 downto 0) := hdata(AHBDW-1 downto 0); end if; return data; end ahbread8word; procedure ahbread8word ( hdata : in std_logic_vector(AHBDW-1 downto 0); haddr : in std_logic_vector(4 downto 2); data : out std_logic_vector(255 downto 0)) is begin data := ahbread8word(hdata, haddr); end ahbread8word; function ahbread8word ( hdata : std_logic_vector(AHBDW-1 downto 0)) return std_logic_vector is variable data : std_logic_vector(AHBDW-1 downto 0); begin -- pragma translate_off assert AHBDW > 128 report "ahbread8word can not be used in system with AHB data width < 256 bits" severity failure; assert CORE_ACDM = 0 report "ahbread8word without address input used when CORE_ACDM /= 0" severity failure; -- pragma translate_on data(AHBDW-1 downto 0) := hdata(AHBDW-1 downto 0); return data; end ahbread8word; procedure ahbread8word ( hdata : in std_logic_vector(AHBDW-1 downto 0); data : out std_logic_vector(255 downto 0)) is begin data := ahbread8word(hdata); end ahbread8word; function ahbreaddata ( hdata : std_logic_vector(AHBDW-1 downto 0); haddr : std_logic_vector(4 downto 2); hsize : std_logic_vector(2 downto 0)) return std_logic_vector is begin case hsize is when HSIZE_8WORD => return ahbread8word(hdata, haddr); when HSIZE_4WORD => return ahbread4word(hdata, haddr); when HSIZE_DWORD => return ahbreaddword(hdata, haddr); when others => null; end case; return ahbreadword(hdata, haddr); end ahbreaddata; function ahbreaddata ( hdata : std_logic_vector(AHBDW-1 downto 0); hsize : std_logic_vector(2 downto 0)) return std_logic_vector is begin case hsize is when HSIZE_8WORD => return ahbread8word(hdata); when HSIZE_4WORD => return ahbread4word(hdata); when HSIZE_DWORD => return ahbreaddword(hdata); when others => null; end case; return ahbreadword(hdata); end ahbreaddata; -- a*mux below drives their amba output records with the amba input record if -- the en input is '1'. Otherwise the amba output record is driven to an idle -- state. Plug'n'play information is kept constant. procedure ahbmomux ( signal ai : in ahb_mst_out_type; signal ao : out ahb_mst_out_type; signal en : in std_ulogic) is begin if en = '1' then ao <= ai; else ao <= ahbm_none; end if; ao.haddr <= ai.haddr; ao.hwrite <= ai.hwrite; ao.hsize <= ai.hsize; ao.hprot <= ai.hprot; ao.hwdata <= ai.hwdata; ao.hconfig <= ai.hconfig; ao.hindex <= ai.hindex; end ahbmomux; procedure ahbsomux ( signal ai : in ahb_slv_out_type; signal ao : out ahb_slv_out_type; signal en : in std_ulogic) is begin if en = '1' then ao <= ai; else ao <= ahbs_none; end if; ao.hrdata <= ai.hrdata; ao.hconfig <= ai.hconfig; ao.hindex <= ai.hindex; end ahbsomux; procedure apbsomux ( signal ai : in apb_slv_out_type; signal ao : out apb_slv_out_type; signal en : in std_ulogic) is begin if en = '1' then ao <= ai; else ao <= apb_none; end if; ao.prdata <= ai.prdata; ao.pconfig <= ai.pconfig; ao.pindex <= ai.pindex; end apbsomux; end;
-- multiple1902 <multple1902@gmail.com> -- Released under GNU GPL v3, or later. library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_signed.all; use ieee.numeric_std.all; entity memory is port ( cs : in std_logic; -- Chip select re, we : in std_logic; -- Read / Write Enable clk : in std_logic; addr_h, addr_l : in std_logic_vector(4 downto 0); data_in : in std_logic_vector(15 downto 0); data_out : out std_logic_vector(15 downto 0) -- no semicolon here! ); end memory; architecture behv of memory is type core_type is array(1023 downto 0) of std_logic_vector(15 downto 0); signal core: core_type; signal addr: std_logic_vector(9 downto 0); begin process(clk,cs,re,we,addr_h,addr_l) begin if clk='1' and cs='1' and re='1' then addr(9 downto 5)<= addr_h(4 downto 0); addr(4 downto 0)<= addr_l(4 downto 0); data_out <= core(conv_integer(std_logic_vector(addr))); elsif clk='1' and cs='1' and we='1' then addr(9 downto 5)<= addr_h(4 downto 0); addr(4 downto 0)<= addr_l(4 downto 0); -- core(to_integer(unsigned(addr)))<= data_in; -- core(to_integer(unsigned(addr)))<= data_in; core(conv_integer(std_logic_vector(addr)))<= data_in; data_out <= core(to_integer(unsigned(addr))); assert false report "hello" severity note; -- data_out <= "ZZZZZZZZZZZZZZZZ"; --else -- data_out <= "ZZZZZZZZZZZZZZZZ"; end if; end process; end behv;
--------------------------------------------------- -- School: University of Massachusetts Dartmouth -- Department: Computer and Electrical Engineering -- Engineer: Daniel Noyes -- -- Create Date: SPRING 2015 -- Module Name: VGA_COLOR_TB -- Project Name: VGA_COLOR -- Target Devices: Spartan-3E -- Tool versions: Xilinx ISE 14.7 -- Description: VGA_COLOR Test Bench --------------------------------------------------- LIBRARY ieee; USE ieee.STD_LOGIC_1164.ALL; USE ieee.STD_LOGIC_unsigned.all; USE ieee.numeric_std.ALL; ENTITY VGA_COLOR_tb_vhd IS END VGA_COLOR_tb_vhd; ARCHITECTURE behavior OF VGA_COLOR_tb_vhd IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT VGA_COLOR Port ( CLK : in STD_LOGIC; RST : in STD_LOGIC; SW : in STD_LOGIC_VECTOR (7 downto 0); HSYNC : out STD_LOGIC; VSYNC : out STD_LOGIC; VGARED : out STD_LOGIC_VECTOR (2 downto 0); VGAGRN : out STD_LOGIC_VECTOR (2 downto 0); VGABLU : out STD_LOGIC_VECTOR (1 downto 0)); END COMPONENT; SIGNAL CLK : STD_LOGIC := '0'; SIGNAL RST : STD_LOGIC := '0'; SIGNAL HSYNC : STD_LOGIC := '0'; SIGNAL VSYNC : STD_LOGIC := '0'; SIGNAL VGARED : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGAGRN : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGABLU : STD_LOGIC_VECTOR(1 downto 0) := (others=>'0'); SIGNAL SW : STD_LOGIC_VECTOR(7 downto 0) := (others=>'0'); -- Constants -- constant period : time := 20 ns; -- 25 MHz =(1/20E-9)/2 constant period : time := 10 ns; -- 50 MHz =(1/10E-9)/2 -- constant period : time := 5 ns; -- 100 MHz =(1/10E-9)/2 BEGIN -- Instantiate the Unit Under Test (UUT) uut: VGA_COLOR PORT MAP( CLK => CLK, RST => RST, SW => SW, HSYNC => HSYNC, VSYNC => VSYNC, VGARED => VGARED, VGAGRN => VGAGRN, VGABLU => VGABLU); -- Generate clock gen_Clock: process begin CLK <= '0'; wait for period; CLK <= '1'; wait for period; end process gen_Clock; tb : PROCESS BEGIN -- Wait 100 ns for global reset to finish wait for 100 ns; report "Start VGA_COLOR Test Bench" severity NOTE; wait; -- will wait forever END PROCESS; END;
--------------------------------------------------- -- School: University of Massachusetts Dartmouth -- Department: Computer and Electrical Engineering -- Engineer: Daniel Noyes -- -- Create Date: SPRING 2015 -- Module Name: VGA_COLOR_TB -- Project Name: VGA_COLOR -- Target Devices: Spartan-3E -- Tool versions: Xilinx ISE 14.7 -- Description: VGA_COLOR Test Bench --------------------------------------------------- LIBRARY ieee; USE ieee.STD_LOGIC_1164.ALL; USE ieee.STD_LOGIC_unsigned.all; USE ieee.numeric_std.ALL; ENTITY VGA_COLOR_tb_vhd IS END VGA_COLOR_tb_vhd; ARCHITECTURE behavior OF VGA_COLOR_tb_vhd IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT VGA_COLOR Port ( CLK : in STD_LOGIC; RST : in STD_LOGIC; SW : in STD_LOGIC_VECTOR (7 downto 0); HSYNC : out STD_LOGIC; VSYNC : out STD_LOGIC; VGARED : out STD_LOGIC_VECTOR (2 downto 0); VGAGRN : out STD_LOGIC_VECTOR (2 downto 0); VGABLU : out STD_LOGIC_VECTOR (1 downto 0)); END COMPONENT; SIGNAL CLK : STD_LOGIC := '0'; SIGNAL RST : STD_LOGIC := '0'; SIGNAL HSYNC : STD_LOGIC := '0'; SIGNAL VSYNC : STD_LOGIC := '0'; SIGNAL VGARED : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGAGRN : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGABLU : STD_LOGIC_VECTOR(1 downto 0) := (others=>'0'); SIGNAL SW : STD_LOGIC_VECTOR(7 downto 0) := (others=>'0'); -- Constants -- constant period : time := 20 ns; -- 25 MHz =(1/20E-9)/2 constant period : time := 10 ns; -- 50 MHz =(1/10E-9)/2 -- constant period : time := 5 ns; -- 100 MHz =(1/10E-9)/2 BEGIN -- Instantiate the Unit Under Test (UUT) uut: VGA_COLOR PORT MAP( CLK => CLK, RST => RST, SW => SW, HSYNC => HSYNC, VSYNC => VSYNC, VGARED => VGARED, VGAGRN => VGAGRN, VGABLU => VGABLU); -- Generate clock gen_Clock: process begin CLK <= '0'; wait for period; CLK <= '1'; wait for period; end process gen_Clock; tb : PROCESS BEGIN -- Wait 100 ns for global reset to finish wait for 100 ns; report "Start VGA_COLOR Test Bench" severity NOTE; wait; -- will wait forever END PROCESS; END;
--------------------------------------------------- -- School: University of Massachusetts Dartmouth -- Department: Computer and Electrical Engineering -- Engineer: Daniel Noyes -- -- Create Date: SPRING 2015 -- Module Name: VGA_COLOR_TB -- Project Name: VGA_COLOR -- Target Devices: Spartan-3E -- Tool versions: Xilinx ISE 14.7 -- Description: VGA_COLOR Test Bench --------------------------------------------------- LIBRARY ieee; USE ieee.STD_LOGIC_1164.ALL; USE ieee.STD_LOGIC_unsigned.all; USE ieee.numeric_std.ALL; ENTITY VGA_COLOR_tb_vhd IS END VGA_COLOR_tb_vhd; ARCHITECTURE behavior OF VGA_COLOR_tb_vhd IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT VGA_COLOR Port ( CLK : in STD_LOGIC; RST : in STD_LOGIC; SW : in STD_LOGIC_VECTOR (7 downto 0); HSYNC : out STD_LOGIC; VSYNC : out STD_LOGIC; VGARED : out STD_LOGIC_VECTOR (2 downto 0); VGAGRN : out STD_LOGIC_VECTOR (2 downto 0); VGABLU : out STD_LOGIC_VECTOR (1 downto 0)); END COMPONENT; SIGNAL CLK : STD_LOGIC := '0'; SIGNAL RST : STD_LOGIC := '0'; SIGNAL HSYNC : STD_LOGIC := '0'; SIGNAL VSYNC : STD_LOGIC := '0'; SIGNAL VGARED : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGAGRN : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGABLU : STD_LOGIC_VECTOR(1 downto 0) := (others=>'0'); SIGNAL SW : STD_LOGIC_VECTOR(7 downto 0) := (others=>'0'); -- Constants -- constant period : time := 20 ns; -- 25 MHz =(1/20E-9)/2 constant period : time := 10 ns; -- 50 MHz =(1/10E-9)/2 -- constant period : time := 5 ns; -- 100 MHz =(1/10E-9)/2 BEGIN -- Instantiate the Unit Under Test (UUT) uut: VGA_COLOR PORT MAP( CLK => CLK, RST => RST, SW => SW, HSYNC => HSYNC, VSYNC => VSYNC, VGARED => VGARED, VGAGRN => VGAGRN, VGABLU => VGABLU); -- Generate clock gen_Clock: process begin CLK <= '0'; wait for period; CLK <= '1'; wait for period; end process gen_Clock; tb : PROCESS BEGIN -- Wait 100 ns for global reset to finish wait for 100 ns; report "Start VGA_COLOR Test Bench" severity NOTE; wait; -- will wait forever END PROCESS; END;
--------------------------------------------------- -- School: University of Massachusetts Dartmouth -- Department: Computer and Electrical Engineering -- Engineer: Daniel Noyes -- -- Create Date: SPRING 2015 -- Module Name: VGA_COLOR_TB -- Project Name: VGA_COLOR -- Target Devices: Spartan-3E -- Tool versions: Xilinx ISE 14.7 -- Description: VGA_COLOR Test Bench --------------------------------------------------- LIBRARY ieee; USE ieee.STD_LOGIC_1164.ALL; USE ieee.STD_LOGIC_unsigned.all; USE ieee.numeric_std.ALL; ENTITY VGA_COLOR_tb_vhd IS END VGA_COLOR_tb_vhd; ARCHITECTURE behavior OF VGA_COLOR_tb_vhd IS -- Component Declaration for the Unit Under Test (UUT) COMPONENT VGA_COLOR Port ( CLK : in STD_LOGIC; RST : in STD_LOGIC; SW : in STD_LOGIC_VECTOR (7 downto 0); HSYNC : out STD_LOGIC; VSYNC : out STD_LOGIC; VGARED : out STD_LOGIC_VECTOR (2 downto 0); VGAGRN : out STD_LOGIC_VECTOR (2 downto 0); VGABLU : out STD_LOGIC_VECTOR (1 downto 0)); END COMPONENT; SIGNAL CLK : STD_LOGIC := '0'; SIGNAL RST : STD_LOGIC := '0'; SIGNAL HSYNC : STD_LOGIC := '0'; SIGNAL VSYNC : STD_LOGIC := '0'; SIGNAL VGARED : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGAGRN : STD_LOGIC_VECTOR(2 downto 0) := (others=>'0'); SIGNAL VGABLU : STD_LOGIC_VECTOR(1 downto 0) := (others=>'0'); SIGNAL SW : STD_LOGIC_VECTOR(7 downto 0) := (others=>'0'); -- Constants -- constant period : time := 20 ns; -- 25 MHz =(1/20E-9)/2 constant period : time := 10 ns; -- 50 MHz =(1/10E-9)/2 -- constant period : time := 5 ns; -- 100 MHz =(1/10E-9)/2 BEGIN -- Instantiate the Unit Under Test (UUT) uut: VGA_COLOR PORT MAP( CLK => CLK, RST => RST, SW => SW, HSYNC => HSYNC, VSYNC => VSYNC, VGARED => VGARED, VGAGRN => VGAGRN, VGABLU => VGABLU); -- Generate clock gen_Clock: process begin CLK <= '0'; wait for period; CLK <= '1'; wait for period; end process gen_Clock; tb : PROCESS BEGIN -- Wait 100 ns for global reset to finish wait for 100 ns; report "Start VGA_COLOR Test Bench" severity NOTE; wait; -- will wait forever END PROCESS; 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: tc1458.vhd,v 1.2 2001-10-26 16:29:41 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c08s07b00x00p04n01i01458ent IS END c08s07b00x00p04n01i01458ent; ARCHITECTURE c08s07b00x00p04n01i01458arch OF c08s07b00x00p04n01i01458ent IS begin transmit: process variable delay : integer := 1; variable k : integer := 0; variable m : integer := 0; variable n : integer := 0; begin if delay = 0 then m := 1; elsif delay = 4 then n := 1; else k := 1; end if; assert NOT((m = 0) and (n = 0) and (k = 1)) report "***PASSED TEST: c08s07b00x00p04n01i01458" severity NOTE; assert (m = 0) and (n = 0) and (k = 1) report "***FAILED TEST: c08s07b00x00p04n01i01458 - conditions after the if and elsif are evaluated to be FALSE, so should treat a final else as elsif TRUE then" severity ERROR; wait; end process transmit; END c08s07b00x00p04n01i01458arch;
-- 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: tc1458.vhd,v 1.2 2001-10-26 16:29:41 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c08s07b00x00p04n01i01458ent IS END c08s07b00x00p04n01i01458ent; ARCHITECTURE c08s07b00x00p04n01i01458arch OF c08s07b00x00p04n01i01458ent IS begin transmit: process variable delay : integer := 1; variable k : integer := 0; variable m : integer := 0; variable n : integer := 0; begin if delay = 0 then m := 1; elsif delay = 4 then n := 1; else k := 1; end if; assert NOT((m = 0) and (n = 0) and (k = 1)) report "***PASSED TEST: c08s07b00x00p04n01i01458" severity NOTE; assert (m = 0) and (n = 0) and (k = 1) report "***FAILED TEST: c08s07b00x00p04n01i01458 - conditions after the if and elsif are evaluated to be FALSE, so should treat a final else as elsif TRUE then" severity ERROR; wait; end process transmit; END c08s07b00x00p04n01i01458arch;
-- 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: tc1458.vhd,v 1.2 2001-10-26 16:29:41 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c08s07b00x00p04n01i01458ent IS END c08s07b00x00p04n01i01458ent; ARCHITECTURE c08s07b00x00p04n01i01458arch OF c08s07b00x00p04n01i01458ent IS begin transmit: process variable delay : integer := 1; variable k : integer := 0; variable m : integer := 0; variable n : integer := 0; begin if delay = 0 then m := 1; elsif delay = 4 then n := 1; else k := 1; end if; assert NOT((m = 0) and (n = 0) and (k = 1)) report "***PASSED TEST: c08s07b00x00p04n01i01458" severity NOTE; assert (m = 0) and (n = 0) and (k = 1) report "***FAILED TEST: c08s07b00x00p04n01i01458 - conditions after the if and elsif are evaluated to be FALSE, so should treat a final else as elsif TRUE then" severity ERROR; wait; end process transmit; END c08s07b00x00p04n01i01458arch;
`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 b8051UY0AKmVUQ9hxzGChdgxscY9sJMdiiotN2BG84uBov/PXNeDy1NezCEQMzz8jjj/f/biYAND USeLIYm1/w== `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 jITnPtnTm/29WrdPsAxnO2U9bpTsCvcyWg8oUT1XSIxmYMgS28K78lXZaubeSG1v0muY6skR+bR0 EuF8xR7UhcPhH8NYM73237M7OMaTNC3YkK7xn+Z5v/JUr4B+P4pTIVZTUUl6qIbGTu+40ttw/w3+ 30mJLNzoJvmkdMI72WA= `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 b8051UY0AKmVUQ9hxzGChdgxscY9sJMdiiotN2BG84uBov/PXNeDy1NezCEQMzz8jjj/f/biYAND USeLIYm1/w== `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 jITnPtnTm/29WrdPsAxnO2U9bpTsCvcyWg8oUT1XSIxmYMgS28K78lXZaubeSG1v0muY6skR+bR0 EuF8xR7UhcPhH8NYM73237M7OMaTNC3YkK7xn+Z5v/JUr4B+P4pTIVZTUUl6qIbGTu+40ttw/w3+ 30mJLNzoJvmkdMI72WA= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block sv7ChoSXwBEGO/Tli9aiVQsXcpKJ+BTPLZ/ut3Sc74vFWVLOlPNWzgD6Tfy+0AMgz8TJxJiSsd35 kdZPphOqvifxYNhQB0XUDJLalj51r/wI+/R0y6d2RHv3iEdqvuEpE4/NHHYLhWRIUFDD5sVBNTju sF4S1Spodq+hBHt7wiv2+lYxcqZ1EHV6w3pgvWLwpek2kho7UPgcvzfY5xpusjH4387Rnq3utYJP Ph/JXJiJLRA/Gru7GoPi5rxTAFe5xzQXeWssDn4vcD8RMschyO9RJzZ3CwY8UuoJFYZZbjYdI+s/ /Vnu8geltnA5DbwRvd1fsnzkIDxbxcVK7+AqYg== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block dIaIa7pFauYiqm+oiK8Cqq13GI36bHqaogh0kRfabGHL49PUJn0nvilqCTElFwlRHMVn9ckRIWCF 1cynh0Fp250xHnGGv3shgW1PHkyiMWThcbNdA21tg3I53i7b58YdGFBn/LUGp+S9NN5VGIU9LP6z WO8k2/ZZPbISdX0zIkg= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block c3Vp8kwnrSz+NR8JQzclIcHem/G02Qt0dUbifBXT66jKq1b+uv4WVFKn58eY8qXCaBhhk0U14ry/ 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-- This file is part of the Omega CPU Core -- Copyright 2015 - 2016 Joseph Shetaye -- This program is free software: you can redistribute it and/or modify -- it under the terms of the GNU Lesser General Public License as -- published by the Free Software Foundation, either version 3 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/>. library IEEE; use IEEE.std_logic_1164.all; use work.Constants.all; use IEEE.Numeric_std.all; use std.textio.all; entity ALU_TB is end ALU_TB; architecture Behavioral of ALU_TB is component ALU port ( RegisterB : in Word; RegisterC : in Word; Instruction : in Word; RegisterA : out Word; RegisterD : out Word; Carry : out std_logic; OutputReady : out std_logic); end component; signal RegisterB : Word; signal RegisterC : Word; signal Instruction : Word; signal RegisterA : Word; signal RegisterD : Word; signal Carry : std_logic; signal OutputReady : std_logic; begin -- Behavioral UUT : entity work.ALU port map ( RegisterB => RegisterB, RegisterC => RegisterC, Instruction => Instruction, RegisterA => RegisterA, RegisterD => RegisterD, Carry => Carry, OutputReady => OutputReady); file_io: process is variable in_line : line; variable out_line : line; variable in_vector : bit_vector(31 downto 0) := (others => '0'); variable outputI : integer := 0; variable Counter : integer := 0; variable ExpectedCarry : std_logic := '0'; variable ExpectedRegisterA : Word := (others => '0'); variable ExpectedRegisterD : Word := (others => '0'); begin -- process while not endfile(input) loop readline(input, in_line); if in_line'length = 32 then read(in_line, in_vector); case Counter is when 0 => RegisterB <= to_stdlogicvector(in_vector); Counter := Counter + 1; when 1 => RegisterC <= to_stdlogicvector(in_vector); Counter := Counter + 1; when 2 => Instruction <= to_stdlogicvector(in_vector); Counter := Counter + 1; when 3 => ExpectedRegisterD := to_stdlogicvector(in_vector); Counter := Counter + 1; when 4 => ExpectedRegisterA := to_stdlogicvector(in_vector); Counter := Counter + 1; when 5 => ExpectedCarry := to_stdlogicvector(in_vector)(0); wait for 1 ns; write(out_line, to_bitvector(RegisterD)); writeline(output, out_line); write(out_line, to_bitvector(RegisterA)); writeline(output, out_line); write(out_line, to_bit(Carry)); writeline(output, out_line); if (RegisterD = ExpectedRegisterD) and (RegisterA = ExpectedRegisterA) and (Carry = ExpectedCarry) then write(out_line, string'("Passed")); else write(out_line, string'("Failed")); end if; writeline(output, out_line); Counter := 0; when others => null; end case; else writeline(output,in_line); end if; end loop; wait; end process; end Behavioral;
-------------------------------------------------------------------------------- -- -- BLK MEM GEN v7_3 Core - Synthesizable Testbench -- -------------------------------------------------------------------------------- -- -- (c) Copyright 2006_3010 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: LUTROM_synth.vhd -- -- Description: -- Synthesizable Testbench -------------------------------------------------------------------------------- -- Author: IP Solutions Division -- -- History: Sep 12, 2011 - First Release -------------------------------------------------------------------------------- -- -------------------------------------------------------------------------------- -- Library Declarations -------------------------------------------------------------------------------- LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.ALL; USE IEEE.STD_LOGIC_UNSIGNED.ALL; USE IEEE.STD_LOGIC_ARITH.ALL; USE IEEE.NUMERIC_STD.ALL; USE IEEE.STD_LOGIC_MISC.ALL; LIBRARY STD; USE STD.TEXTIO.ALL; --LIBRARY unisim; --USE unisim.vcomponents.ALL; LIBRARY work; USE work.ALL; USE work.BMG_TB_PKG.ALL; ENTITY LUTROM_synth IS GENERIC ( C_ROM_SYNTH : INTEGER := 1 ); PORT( CLK_IN : IN STD_LOGIC; RESET_IN : IN STD_LOGIC; STATUS : OUT STD_LOGIC_VECTOR(8 DOWNTO 0) := (OTHERS => '0') --ERROR STATUS OUT OF FPGA ); END ENTITY; ARCHITECTURE LUTROM_synth_ARCH OF LUTROM_synth IS COMPONENT LUTROM_exdes PORT ( --Inputs - Port A ADDRA : IN STD_LOGIC_VECTOR(12 DOWNTO 0); DOUTA : OUT STD_LOGIC_VECTOR(17 DOWNTO 0); CLKA : IN STD_LOGIC ); END COMPONENT; SIGNAL CLKA: STD_LOGIC := '0'; SIGNAL RSTA: STD_LOGIC := '0'; SIGNAL ADDRA: STD_LOGIC_VECTOR(12 DOWNTO 0) := (OTHERS => '0'); SIGNAL ADDRA_R: STD_LOGIC_VECTOR(12 DOWNTO 0) := (OTHERS => '0'); SIGNAL DOUTA: STD_LOGIC_VECTOR(17 DOWNTO 0); SIGNAL CHECKER_EN : STD_LOGIC:='0'; SIGNAL CHECKER_EN_R : STD_LOGIC:='0'; SIGNAL STIMULUS_FLOW : STD_LOGIC_VECTOR(22 DOWNTO 0) := (OTHERS =>'0'); SIGNAL clk_in_i: STD_LOGIC; SIGNAL RESET_SYNC_R1 : STD_LOGIC:='1'; SIGNAL RESET_SYNC_R2 : STD_LOGIC:='1'; SIGNAL RESET_SYNC_R3 : STD_LOGIC:='1'; SIGNAL ITER_R0 : STD_LOGIC := '0'; SIGNAL ITER_R1 : STD_LOGIC := '0'; SIGNAL ITER_R2 : STD_LOGIC := '0'; SIGNAL ISSUE_FLAG : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL ISSUE_FLAG_STATUS : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); BEGIN -- clk_buf: bufg -- PORT map( -- i => CLK_IN, -- o => clk_in_i -- ); clk_in_i <= CLK_IN; CLKA <= clk_in_i; RSTA <= RESET_SYNC_R3 AFTER 50 ns; PROCESS(clk_in_i) BEGIN IF(RISING_EDGE(clk_in_i)) THEN RESET_SYNC_R1 <= RESET_IN; RESET_SYNC_R2 <= RESET_SYNC_R1; RESET_SYNC_R3 <= RESET_SYNC_R2; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ISSUE_FLAG_STATUS<= (OTHERS => '0'); ELSE ISSUE_FLAG_STATUS <= ISSUE_FLAG_STATUS OR ISSUE_FLAG; END IF; END IF; END PROCESS; STATUS(7 DOWNTO 0) <= ISSUE_FLAG_STATUS; BMG_STIM_GEN_INST:ENTITY work.BMG_STIM_GEN GENERIC MAP( C_ROM_SYNTH => C_ROM_SYNTH ) PORT MAP( CLK => clk_in_i, RST => RSTA, ADDRA => ADDRA, DATA_IN => DOUTA, STATUS => ISSUE_FLAG(0) ); PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN STATUS(8) <= '0'; iter_r2 <= '0'; iter_r1 <= '0'; iter_r0 <= '0'; ELSE STATUS(8) <= iter_r2; iter_r2 <= iter_r1; iter_r1 <= iter_r0; iter_r0 <= STIMULUS_FLOW(8); END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN STIMULUS_FLOW <= (OTHERS => '0'); ELSIF(ADDRA(0)='1') THEN STIMULUS_FLOW <= STIMULUS_FLOW+1; END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ELSE END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ADDRA_R <= (OTHERS=> '0') AFTER 50 ns; ELSE ADDRA_R <= ADDRA AFTER 50 ns; END IF; END IF; END PROCESS; BMG_PORT: LUTROM_exdes PORT MAP ( --Port A ADDRA => ADDRA_R, DOUTA => DOUTA, CLKA => CLKA ); END ARCHITECTURE;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 fvSnzSn3RKqFjV5riKlhiMkdnRk49C4VDd7APhwIqNMIOFzkMnC6yDLzLNMBAATafDkAYgZFmBQb HxSMAVJcdQ== `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 Nfi9y86U/cmv1Wz/LyJKuofADPcgnS8/sy2GoMB/nBSTqligzXCU9rrmIpGaq6+yaH04pS7A48Fg hqPQIF6/vmj97LqUQC0KVmfiI071+wDWFCbw9zadl7zE8hVxiYgZMlVtVCLWmx4kPwrZEhER3etF CYfACTJuhy053akeqoU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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-- 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: tc261.vhd,v 1.2 2001-10-26 16:30:30 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c03s01b02x00p08n01i00261ent IS END c03s01b02x00p08n01i00261ent; ARCHITECTURE c03s01b02x00p08n01i00261arch OF c03s01b02x00p08n01i00261ent IS BEGIN TESTING: PROCESS variable V : INTEGER := INTEGER'HIGH / 2; BEGIN V := V * 3; -- operation should overflow assert FALSE report "***FAILED TEST: c03s01b02x00p08n01i00261 - Number is out of integer bounds." severity ERROR; wait; END PROCESS TESTING; END c03s01b02x00p08n01i00261arch;
-- 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: tc261.vhd,v 1.2 2001-10-26 16:30:30 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c03s01b02x00p08n01i00261ent IS END c03s01b02x00p08n01i00261ent; ARCHITECTURE c03s01b02x00p08n01i00261arch OF c03s01b02x00p08n01i00261ent IS BEGIN TESTING: PROCESS variable V : INTEGER := INTEGER'HIGH / 2; BEGIN V := V * 3; -- operation should overflow assert FALSE report "***FAILED TEST: c03s01b02x00p08n01i00261 - Number is out of integer bounds." severity ERROR; wait; END PROCESS TESTING; END c03s01b02x00p08n01i00261arch;
-- 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: tc261.vhd,v 1.2 2001-10-26 16:30:30 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c03s01b02x00p08n01i00261ent IS END c03s01b02x00p08n01i00261ent; ARCHITECTURE c03s01b02x00p08n01i00261arch OF c03s01b02x00p08n01i00261ent IS BEGIN TESTING: PROCESS variable V : INTEGER := INTEGER'HIGH / 2; BEGIN V := V * 3; -- operation should overflow assert FALSE report "***FAILED TEST: c03s01b02x00p08n01i00261 - Number is out of integer bounds." severity ERROR; wait; END PROCESS TESTING; END c03s01b02x00p08n01i00261arch;
-- 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: tc2936.vhd,v 1.2 2001-10-26 16:30:24 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- package c02s02b00x00p07n03i02936pkg is function func1 (i,l:integer) return boolean; end c02s02b00x00p07n03i02936pkg; package body c02s02b00x00p07n03i02936pkg is -- ERROR: non-existent body for function func1 end c02s02b00x00p07n03i02936pkg; ENTITY c02s02b00x00p07n03i02936ent IS END c02s02b00x00p07n03i02936ent; ARCHITECTURE c02s02b00x00p07n03i02936arch OF c02s02b00x00p07n03i02936ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s02b00x00p07n03i02936 - Every subprogram declaration has to have a corresponding body." severity ERROR; wait; END PROCESS TESTING; END c02s02b00x00p07n03i02936arch;
-- 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: tc2936.vhd,v 1.2 2001-10-26 16:30:24 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- package c02s02b00x00p07n03i02936pkg is function func1 (i,l:integer) return boolean; end c02s02b00x00p07n03i02936pkg; package body c02s02b00x00p07n03i02936pkg is -- ERROR: non-existent body for function func1 end c02s02b00x00p07n03i02936pkg; ENTITY c02s02b00x00p07n03i02936ent IS END c02s02b00x00p07n03i02936ent; ARCHITECTURE c02s02b00x00p07n03i02936arch OF c02s02b00x00p07n03i02936ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s02b00x00p07n03i02936 - Every subprogram declaration has to have a corresponding body." severity ERROR; wait; END PROCESS TESTING; END c02s02b00x00p07n03i02936arch;
-- 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: tc2936.vhd,v 1.2 2001-10-26 16:30:24 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- package c02s02b00x00p07n03i02936pkg is function func1 (i,l:integer) return boolean; end c02s02b00x00p07n03i02936pkg; package body c02s02b00x00p07n03i02936pkg is -- ERROR: non-existent body for function func1 end c02s02b00x00p07n03i02936pkg; ENTITY c02s02b00x00p07n03i02936ent IS END c02s02b00x00p07n03i02936ent; ARCHITECTURE c02s02b00x00p07n03i02936arch OF c02s02b00x00p07n03i02936ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c02s02b00x00p07n03i02936 - Every subprogram declaration has to have a corresponding body." severity ERROR; wait; END PROCESS TESTING; END c02s02b00x00p07n03i02936arch;
-- NEED RESULT: ARCH00159.P1: Multi inertial transactions occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159.P2: Multi inertial transactions occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159.P3: Multi inertial transactions occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: One inertial transaction occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: One inertial transaction occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: One inertial transaction occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: Old transactions were removed on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: Old transactions were removed on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: Old transactions were removed on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: One inertial transaction occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: One inertial transaction occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: One inertial transaction occurred on signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: Inertial semantics check on a signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: Inertial semantics check on a signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: ARCH00159: Inertial semantics check on a signal asg with indexed name prefixed by an indexed name on LHS passed -- NEED RESULT: P3: Inertial transactions entirely completed passed -- NEED RESULT: P2: Inertial transactions entirely completed passed -- NEED RESULT: P1: Inertial transactions entirely completed passed ------------------------------------------------------------------------------- -- -- Copyright (c) 1989 by Intermetrics, Inc. -- All rights reserved. -- ------------------------------------------------------------------------------- -- -- TEST NAME: -- -- CT00159 -- -- AUTHOR: -- -- G. Tominovich -- -- TEST OBJECTIVES: -- -- 8.3 (1) -- 8.3 (2) -- 8.3 (4) -- 8.3 (5) -- 8.3.1 (4) -- -- DESIGN UNIT ORDERING: -- -- ENT00159(ARCH00159) -- ENT00159_Test_Bench(ARCH00159_Test_Bench) -- -- REVISION HISTORY: -- -- 08-JUL-1987 - initial revision -- -- NOTES: -- -- self-checking -- automatically generated -- use WORK.STANDARD_TYPES.all ; entity ENT00159 is port ( s_st_arr1_vector : inout st_arr1_vector ; s_st_arr2_vector : inout st_arr2_vector ; s_st_arr3_vector : inout st_arr3_vector ) ; subtype chk_sig_type is integer range -1 to 100 ; signal chk_st_arr1_vector : chk_sig_type := -1 ; signal chk_st_arr2_vector : chk_sig_type := -1 ; signal chk_st_arr3_vector : chk_sig_type := -1 ; -- end ENT00159 ; -- architecture ARCH00159 of ENT00159 is begin P1 : process variable correct : boolean ; variable counter : integer := 0 ; variable savtime : time ; -- procedure Proc1 is begin case counter is when 0 => s_st_arr1_vector(lowb) ( st_arr1'Left) <= c_st_arr1_vector_2(highb) ( st_arr1'Right) after 10 ns, c_st_arr1_vector_1(highb) ( st_arr1'Right) after 20 ns ; -- when 1 => correct := s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_2(highb) ( st_arr1'Right) and (savtime + 10 ns) = Std.Standard.Now ; -- when 2 => correct := correct and s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_1(highb) ( st_arr1'Right) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159.P1" , "Multi inertial transactions occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr1_vector(lowb) ( st_arr1'Left) <= c_st_arr1_vector_2(highb) ( st_arr1'Right) after 10 ns, c_st_arr1_vector_1(highb) ( st_arr1'Right) after 20 ns, c_st_arr1_vector_2(highb) ( st_arr1'Right) after 30 ns, c_st_arr1_vector_1(highb) ( st_arr1'Right) after 40 ns ; -- when 3 => correct := s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_2(highb) ( st_arr1'Right) and (savtime + 10 ns) = Std.Standard.Now ; s_st_arr1_vector(lowb) ( st_arr1'Left) <= c_st_arr1_vector_1(highb) ( st_arr1'Right) after 5 ns; -- when 4 => correct := correct and s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_1(highb) ( st_arr1'Right) and (savtime + 5 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "One inertial transaction occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr1_vector(lowb) ( st_arr1'Left) <= transport c_st_arr1_vector_1(highb) ( st_arr1'Right) after 100 ns; -- when 5 => correct := s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_1(highb) ( st_arr1'Right) and (savtime + 100 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "Old transactions were removed on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr1_vector(lowb) ( st_arr1'Left) <= c_st_arr1_vector_2(highb) ( st_arr1'Right) after 10 ns, c_st_arr1_vector_1(highb) ( st_arr1'Right) after 20 ns, c_st_arr1_vector_2(highb) ( st_arr1'Right) after 30 ns, c_st_arr1_vector_1(highb) ( st_arr1'Right) after 40 ns ; -- when 6 => correct := s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_2(highb) ( st_arr1'Right) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "One inertial transaction occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; -- The following will mark last transaction above s_st_arr1_vector(lowb) ( st_arr1'Left) <= c_st_arr1_vector_1(highb) ( st_arr1'Right) after 40 ns; -- when 7 => correct := s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_1(highb) ( st_arr1'Right) and (savtime + 30 ns) = Std.Standard.Now ; -- when 8 => correct := correct and s_st_arr1_vector(lowb) ( st_arr1'Left) = c_st_arr1_vector_1(highb) ( st_arr1'Right) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "Inertial semantics check on a signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; -- when others => -- No more transactions should have occurred test_report ( "ARCH00159" , "Inertial semantics check on a signal " & "asg with indexed name prefixed by an indexed name on LHS", false ) ; -- end case ; -- savtime := Std.Standard.Now ; chk_st_arr1_vector <= transport counter after (1 us - savtime) ; counter := counter + 1; -- end Proc1 ; -- begin Proc1 ; wait until (not s_st_arr1_Vector'Quiet) and (savtime /= Std.Standard.Now) ; -- end process P1 ; -- PGEN_CHKP_1 : process ( chk_st_arr1_Vector ) begin if Std.Standard.Now > 0 ns then test_report ( "P1" , "Inertial transactions entirely completed", chk_st_arr1_Vector = 8 ) ; end if ; end process PGEN_CHKP_1 ; -- -- P2 : process variable correct : boolean ; variable counter : integer := 0 ; variable savtime : time ; -- procedure Proc1 is begin case counter is when 0 => s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) <= c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 10 ns, c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 20 ns ; -- when 1 => correct := s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; -- when 2 => correct := correct and s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159.P2" , "Multi inertial transactions occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) <= c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 10 ns, c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 20 ns, c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 30 ns, c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 40 ns ; -- when 3 => correct := s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) <= c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 5 ns; -- when 4 => correct := correct and s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 5 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "One inertial transaction occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) <= transport c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 100 ns; -- when 5 => correct := s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 100 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "Old transactions were removed on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) <= c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 10 ns, c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 20 ns, c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 30 ns, c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 40 ns ; -- when 6 => correct := s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_2(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "One inertial transaction occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; -- The following will mark last transaction above s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) <= c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) after 40 ns; -- when 7 => correct := s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 30 ns) = Std.Standard.Now ; -- when 8 => correct := correct and s_st_arr2_vector(lowb) ( st_arr2'Left(1),st_arr2'Left(2)) = c_st_arr2_vector_1(highb) ( st_arr2'Right(1),st_arr2'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "Inertial semantics check on a signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; -- when others => -- No more transactions should have occurred test_report ( "ARCH00159" , "Inertial semantics check on a signal " & "asg with indexed name prefixed by an indexed name on LHS", false ) ; -- end case ; -- savtime := Std.Standard.Now ; chk_st_arr2_vector <= transport counter after (1 us - savtime) ; counter := counter + 1; -- end Proc1 ; -- begin Proc1 ; wait until (not s_st_arr2_Vector'Quiet) and (savtime /= Std.Standard.Now) ; -- end process P2 ; -- PGEN_CHKP_2 : process ( chk_st_arr2_Vector ) begin if Std.Standard.Now > 0 ns then test_report ( "P2" , "Inertial transactions entirely completed", chk_st_arr2_Vector = 8 ) ; end if ; end process PGEN_CHKP_2 ; -- -- P3 : process variable correct : boolean ; variable counter : integer := 0 ; variable savtime : time ; -- procedure Proc1 is begin case counter is when 0 => s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) <= c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 10 ns, c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 20 ns ; -- when 1 => correct := s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; -- when 2 => correct := correct and s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159.P3" , "Multi inertial transactions occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) <= c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 10 ns, c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 20 ns, c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 30 ns, c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 40 ns ; -- when 3 => correct := s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) <= c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 5 ns; -- when 4 => correct := correct and s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 5 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "One inertial transaction occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) <= transport c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 100 ns; -- when 5 => correct := s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 100 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "Old transactions were removed on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) <= c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 10 ns, c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 20 ns, c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 30 ns, c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 40 ns ; -- when 6 => correct := s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_2(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "One inertial transaction occurred on signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; -- The following will mark last transaction above s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) <= c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) after 40 ns; -- when 7 => correct := s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 30 ns) = Std.Standard.Now ; -- when 8 => correct := correct and s_st_arr3_vector(lowb) ( st_arr3'Left(1),st_arr3'Left(2)) = c_st_arr3_vector_1(highb) ( st_arr3'Right(1),st_arr3'Right(2)) and (savtime + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00159" , "Inertial semantics check on a signal " & "asg with indexed name prefixed by an indexed name on LHS", correct ) ; -- when others => -- No more transactions should have occurred test_report ( "ARCH00159" , "Inertial semantics check on a signal " & "asg with indexed name prefixed by an indexed name on LHS", false ) ; -- end case ; -- savtime := Std.Standard.Now ; chk_st_arr3_vector <= transport counter after (1 us - savtime) ; counter := counter + 1; -- end Proc1 ; -- begin Proc1 ; wait until (not s_st_arr3_Vector'Quiet) and (savtime /= Std.Standard.Now) ; -- end process P3 ; -- PGEN_CHKP_3 : process ( chk_st_arr3_Vector ) begin if Std.Standard.Now > 0 ns then test_report ( "P3" , "Inertial transactions entirely completed", chk_st_arr3_Vector = 8 ) ; end if ; end process PGEN_CHKP_3 ; -- -- -- end ARCH00159 ; -- use WORK.STANDARD_TYPES.all ; entity ENT00159_Test_Bench is signal s_st_arr1_vector : st_arr1_vector := c_st_arr1_vector_1 ; signal s_st_arr2_vector : st_arr2_vector := c_st_arr2_vector_1 ; signal s_st_arr3_vector : st_arr3_vector := c_st_arr3_vector_1 ; -- end ENT00159_Test_Bench ; -- architecture ARCH00159_Test_Bench of ENT00159_Test_Bench is begin L1: block component UUT port ( s_st_arr1_vector : inout st_arr1_vector ; s_st_arr2_vector : inout st_arr2_vector ; s_st_arr3_vector : inout st_arr3_vector ) ; end component ; -- for CIS1 : UUT use entity WORK.ENT00159 ( ARCH00159 ) ; begin CIS1 : UUT port map ( s_st_arr1_vector , s_st_arr2_vector , s_st_arr3_vector ) ; end block L1 ; end ARCH00159_Test_Bench ;
-- $Id: sysmonx_rbus_arty.vhd 1181 2019-07-08 17:00:50Z mueller $ -- SPDX-License-Identifier: GPL-3.0-or-later -- Copyright 2016-2019 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- ------------------------------------------------------------------------------ -- Module Name: sysmonx_rbus_arty - syn -- Description: 7series XADC interface to rbus (arty pwrmon version) -- -- Dependencies: sysmon_rbus_core -- -- Test bench: - -- -- Target Devices: 7series -- Tool versions: viv 2015.4-2019.1; ghdl 0.33-0.35 -- -- Revision History: -- Date Rev Version Comment -- 2016-03-12 741 1.0 Initial version -- 2016-03-06 738 0.1 First draft ------------------------------------------------------------------------------ -- -- rbus registers: see sysmon_rbus_core and XADC user guide -- -- XADC usage: -- - build-in sensors: temp, Vccint, Vccaux, Vccbram -- - arty power monitoring: -- VAUX( 1) VPWR(0) <- 1/5.99 of JPR5V0 (main 5 V line) -- VAUX( 2) VPWR(1) <- 1/16 of VU (external power jack) -- VAUX( 9) VPWR(2) <- 250mV/A from shunt on JPR5V0 (main 5 V line) -- VAUX(10) VPWR(3) <- 500mV/A from shunt on VCC0V95 (FPGA core) -- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library unisim; use unisim.vcomponents.ALL; use work.slvtypes.all; use work.rblib.all; use work.sysmonrbuslib.all; -- ---------------------------------------------------------------------------- entity sysmonx_rbus_arty is -- XADC interface to rbus (for arty) generic ( INIT_OT_LIMIT : real := 125.0; -- INIT_53 INIT_OT_RESET : real := 70.0; -- INIT_57 INIT_TEMP_UP : real := 85.0; -- INIT_50 (default for C grade) INIT_TEMP_LOW : real := 60.0; -- INIT_54 INIT_VCCINT_UP : real := 0.98; -- INIT_51 (default for -1L types) INIT_VCCINT_LOW : real := 0.92; -- INIT_55 (default for -1L types) INIT_VCCAUX_UP : real := 1.89; -- INIT_52 INIT_VCCAUX_LOW : real := 1.71; -- INIT_56 INIT_VCCBRAM_UP : real := 0.98; -- INIT_58 (default for -1L types) INIT_VCCBRAM_LOW : real := 0.92; -- INIT_5C (default for -1L types) CLK_MHZ : integer := 250; -- clock frequency in MHz RB_ADDR : slv16 := x"fb00"); port ( CLK : in slbit; -- clock RESET : in slbit := '0'; -- reset RB_MREQ : in rb_mreq_type; -- rbus: request RB_SRES : out rb_sres_type; -- rbus: response ALM : out slv8; -- xadc: alarms OT : out slbit; -- xadc: over temp TEMP : out slv12; -- xadc: die temp VPWRN : in slv4 := (others=>'0'); -- xadc: vpwr neg (4 chan pwrmon) VPWRP : in slv4 := (others=>'0') -- xadc: vpwr pos (4 chan pwrmon) ); end sysmonx_rbus_arty; architecture syn of sysmonx_rbus_arty is constant vpwrmap_0 : integer := 1; -- map vpwr(0) -> xadc vaux constant vpwrmap_1 : integer := 2; -- map vpwr(1) -> xadc vaux constant vpwrmap_2 : integer := 9; -- map vpwr(2) -> xadc vaux constant vpwrmap_3 : integer := 10; -- map vpwr(3) -> xadc vaux constant conf2_cd : integer := (CLK_MHZ+25)/26; -- clock division ratio constant init_42 : bv16 := to_bitvector(slv(to_unsigned(256*conf2_cd,16))); constant init_49 : bv16 := (vpwrmap_0 => '1', -- seq #1: (enable pwrmon) vpwrmap_1 => '1', vpwrmap_2 => '1', vpwrmap_3 => '1', others => '0'); signal VAUXN : slv16 := (others=>'0'); signal VAUXP : slv16 := (others=>'0'); signal SM_DEN : slbit := '0'; signal SM_DWE : slbit := '0'; signal SM_DADDR : slv7 := (others=>'0'); signal SM_DI : slv16 := (others=>'0'); signal SM_DO : slv16 := (others=>'0'); signal SM_DRDY : slbit := '0'; signal SM_EOS : slbit := '0'; signal SM_EOC : slbit := '0'; signal SM_RESET : slbit := '0'; signal SM_CHAN : slv5 := (others=>'0'); signal SM_ALM : slv8 := (others=>'0'); signal SM_OT : slbit := '0'; signal SM_JTAGLOCKED : slbit := '0'; signal SM_JTAGMODIFIED : slbit := '0'; signal SM_JTAGBUSY : slbit := '0'; begin SM : XADC generic map ( INIT_40 => xadc_init_40_default, -- conf #0 INIT_41 => xadc_init_41_default, -- conf #1 INIT_42 => init_42, INIT_43 => x"0000", -- test #0 - don't use, stay 0 INIT_44 => x"0000", -- test #1 - " INIT_45 => x"0000", -- test #2 - " INIT_46 => x"0000", -- test #3 - " INIT_47 => x"0000", -- test #4 - " INIT_48 => xadc_init_48_default, -- seq #0: sel 0 INIT_49 => init_49, -- seq #1: sel 1 (enable pwrmon) INIT_4A => xadc_init_4a_default, -- seq #2: avr 0 INIT_4B => x"0000", -- seq #3: avr 1: " INIT_4C => x"0000", -- seq #4: mode 0: unipolar INIT_4D => x"0000", -- seq #5: mode 1: " INIT_4E => x"0000", -- seq #6: time 0: fast INIT_4F => x"0000", -- seq #7: time 1: " INIT_50 => xadc_temp2alim(INIT_TEMP_UP), -- alm #00: temp up (0) INIT_51 => xadc_svolt2alim(INIT_VCCINT_UP), -- alm #01: ccint up (1) INIT_52 => xadc_svolt2alim(INIT_VCCAUX_UP), -- alm #02: ccaux up (2) INIT_53 => xadc_init_53_default, -- alm #03: OT limit OT INIT_54 => xadc_temp2alim(INIT_TEMP_LOW), -- alm #04: temp low (0) INIT_55 => xadc_svolt2alim(INIT_VCCINT_LOW), -- alm #05: ccint low (1) INIT_56 => xadc_svolt2alim(INIT_VCCAUX_LOW), -- alm #06: ccaux low (2) INIT_57 => xadc_init_57_default, -- alm #07: OT reset OT INIT_58 => xadc_svolt2alim(INIT_VCCBRAM_UP), -- alm #08: ccbram up (3) INIT_59 => x"0000", -- alm #09: ccpint up (4) INIT_5A => x"0000", -- alm #10: ccpaux up (5) INIT_5B => x"0000", -- alm #11: ccdram up (6) INIT_5C => xadc_svolt2alim(INIT_VCCBRAM_LOW),-- alm #12: ccbram low (3) INIT_5D => x"0000", -- alm #13: ccpint low (4) INIT_5E => x"0000", -- alm #14: ccpaux low (5) INIT_5F => x"0000", -- alm #15: ccdram low (6) -- IS_CONVSTCLK_INVERTED => '0', -- IS_DCLK_INVERTED => '0', SIM_DEVICE => "7SERIES", SIM_MONITOR_FILE => "sysmon_stim") port map ( DCLK => CLK, DEN => SM_DEN, DWE => SM_DWE, DADDR => SM_DADDR, DI => SM_DI, DO => SM_DO, DRDY => SM_DRDY, EOC => SM_EOC, -- connected for tb usage EOS => SM_EOS, BUSY => open, RESET => SM_RESET, CHANNEL => SM_CHAN, -- connected for tb usage MUXADDR => open, ALM => SM_ALM, OT => SM_OT, CONVST => '0', CONVSTCLK => '0', JTAGBUSY => SM_JTAGBUSY, JTAGLOCKED => SM_JTAGLOCKED, JTAGMODIFIED => SM_JTAGMODIFIED, VAUXN => VAUXN, VAUXP => VAUXP, VN => '0', VP => '0' ); VAUXN <= (vpwrmap_0 => VPWRN(0), vpwrmap_1 => VPWRN(1), vpwrmap_2 => VPWRN(2), vpwrmap_3 => VPWRN(3), others=>'0'); VAUXP <= (vpwrmap_0 => VPWRP(0), vpwrmap_1 => VPWRP(1), vpwrmap_2 => VPWRP(2), vpwrmap_3 => VPWRP(3), others=>'0'); SMRB : sysmon_rbus_core generic map ( DAWIDTH => 7, ALWIDTH => 8, TEWIDTH => 12, IBASE => x"78", RB_ADDR => RB_ADDR) port map ( CLK => CLK, RESET => RESET, RB_MREQ => RB_MREQ, RB_SRES => RB_SRES, SM_DEN => SM_DEN, SM_DWE => SM_DWE, SM_DADDR => SM_DADDR, SM_DI => SM_DI, SM_DO => SM_DO, SM_DRDY => SM_DRDY, SM_EOS => SM_EOS, SM_RESET => SM_RESET, SM_ALM => SM_ALM, SM_OT => SM_OT, SM_JTAGBUSY => SM_JTAGBUSY, SM_JTAGLOCKED => SM_JTAGLOCKED, SM_JTAGMODIFIED => SM_JTAGMODIFIED, TEMP => TEMP ); ALM <= SM_ALM; OT <= SM_OT; end syn;
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 : out std_logic --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;
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 : out std_logic --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;
------------------------------------------------------------------------------ -- Copyright (c) 2014, Pascal Trotta - Testgroup (Politecnico di Torino) -- All rights reserved. -- -- 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. -- -- THIS SOURCE CODE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY -- EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF -- MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE -- COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE -- GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND -- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE -- OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -- POSSIBILITY OF SUCH DAMAGE. ----------------------------------------------------------------------------- -- Entity: dprc -- File: dprc.vhd -- Author: Pascal Trotta (TestGroup research group - Politecnico di Torino) -- Contacts: pascal.trotta@polito.it www.testgroup.polito.it -- Description: Top entity of the dynamic partial reconfiguration controller for Xilinx FPGAs -- (see the DPRC IP-core user manual for configuration and operations). -- Last revision: 08/10/2014 ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; library grlib; use grlib.amba.all; use grlib.devices.all; use grlib.DMA2AHB_Package.all; library techmap; use techmap.gencomp.all; library testgrouppolito; use testgrouppolito.dprc_pkg.all; library unisim; use unisim.vcomponents.all; --pragma translate_off use std.textio.all; use ieee.std_logic_textio.all; --pragma translate_on entity dprc is generic ( cfg_clkmul : integer := 2; -- clkraw multiplier cfg_clkdiv : integer := 1; -- clkraw divisor raw_freq : integer := 50000; -- Board frequency in KHz clk_sel : integer := 0; -- Select between clkraw and clk100 for ICAP domain clk when configured in async or d2prc mode hindex : integer := 2; -- AMBA AHB master index vendorid : integer := VENDOR_CONTRIB; -- Vendor ID deviceid : integer := CONTRIB_CORE1; -- Device ID version : integer := 1; -- Device version pindex : integer := 13; -- AMBA APB slave index paddr : integer := 13; -- Address for APB I/O BAR pmask : integer := 16#fff#; -- Mask for APB I/O BAR technology : integer := virtex4; -- FPGA target technology crc_en : integer := 0; -- Bitstream verification enable (d2prc mode) words_block : integer := 10; -- Number of 32-bit words in a CRC-block fifo_dcm_inst : integer := 0; -- Instantiate clock generator and fifo (async/sync mode) fifo_depth : integer := 9); -- Number of addressing bits for the FIFO (true FIFO depth = 2**fifo_depth) port ( rstn : in std_ulogic; -- Asynchronous Reset input (active low) clkm : in std_ulogic; -- Clock input clkraw : in std_ulogic; -- Raw Clock input clk100 : in std_ulogic; -- 100 MHz Clock input ahbmi : in ahb_mst_in_type; -- AHB master input ahbmo : out ahb_mst_out_type; -- AHB master output apbi : in apb_slv_in_type; -- APB slave input apbo : out apb_slv_out_type; -- APB slave output rm_reset : out std_logic_vector(31 downto 0)); -- Reconfigurable modules reset (1 bit for each different reconfigurable partition) end dprc; architecture dprc_rtl of dprc is signal dma_in : DMA_In_Type; signal dma_out : DMA_Out_Type; signal icap_in, ricap_in : icap_in_type; signal icap_out, ricap_out : icap_out_type; signal clk_icap : std_ulogic; signal icap_swapped : std_logic_vector(31 downto 0); signal cgi : clkgen_in_type; signal cgo : clkgen_out_type; signal sysrstn : std_ulogic; signal rego, reg_apbout : dprc_apbregout_type; signal regi, reg_apbin : dprc_apbregin_type; signal regcontrol : dprc_apbcontrol_type; signal wen_del : std_ulogic; constant pconfig : apb_config_type := (0 => ahb_device_reg (vendorid, deviceid, 0, version, 0), 1 => apb_iobar(paddr, pmask)); --pragma translate_off file icap_file: TEXT open write_mode is "icap_data"; --pragma translate_on begin -- ahb interface dma2ahb_inst: DMA2AHB generic map(hindex => hindex, vendorid => vendorid, deviceid => deviceid, version => version) port map(HCLK => clkm, HRESETn => sysrstn, DMAIn => dma_in, DMAOut => dma_out, AHBIn => ahbmi, AHBOut => ahbmo); -- apb interface apbo.pirq <= (others => '0'); --no interrupt apbo.pindex <= pindex; apbo.pconfig <= pconfig; comb : process(reg_apbout, reg_apbin, apbi, regcontrol) variable readdata : std_logic_vector(31 downto 0); variable regvi : dprc_apbregin_type; variable regvo : dprc_apbregout_type; begin -- assign register outputs to variables regvi := reg_apbin; regvo := reg_apbout; -- read register readdata := (others => '0'); case apbi.paddr(4 downto 2) is when "000" => readdata := reg_apbin.control; when "001" => readdata := reg_apbin.address; when "010" => readdata := reg_apbout.status; when "011" => readdata := reg_apbout.timer; when "100" => readdata := reg_apbin.rm_reset; when others => readdata := (others => '0'); end case; -- write registers if (apbi.psel(pindex) and apbi.penable and apbi.pwrite) = '1' then case apbi.paddr(4 downto 2) is when "000" => regvi.control := apbi.pwdata; when "001" => regvi.address := apbi.pwdata; when "100" => regvi.rm_reset := apbi.pwdata; when others => end case; end if; -- timer if regcontrol.timer_clear='1' then regvo.timer := (others=>'0'); elsif regcontrol.timer_en='1' then regvo.timer := regvo.timer+'1'; end if; -- clear control registers if regcontrol.control_clr='1' then regvi.control := (others=>'0'); end if; -- update status if (regcontrol.status_clr='1') then regvo.status := (others=>'0'); elsif regcontrol.status_en='1' then regvo.status := regcontrol.status_value; end if; -- assign variables to register inputs regi <= regvi; rego <= regvo; -- drive bus with read data apbo.prdata <= readdata; end process; regs : process(clkm,sysrstn) begin if (sysrstn='0') then reg_apbin.control <= (others => '0'); reg_apbin.address <= (others => '0'); reg_apbin.rm_reset <= (others => '0'); reg_apbout.status(31 downto 4) <= (others => '0'); reg_apbout.status(3 downto 0) <= (others => '1'); reg_apbout.timer <= (others => '0'); elsif rising_edge(clkm) then reg_apbin <= regi; reg_apbout <= rego; end if; end process; -- Register ICAP I/Os regs_icap: process(clk_icap, sysrstn) begin if (sysrstn='0') then ricap_out.odata<=(others=>'0'); ricap_out.busy<='0'; ricap_in.idata<=(others=>'0'); ricap_in.cen<='1'; ricap_in.wen<='1'; wen_del <= '1'; elsif rising_edge(clk_icap) then ricap_out <= icap_out; ricap_in <= icap_in; wen_del <= ricap_in.wen; end if; end process; -- operating mode selection d2prc_gen: if crc_en=1 generate d2prc_inst : d2prc generic map (technology => technology, crc_block => words_block, fifo_depth => fifo_depth) port map (rstn => sysrstn, clkm => clkm, clk100 => clk_icap, dmai => dma_in, dmao => dma_out, icapi => icap_in, icapo => ricap_out, apbregi => reg_apbin, apbcontrol => regcontrol, rm_reset => rm_reset); end generate; asyncsync_gen: if crc_en=0 generate async_gen: if fifo_dcm_inst=1 generate async_dprc_inst : async_dprc generic map(technology => technology, fifo_depth => fifo_depth) port map(rstn => sysrstn, clkm => clkm, clk100 => clk_icap, dmai => dma_in, dmao => dma_out, icapi => icap_in, icapo => ricap_out, apbregi => reg_apbin, apbcontrol => regcontrol, rm_reset => rm_reset); end generate; sync_gen: if fifo_dcm_inst=0 generate sync_dprc_inst: sync_dprc port map(rstn => sysrstn, clkm => clkm, dmai => dma_in, dmao => dma_out, icapi => icap_in, icapo => ricap_out, apbregi => reg_apbin, apbcontrol => regcontrol, rm_reset => rm_reset); end generate; end generate; -- clock generation (if necessary) clock_gen: if (crc_en=1 or fifo_dcm_inst=1) generate ext_clk_gen: if clk_sel=1 generate clk_icap <= clk100; -- 100 MHz external clock sysrstn <= rstn; end generate; int_clk_gen: if clk_sel=0 generate -- instantiate internal clock generator cgi.pllctrl <= "00"; cgi.pllrst <= rstn; clkgen_inst : clkgen generic map (technology, cfg_clkmul, cfg_clkdiv, 0, 0, 0, 0, 0, raw_freq) port map (clkin => clkraw, pciclkin => '0', clk => clk_icap, cgi => cgi, cgo => cgo); sysrstn <= cgo.clklock; end generate; end generate; noclock_gen: if (crc_en=0 and fifo_dcm_inst=0) generate clk_icap <= clkm; -- system clock sysrstn <= rstn; end generate; -- ICAP input data byte swapping (if necessary) swap_gen: if (technology=virtex5 or technology=virtex6 or technology=virtex7 or technology=artix7 or technology=kintex7 or technology=zynq7000) generate icapbyteswap(ricap_in.idata,icap_swapped); end generate; -- ICAP instantiation icapv4_gen: if (technology=virtex4) generate icap_virtex4_inst: ICAP_VIRTEX4 generic map (ICAP_WIDTH => "X32") port map (BUSY => icap_out.busy, O => icap_out.odata, CE => ricap_in.cen, CLK => clk_icap, I => ricap_in.idata, WRITE => wen_del); end generate; icapv5_gen: if (technology=virtex5) generate icap_virtex5_inst: ICAP_VIRTEX5 generic map (ICAP_WIDTH => "X32") -- 32 bit data width port map (BUSY => icap_out.busy, O => icap_out.odata, CE => ricap_in.cen, CLK => clk_icap, I => icap_swapped, WRITE => wen_del); end generate; icapv6_gen: if (technology=virtex6) generate icap_virtex6_inst: ICAP_VIRTEX6 generic map (DEVICE_ID => X"04244093", ICAP_WIDTH => "X32", SIM_CFG_FILE_NAME => "NONE") port map (BUSY => icap_out.busy, O => icap_out.odata, CSB => ricap_in.cen, CLK => clk_icap, I => icap_swapped, RDWRB => wen_del); end generate; icap7_gen: if (technology=virtex7 or technology=artix7 or technology=kintex7 or technology=zynq7000) generate icap_7series_inst: ICAPE2 generic map ( DEVICE_ID => X"03631093", ICAP_WIDTH => "X32", SIM_CFG_FILE_NAME => "NONE") port map (O => icap_out.odata, CSIB => ricap_in.cen, CLK => clk_icap, I => icap_swapped, RDWRB => wen_del); end generate; --pragma translate_off -- write ICAP inputs to a file for verification purposes wfile: process variable l : line; begin while true loop wait until rising_edge(clk_icap); wait for 1 ns; if ricap_in.cen='0' and wen_del='0' then write(l, ricap_in.idata); writeline(icap_file, l); end if; end loop; end process; --pragma translate_on end dprc_rtl;
------------------------------------------------------------------------------- -- Title : Vivadi DDS sin lut for SIRIUS 130M -- Project : ------------------------------------------------------------------------------- -- File : dds_sin_lut.vhd -- Author : aylons <aylons@LNLS190> -- Company : -- Created : 2015-04-15 -- Last update: 2016-04-06 -- Platform : -- Standard : VHDL'93/02 ------------------------------------------------------------------------------- -- Description: Temporary sine lut for SIRIUS machine with 130M ADC generated -- through Vivado. ------------------------------------------------------------------------------- -- Copyright (c) 2015 ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 2015-04-15 1.0 aylons Created ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; library work; use work.genram_pkg.all; ------------------------------------------------------------------------------- entity dds_sin_lut is port ( clka : in std_logic; addra : in std_logic_vector(7 downto 0); douta : out std_logic_vector(15 downto 0) ); end entity dds_sin_lut; architecture str of dds_sin_lut is component generic_rom generic ( g_data_width : natural := 32; g_size : natural := 16384; g_init_file : string := ""; g_fail_if_file_not_found : boolean := true ); port ( rst_n_i : in std_logic; -- synchronous reset, active LO clk_i : in std_logic; -- clock input -- address input a_i : in std_logic_vector(f_log2_size(g_size)-1 downto 0); -- data output q_o : out std_logic_vector(g_data_width-1 downto 0) ); end component; begin cmp_sin_lut_sirius_52_181_1 : generic_rom generic map ( g_data_width => 16, g_size => 181, g_init_file => "sin_lut_sirius_52_181.mif", g_fail_if_file_not_found => true ) port map ( rst_n_i => '1', clk_i => clka, a_i => addra, q_o => douta ); end architecture str;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.STD_LOGIC_UNSIGNED.all; entity SP is port ( RST,CLK,LD,INCR,DECR: in std_logic; DATA_IN : in std_logic_vector (7 downto 0); DATA_OUT : out std_logic_vector(7 downto 0)); end SP; architecture my_count of SP is signal s_cnt : std_logic_vector(7 downto 0); begin process (CLK, RST, LD, INCR, DECR) begin if (RST = '1') then s_cnt <= "00000000"; -- asynchronous clear elsif (rising_edge(CLK)) then if (LD = '1') then s_cnt <= DATA_IN; -- Load Condition else if (INCR = '1') then s_cnt <= s_cnt + 1; -- increment else if (DECR = '1') then s_cnt <= s_cnt - 1; -- Decrement else s_cnt <= S_cnt; -- Hold end if; end if; end if; end if; end process; DATA_OUT <= s_cnt; end my_count;
-- $Id: sn_7segctl.vhd 1181 2019-07-08 17:00:50Z mueller $ -- SPDX-License-Identifier: GPL-3.0-or-later -- Copyright 2007-2015 by Walter F.J. Mueller <W.F.J.Mueller@gsi.de> -- ------------------------------------------------------------------------------ -- Module Name: sn_7segctl - syn -- Description: 7 segment display controller (for s3board,nexys,basys) -- -- Dependencies: - -- Test bench: - -- Target Devices: generic -- Tool versions: ise 8.2-14.7; viv 2014.4; ghdl 0.18-0.31 -- -- Synthesized (xst): -- Date Rev ise Target flop lutl lutm slic t peri -- 2015-01-24 637 14.7 131013 xc6slx16-2 9 27 0 16 s 3.1 ns DC=3 -- 2015-01-24 637 14.7 131013 xc6slx16-2 8 19 0 9 s 3.1 ns DC=2 -- 2015-01-24 410 14.7 131013 xc6slx16-2 8 19 0 8 s 3.1 ns -- Revision History: -- Date Rev Version Comment -- 2015-01-24 637 1.3 renamed from sn_4x7segctl; add DCWIDTH, -- allow 4(DC=2) or 8(DC=3) digit display -- 2011-09-17 410 1.2.1 now numeric_std clean -- 2011-07-30 400 1.2 digit dark in last quarter (not 16 clocks) -- 2011-07-08 390 1.1.2 renamed from s3_dispdrv -- 2010-04-17 278 1.1.1 renamed from dispdrv -- 2010-03-29 272 1.1 add all ANO off time to allow to driver turn-off -- delay and to avoid cross talk between digits -- 2007-12-16 101 1.0.1 use _N for active low -- 2007-09-16 83 1.0 Initial version ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.slvtypes.all; entity sn_7segctl is -- 7 segment display controller generic ( DCWIDTH : positive := 2; -- digit counter width (2 or 3) CDWIDTH : positive := 6); -- clk divider width (must be >= 5) port ( CLK : in slbit; -- clock DIN : in slv(4*(2**DCWIDTH)-1 downto 0); -- data 16 or 32 DP : in slv((2**DCWIDTH)-1 downto 0); -- decimal points 4 or 8 ANO_N : out slv((2**DCWIDTH)-1 downto 0); -- anodes (act.low) 4 or 8 SEG_N : out slv8 -- segements (act.low) ); end sn_7segctl; architecture syn of sn_7segctl is type regs_type is record cdiv : slv(CDWIDTH-1 downto 0); -- clock divider counter dcnt : slv(DCWIDTH-1 downto 0); -- digit counter end record regs_type; constant regs_init : regs_type := ( slv(to_unsigned(0,CDWIDTH)), -- cdiv slv(to_unsigned(0,DCWIDTH)) -- dcnt ); type hex2segtbl_type is array (0 to 15) of slv7; constant hex2segtbl : hex2segtbl_type := ("0111111", -- 0: "0000" "0000110", -- 1: "0001" "1011011", -- 2: "0010" "1001111", -- 3: "0011" "1100110", -- 4: "0100" "1101101", -- 5: "0101" "1111101", -- 6: "0110" "0000111", -- 7: "0111" "1111111", -- 8: "1000" "1101111", -- 9: "1001" "1110111", -- a: "1010" "1111100", -- b: "1011" "0111001", -- c: "1100" "1011110", -- d: "1101" "1111001", -- e: "1110" "1110001" -- f: "1111" ); signal R_REGS : regs_type := regs_init; -- state registers signal N_REGS : regs_type := regs_init; -- next value state regs signal CHEX : slv4 := (others=>'0'); -- current hex number signal CDP : slbit := '0'; -- current decimal point begin assert DCWIDTH=2 or DCWIDTH=3 report "assert(DCWIDTH=2 or DCWIDTH=3): unsupported DCWIDTH" severity failure; assert CDWIDTH >= 5 report "assert(CDWIDTH >= 5): CDWIDTH too small" severity failure; proc_regs: process (CLK) begin if rising_edge(CLK) then R_REGS <= N_REGS; end if; end process proc_regs; proc_next: process (R_REGS, CHEX, CDP) variable r : regs_type := regs_init; variable n : regs_type := regs_init; variable cano : slv((2**DCWIDTH)-1 downto 0) := (others=>'0'); begin r := R_REGS; n := R_REGS; n.cdiv := slv(unsigned(r.cdiv) - 1); if unsigned(r.cdiv) = 0 then n.dcnt := slv(unsigned(r.dcnt) + 1); end if; -- the logic below ensures that the anode PNP driver transistor is switched -- off in the last quarter of the digit cycle.This prevents 'cross talk' -- between digits due to transistor turn off delays. -- For a nexys2 board at 50 MHz observed: -- no or 4 cycles gap well visible cross talk -- with 8 cycles still some weak cross talk -- with 16 cycles none is visible. -- --> The turn-off delay of the anode driver PNP's this therefore -- larger 160 ns and below 320 ns. -- As consquence CDWIDTH should be at least 6 for 50 MHz and 7 for 100 MHz. cano := (others=>'1'); if r.cdiv(CDWIDTH-1 downto CDWIDTH-2) /= "00" then cano(to_integer(unsigned(r.dcnt))) := '0'; end if; N_REGS <= n; ANO_N <= cano; SEG_N <= not (CDP & hex2segtbl(to_integer(unsigned(CHEX)))); end process proc_next; proc_mux: process (R_REGS, DIN, DP) begin CDP <= DP(to_integer(unsigned(R_REGS.dcnt))); CHEX(0) <= DIN(0+4*to_integer(unsigned(R_REGS.dcnt))); CHEX(1) <= DIN(1+4*to_integer(unsigned(R_REGS.dcnt))); CHEX(2) <= DIN(2+4*to_integer(unsigned(R_REGS.dcnt))); CHEX(3) <= DIN(3+4*to_integer(unsigned(R_REGS.dcnt))); end process proc_mux; end syn;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 01:53:21 06/02/2011 -- Design Name: -- Module Name: sha256_e1 - 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; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity sha256_e1 is Port ( d : in STD_LOGIC_VECTOR (31 downto 0); q : out STD_LOGIC_VECTOR (31 downto 0)); end sha256_e1; architecture Behavioral of sha256_e1 is begin q <= (d(5 downto 0) & d(31 downto 6)) xor (d(10 downto 0) & d(31 downto 11)) xor (d(24 downto 0) & d(31 downto 25)); end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 01:53:21 06/02/2011 -- Design Name: -- Module Name: sha256_e1 - 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; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity sha256_e1 is Port ( d : in STD_LOGIC_VECTOR (31 downto 0); q : out STD_LOGIC_VECTOR (31 downto 0)); end sha256_e1; architecture Behavioral of sha256_e1 is begin q <= (d(5 downto 0) & d(31 downto 6)) xor (d(10 downto 0) & d(31 downto 11)) xor (d(24 downto 0) & d(31 downto 25)); end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 01:53:21 06/02/2011 -- Design Name: -- Module Name: sha256_e1 - 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; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity sha256_e1 is Port ( d : in STD_LOGIC_VECTOR (31 downto 0); q : out STD_LOGIC_VECTOR (31 downto 0)); end sha256_e1; architecture Behavioral of sha256_e1 is begin q <= (d(5 downto 0) & d(31 downto 6)) xor (d(10 downto 0) & d(31 downto 11)) xor (d(24 downto 0) & d(31 downto 25)); end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 01:53:21 06/02/2011 -- Design Name: -- Module Name: sha256_e1 - 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; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity sha256_e1 is Port ( d : in STD_LOGIC_VECTOR (31 downto 0); q : out STD_LOGIC_VECTOR (31 downto 0)); end sha256_e1; architecture Behavioral of sha256_e1 is begin q <= (d(5 downto 0) & d(31 downto 6)) xor (d(10 downto 0) & d(31 downto 11)) xor (d(24 downto 0) & d(31 downto 25)); end Behavioral;
--Latch LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.ALL; USE IEEE.STD_LOGIC_ARITH.ALL; USE IEEE.STD_LOGIC_UNSIGNED.ALL; ENTITY D_LATCH IS PORT( LATCH_EN: IN STD_LOGIC; D1_IN: IN STD_LOGIC_VECTOR(3 DOWNTO 0); D2_IN: IN STD_LOGIC_VECTOR(3 DOWNTO 0); D3_IN: IN STD_LOGIC_VECTOR(3 DOWNTO 0); D1_OUT: OUT STD_LOGIC_VECTOR(3 DOWNTO 0); D2_OUT: OUT STD_LOGIC_VECTOR(3 DOWNTO 0); D3_OUT: OUT STD_LOGIC_VECTOR(3 DOWNTO 0)); END ENTITY D_LATCH; ARCHITECTURE ART1 OF D_LATCH IS BEGIN PROCESS(LATCH_EN) BEGIN IF (LATCH_EN='1') THEN D1_OUT <= D1_IN; D2_OUT <= D2_IN; D3_OUT <= D3_IN; ELSE D1_OUT <= "0000"; D2_OUT <= "0000"; D3_OUT <= "0000"; END IF; END PROCESS; END ARCHITECTURE ART1;
-- NEED RESULT: ARCH00368.P1: Multi transport transactions occurred on concurrent signal asg passed -- NEED RESULT: ARCH00368: One transport transaction occurred on a concurrent signal asg passed -- NEED RESULT: ARCH00368: Old transactions were removed on a concurrent signal asg passed -- NEED RESULT: P1: Transport transactions completed entirely passed ------------------------------------------------------------------------------- -- -- Copyright (c) 1989 by Intermetrics, Inc. -- All rights reserved. -- ------------------------------------------------------------------------------- -- -- TEST NAME: -- -- CT00368 -- -- AUTHOR: -- -- G. Tominovich -- -- TEST OBJECTIVES: -- -- 9.5 (2) -- 9.5.1 (1) -- 9.5.1 (2) -- -- DESIGN UNIT ORDERING: -- -- ENT00368(ARCH00368) -- ENT00368_Test_Bench(ARCH00368_Test_Bench) -- -- REVISION HISTORY: -- -- 30-JUL-1987 - initial revision -- -- NOTES: -- -- self-checking -- automatically generated -- use WORK.STANDARD_TYPES.all ; entity ENT00368 is end ENT00368 ; -- -- architecture ARCH00368 of ENT00368 is subtype chk_sig_type is integer range -1 to 100 ; signal chk_st_rec3 : chk_sig_type := -1 ; -- subtype chk_time_type is Time ; signal s_st_rec3_savt : chk_time_type := 0 ns ; -- subtype chk_cnt_type is Integer ; signal s_st_rec3_cnt : chk_cnt_type := 0 ; -- type select_type is range 1 to 3 ; signal st_rec3_select : select_type := 1 ; -- signal s_st_rec3 : st_rec3 := c_st_rec3_1 ; -- begin CHG1 : process ( s_st_rec3 ) variable correct : boolean ; begin case s_st_rec3_cnt is when 0 => null ; -- s_st_rec3.f3(lowb,true) <= transport -- c_st_rec3_2.f3(lowb,true) after 10 ns, -- c_st_rec3_1.f3(lowb,true) after 20 ns ; -- when 1 => correct := s_st_rec3.f3(lowb,true) = c_st_rec3_2.f3(lowb,true) and (s_st_rec3_savt + 10 ns) = Std.Standard.Now ; -- when 2 => correct := correct and s_st_rec3.f3(lowb,true) = c_st_rec3_1.f3(lowb,true) and (s_st_rec3_savt + 10 ns) = Std.Standard.Now ; test_report ( "ARCH00368.P1" , "Multi transport transactions occurred on " & "concurrent signal asg", correct ) ; -- st_rec3_select <= transport 2 ; -- s_st_rec3.f3(lowb,true) <= transport -- c_st_rec3_2.f3(lowb,true) after 10 ns , -- c_st_rec3_1.f3(lowb,true) after 20 ns , -- c_st_rec3_2.f3(lowb,true) after 30 ns , -- c_st_rec3_1.f3(lowb,true) after 40 ns ; -- when 3 => correct := s_st_rec3.f3(lowb,true) = c_st_rec3_2.f3(lowb,true) and (s_st_rec3_savt + 10 ns) = Std.Standard.Now ; st_rec3_select <= transport 3 ; -- s_st_rec3.f3(lowb,true) <= transport -- c_st_rec3_1.f3(lowb,true) after 5 ns ; -- when 4 => correct := correct and s_st_rec3.f3(lowb,true) = c_st_rec3_1.f3(lowb,true) and (s_st_rec3_savt + 5 ns) = Std.Standard.Now ; test_report ( "ARCH00368" , "One transport transaction occurred on a " & "concurrent signal asg", correct ) ; test_report ( "ARCH00368" , "Old transactions were removed on a " & "concurrent signal asg", correct ) ; -- when others => -- No more transactions should have occurred test_report ( "ARCH00368" , "Old transactions were removed on a " & "concurrent signal asg", false ) ; -- end case ; -- s_st_rec3_savt <= transport Std.Standard.Now ; chk_st_rec3 <= transport s_st_rec3_cnt after (1 us - Std.Standard.Now) ; s_st_rec3_cnt <= transport s_st_rec3_cnt + 1 ; -- end process CHG1 ; -- PGEN_CHKP_1 : process ( chk_st_rec3 ) begin if Std.Standard.Now > 0 ns then test_report ( "P1" , "Transport transactions completed entirely", chk_st_rec3 = 4 ) ; end if ; end process PGEN_CHKP_1 ; -- -- s_st_rec3.f3(lowb,true) <= transport c_st_rec3_2.f3(lowb,true) after 10 ns, c_st_rec3_1.f3(lowb,true) after 20 ns when st_rec3_select = 1 else -- c_st_rec3_2.f3(lowb,true) after 10 ns , c_st_rec3_1.f3(lowb,true) after 20 ns , c_st_rec3_2.f3(lowb,true) after 30 ns , c_st_rec3_1.f3(lowb,true) after 40 ns when st_rec3_select = 2 else -- c_st_rec3_1.f3(lowb,true) after 5 ns ; -- end ARCH00368 ; -- -- use WORK.STANDARD_TYPES.all ; entity ENT00368_Test_Bench is end ENT00368_Test_Bench ; -- -- architecture ARCH00368_Test_Bench of ENT00368_Test_Bench is begin L1: block component UUT end component ; -- for CIS1 : UUT use entity WORK.ENT00368 ( ARCH00368 ) ; begin CIS1 : UUT ; end block L1 ; end ARCH00368_Test_Bench ;
-- Functions for implementing the sine wave lookup tables which are described -- in midi_pkg.vhd. -- -- The actual sine wave LUTs will take advantage of that fact that sine waves -- have two axes of symmetry. Thus only 1/4 of a sinewave is stored in the -- lookup tables. midi_pkg will never know this. -- -- This sine lut will go into block ram. For whatever number of brams are used -- to hold the sine lut, we will aim to fill them all the way up. the the size -- of the LUT is expressed in terms of block rams -- TODO: this package seems very friendly with midi_pkg, which is currently more -- interested in the details of sine generation than anything really to do with -- midi. Sort it out so that it makes more sense. library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use ieee.math_real.all; library virtual_button_lib; use virtual_button_lib.constants.all; package sine_lut_pkg is -- Each bram is 1024 entries long. constant sine_addr_max : integer := sine_lut_bram_depth * 4 - 1; -- The width of each entry is 16 bits. This will be inefficient when -- num_lut_entries is low, because num_lut_entries will not provide enough -- precision to make use of 16 bits of width. -- -- However since Spartan 6 block RAM can only store data of widths 1, 2, 4, 8, -- 16 and 32, no other width makes sense. 8 bits will give poor fidelity and 32 -- bits will give wasteful fidelity. -- TWEAKABLE constant lut_width : integer := 16; type sine_lut_arr is array (0 to sine_lut_bram_depth - 1) of signed(lut_width - 1 downto 0); -- Function to produce the constant data needed for the LUT. -- Should be run at elaboration time only. function calc_sine_lut return sine_lut_arr; end; package body sine_lut_pkg is function calc_sine_lut return sine_lut_arr is variable ret : sine_lut_arr; -- The proportion of the way we are round the first quarter of a circle. -- VHDL sine is in radians, so this will count from 0 to pi. variable proportion : real; begin -- TODO: Some of the mathsy code here is a bit ugly. Can I make it prettier? for i in 0 to sine_lut_bram_depth - 1 loop proportion := 0.25 * real(i) * (math_2_pi / real(sine_lut_bram_depth)); ret(i) := to_signed(integer(sin(proportion) * real(2**(lut_width - 1))), lut_width); -- correct an error where sin(x) = 1 is recorded as sin(x) = -1 if i /= 0 then if ret(i) = -(2**(lut_width-1)) and ret(i - 1) > 0 then ret(i) := ret(i - 1); end if; end if; end loop; return ret; end; end;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2006, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : fall_through_add_on ------------------------------------------------------------------------------- -- Description: fall_through_add_on, one position deep fifo-add-on ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity fall_through_add_on is generic ( g_data_width : natural := 32); port ( clock : in std_logic; reset : in std_logic; -- fifo side rd_dout : in std_logic_vector(g_data_width - 1 downto 0); rd_empty : in std_logic; rd_en : out std_logic; -- consumer side data_out : out std_logic_vector(g_data_width - 1 downto 0); data_valid : out std_logic; data_next : in std_logic); end fall_through_add_on; architecture structural of fall_through_add_on is type t_state is (empty, full); signal state : t_state; begin -- structural fsm : process (clock) begin -- process fsm if clock'event and clock = '1' then -- rising clock edge case state is when empty => if rd_empty = '0' then state <= full; end if; when full => if data_next = '1' and rd_empty = '1' then state <= empty; end if; when others => null; end case; if reset = '1' then -- synchronous reset (active high) state <= empty; end if; end if; end process fsm; data_valid <= '1' when state = full else '0'; rd_en <= '1' when ((state = empty and rd_empty = '0') or (state = full and rd_empty = '0' and data_next = '1')) else '0'; data_out <= rd_dout; end structural;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2006, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : fall_through_add_on ------------------------------------------------------------------------------- -- Description: fall_through_add_on, one position deep fifo-add-on ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity fall_through_add_on is generic ( g_data_width : natural := 32); port ( clock : in std_logic; reset : in std_logic; -- fifo side rd_dout : in std_logic_vector(g_data_width - 1 downto 0); rd_empty : in std_logic; rd_en : out std_logic; -- consumer side data_out : out std_logic_vector(g_data_width - 1 downto 0); data_valid : out std_logic; data_next : in std_logic); end fall_through_add_on; architecture structural of fall_through_add_on is type t_state is (empty, full); signal state : t_state; begin -- structural fsm : process (clock) begin -- process fsm if clock'event and clock = '1' then -- rising clock edge case state is when empty => if rd_empty = '0' then state <= full; end if; when full => if data_next = '1' and rd_empty = '1' then state <= empty; end if; when others => null; end case; if reset = '1' then -- synchronous reset (active high) state <= empty; end if; end if; end process fsm; data_valid <= '1' when state = full else '0'; rd_en <= '1' when ((state = empty and rd_empty = '0') or (state = full and rd_empty = '0' and data_next = '1')) else '0'; data_out <= rd_dout; end structural;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2006, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : fall_through_add_on ------------------------------------------------------------------------------- -- Description: fall_through_add_on, one position deep fifo-add-on ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity fall_through_add_on is generic ( g_data_width : natural := 32); port ( clock : in std_logic; reset : in std_logic; -- fifo side rd_dout : in std_logic_vector(g_data_width - 1 downto 0); rd_empty : in std_logic; rd_en : out std_logic; -- consumer side data_out : out std_logic_vector(g_data_width - 1 downto 0); data_valid : out std_logic; data_next : in std_logic); end fall_through_add_on; architecture structural of fall_through_add_on is type t_state is (empty, full); signal state : t_state; begin -- structural fsm : process (clock) begin -- process fsm if clock'event and clock = '1' then -- rising clock edge case state is when empty => if rd_empty = '0' then state <= full; end if; when full => if data_next = '1' and rd_empty = '1' then state <= empty; end if; when others => null; end case; if reset = '1' then -- synchronous reset (active high) state <= empty; end if; end if; end process fsm; data_valid <= '1' when state = full else '0'; rd_en <= '1' when ((state = empty and rd_empty = '0') or (state = full and rd_empty = '0' and data_next = '1')) else '0'; data_out <= rd_dout; end structural;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2006, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : fall_through_add_on ------------------------------------------------------------------------------- -- Description: fall_through_add_on, one position deep fifo-add-on ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity fall_through_add_on is generic ( g_data_width : natural := 32); port ( clock : in std_logic; reset : in std_logic; -- fifo side rd_dout : in std_logic_vector(g_data_width - 1 downto 0); rd_empty : in std_logic; rd_en : out std_logic; -- consumer side data_out : out std_logic_vector(g_data_width - 1 downto 0); data_valid : out std_logic; data_next : in std_logic); end fall_through_add_on; architecture structural of fall_through_add_on is type t_state is (empty, full); signal state : t_state; begin -- structural fsm : process (clock) begin -- process fsm if clock'event and clock = '1' then -- rising clock edge case state is when empty => if rd_empty = '0' then state <= full; end if; when full => if data_next = '1' and rd_empty = '1' then state <= empty; end if; when others => null; end case; if reset = '1' then -- synchronous reset (active high) state <= empty; end if; end if; end process fsm; data_valid <= '1' when state = full else '0'; rd_en <= '1' when ((state = empty and rd_empty = '0') or (state = full and rd_empty = '0' and data_next = '1')) else '0'; data_out <= rd_dout; end structural;
------------------------------------------------------------------------------- -- -- (C) COPYRIGHT 2006, Gideon's Logic Architectures -- ------------------------------------------------------------------------------- -- Title : fall_through_add_on ------------------------------------------------------------------------------- -- Description: fall_through_add_on, one position deep fifo-add-on ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; entity fall_through_add_on is generic ( g_data_width : natural := 32); port ( clock : in std_logic; reset : in std_logic; -- fifo side rd_dout : in std_logic_vector(g_data_width - 1 downto 0); rd_empty : in std_logic; rd_en : out std_logic; -- consumer side data_out : out std_logic_vector(g_data_width - 1 downto 0); data_valid : out std_logic; data_next : in std_logic); end fall_through_add_on; architecture structural of fall_through_add_on is type t_state is (empty, full); signal state : t_state; begin -- structural fsm : process (clock) begin -- process fsm if clock'event and clock = '1' then -- rising clock edge case state is when empty => if rd_empty = '0' then state <= full; end if; when full => if data_next = '1' and rd_empty = '1' then state <= empty; end if; when others => null; end case; if reset = '1' then -- synchronous reset (active high) state <= empty; end if; end if; end process fsm; data_valid <= '1' when state = full else '0'; rd_en <= '1' when ((state = empty and rd_empty = '0') or (state = full and rd_empty = '0' and data_next = '1')) else '0'; data_out <= rd_dout; end structural;
LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.all; USE IEEE.STD_LOGIC_ARITH.all; USE IEEE.STD_LOGIC_UNSIGNED.all; ENTITY REG IS generic( width : integer := 16 ); PORT( CLK : IN STD_LOGIC; CLR : IN STD_LOGIC; LOAD : IN STD_LOGIC; I : IN STD_LOGIC_VECTOR(width-1 DOWNTO 0); O : OUT STD_LOGIC_VECTOR(width-1 DOWNTO 0) ); END REG; ARCHITECTURE main OF REG IS BEGIN PROCESS(CLK, CLR) VARIABLE DATA : STD_LOGIC_VECTOR(width-1 DOWNTO 0); BEGIN IF(CLR = '1') THEN DATA := (others => '0'); O <= (others => '0'); ELSIF(CLK'EVENT AND CLK = '1') THEN IF(LOAD = '1') THEN DATA := I; END IF; END IF; O <= DATA; END PROCESS; END main;
-- 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: tc2620.vhd,v 1.2 2001-10-26 16:30:20 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s03b01x00p02n01i02620ent IS END c13s03b01x00p02n01i02620ent; ARCHITECTURE c13s03b01x00p02n01i02620arch OF c13s03b01x00p02n01i02620ent IS BEGIN TESTING: PROCESS variable k~k : integer := 0; BEGIN assert FALSE report "***FAILED TEST: c13s03b01x00p02n01i02620 - Identifier can not contain '~'." severity ERROR; wait; END PROCESS TESTING; END c13s03b01x00p02n01i02620arch;
-- 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: tc2620.vhd,v 1.2 2001-10-26 16:30:20 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s03b01x00p02n01i02620ent IS END c13s03b01x00p02n01i02620ent; ARCHITECTURE c13s03b01x00p02n01i02620arch OF c13s03b01x00p02n01i02620ent IS BEGIN TESTING: PROCESS variable k~k : integer := 0; BEGIN assert FALSE report "***FAILED TEST: c13s03b01x00p02n01i02620 - Identifier can not contain '~'." severity ERROR; wait; END PROCESS TESTING; END c13s03b01x00p02n01i02620arch;
-- 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: tc2620.vhd,v 1.2 2001-10-26 16:30:20 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s03b01x00p02n01i02620ent IS END c13s03b01x00p02n01i02620ent; ARCHITECTURE c13s03b01x00p02n01i02620arch OF c13s03b01x00p02n01i02620ent IS BEGIN TESTING: PROCESS variable k~k : integer := 0; BEGIN assert FALSE report "***FAILED TEST: c13s03b01x00p02n01i02620 - Identifier can not contain '~'." severity ERROR; wait; END PROCESS TESTING; END c13s03b01x00p02n01i02620arch;
library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.std_logic_arith.all; entity RCA_GENERIC is generic (N : integer); Port ( A: In std_logic_vector(N-1 downto 0); B: In std_logic_vector(N-1 downto 0); Ci: In std_logic; S: Out std_logic_vector(N-1 downto 0); Co: Out std_logic); end RCA_GENERIC; architecture BEHAVIORAL of RCA_GENERIC is signal SUM : std_logic_vector(N downto 0); begin SUM <= conv_std_logic_vector((conv_integer(A)+conv_integer(B)+conv_integer(Ci)),N+1); S <= SUM(N-1 downto 0); Co <= SUM(N); 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 -- -- 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: syncram_2pbw -- File: syncram_2pbw.vhd -- Author: Jiri Gaisler - Gaisler Research -- Description: syncronous 2-port ram with tech selection and 8-bit write -- strobes ------------------------------------------------------------------------------ library ieee; library techmap; use ieee.std_logic_1164.all; use techmap.gencomp.all; use techmap.allmem.all; library grlib; use grlib.config.all; use grlib.config_types.all; use grlib.stdlib.all; entity syncram_2pbw is generic (tech : integer := 0; abits : integer := 6; dbits : integer := 8; sepclk : integer := 0; wrfst : integer := 0; testen : integer := 0; words : integer := 0; custombits : integer := 1); port ( rclk : in std_ulogic; renable : in std_logic_vector((dbits/8-1) downto 0); raddress : in std_logic_vector((abits-1) downto 0); dataout : out std_logic_vector((dbits-1) downto 0); wclk : in std_ulogic; write : in std_logic_vector((dbits/8-1) downto 0); waddress : in std_logic_vector((abits-1) downto 0); datain : in std_logic_vector((dbits-1) downto 0); testin : in std_logic_vector(TESTIN_WIDTH-1 downto 0) := testin_none; customclk: in std_ulogic := '0'; customin : in std_logic_vector((dbits/8)*custombits-1 downto 0) := (others => '0'); customout:out std_logic_vector((dbits/8)*custombits-1 downto 0)); end; architecture rtl of syncram_2pbw is constant nctrl : integer := abits*2 + 2 + 2*dbits/8; signal dataoutx : std_logic_vector((dbits -1) downto 0); signal databp, testdata : std_logic_vector((dbits -1) downto 0); signal renable2 : std_logic_vector((dbits/8-1) downto 0); constant SCANTESTBP : boolean := (testen = 1) and (tech /= 0) and (tech /= ut90); constant iwrfst : integer := (1-syncram_2p_write_through(tech)) * wrfst; signal xrenable,xwrite : std_logic_vector(dbits/8-1 downto 0); signal custominx,customoutx: std_logic_vector(syncram_customif_maxwidth downto 0); begin xrenable <= renable when testen=0 or testin(TESTIN_WIDTH-2)='0' else (others => '0'); xwrite <= write when testen=0 or testin(TESTIN_WIDTH-2)='0' else (others => '0'); s2pbw : if has_sram_2pbw(tech) = 1 generate no_wrfst : if iwrfst = 0 generate scanbp : if SCANTESTBP generate comb : process (waddress, raddress, datain, renable, write, testin) variable tmp : std_logic_vector((dbits -1) downto 0); variable ctrlsigs : std_logic_vector((nctrl -1) downto 0); begin ctrlsigs := testin(1 downto 0) & write & renable & raddress & waddress; tmp := datain; for i in 0 to nctrl-1 loop tmp(i mod dbits) := tmp(i mod dbits) xor ctrlsigs(i); end loop; testdata <= tmp; end process; reg : process(wclk) begin if rising_edge(wclk) then databp <= testdata; end if; end process; dmuxout : for i in 0 to dbits-1 generate x0 : grmux2 generic map (tech) port map (dataoutx(i), databp(i), testin(3), dataout(i)); end generate; end generate; noscanbp : if not SCANTESTBP generate dataout <= dataoutx; end generate; -- Write contention check (if applicable) wcheck : for i in 0 to dbits/8-1 generate renable2(i) <= '0' when ((sepclk = 0 and syncram_2p_dest_rw_collision(tech) = 1) and (renable(i) and write(i)) = '1' and raddress = waddress) else renable(i); end generate; end generate; wrfst_gen : if iwrfst = 1 generate -- No risk for read/write contention. Register addresses and mux on comparator no_contention_check : if syncram_2p_dest_rw_collision(tech) = 0 generate wfrstblocknoc : block type wrfst_type is record raddr : std_logic_vector((abits-1) downto 0); waddr : std_logic_vector((abits-1) downto 0); datain : std_logic_vector((dbits-1) downto 0); write : std_logic_vector((dbits/8-1) downto 0); renable : std_logic_vector((dbits/8-1) downto 0); end record; signal r : wrfst_type; begin comb : process(r, dataoutx, testin) begin for i in 0 to dbits/8-1 loop if (SCANTESTBP and (testin(3) = '1')) or (((r.write(i) and r.renable(i)) = '1') and (r.raddr = r.waddr)) then dataout(i*8+7 downto i*8) <= r.datain(i*8+7 downto i*8); else dataout(i*8+7 downto i*8) <= dataoutx(i*8+7 downto i*8); end if; end loop; end process; reg : process(wclk) begin if rising_edge(wclk) then r.raddr <= raddress; r.waddr <= waddress; r.datain <= datain; r.write <= write; r.renable <= renable; end if; end process; end block wfrstblocknoc; renable2 <= renable; end generate; -- Risk of read/write contention. Use same comparator to gate read enable -- and mux data. contention_safe : if syncram_2p_dest_rw_collision(tech) /= 0 generate wfrstblockc : block signal col, mux : std_logic_vector((dbits/8-1) downto 0); signal rdatain : std_logic_vector((dbits-1) downto 0); begin comb : process(mux, renable, write, raddress, waddress, rdatain, dataoutx, testin) begin for i in 0 to dbits/8-1 loop col(i) <= '0'; renable2(i) <= renable(i); if (write(i) and renable(i)) = '1' and raddress = waddress then col(i) <= '1'; renable2(i) <= '0'; end if; if (SCANTESTBP and (testin(3) = '1')) or mux(i) = '1' then dataout(i*8+7 downto i*8) <= rdatain(i*8+7 downto i*8); else dataout(i*8+7 downto i*8) <= dataoutx(i*8+7 downto i*8); end if; end loop; end process; reg : process(wclk) begin if rising_edge(wclk) then rdatain <= datain; mux <= col; end if; end process; end block wfrstblockc; end generate; end generate wrfst_gen; custominx(custominx'high downto custombits) <= (others => '0'); custominx(custombits-1 downto 0) <= customin; nocust: if has_sram_2pbw(tech)=0 or syncram_has_customif(tech)=0 generate customoutx <= (others => '0'); end generate; co0: if has_sram_2pbw(tech)=1 generate customout(custombits-1 downto 0) <= customoutx(custombits-1 downto 0); customout(customout'high downto custombits) <= (others => '0'); end generate; n2x : if tech = easic45 generate x0 : n2x_syncram_2p_be generic map (abits, dbits, sepclk, iwrfst) port map (rclk, renable2, raddress, dataoutx, wclk, write, waddress, datain); end generate; -- pragma translate_off noram : if has_2pram(tech) = 0 generate x : process begin assert false report "synram_2pbw: technology " & tech_table(tech) & " not supported" severity failure; wait; end process; end generate; dmsg : if GRLIB_CONFIG_ARRAY(grlib_debug_level) >= 2 generate x : process begin assert false report "syncram_2pbw: " & tost(2**abits) & "x" & tost(dbits) & " (" & tech_table(tech) & ")" severity note; wait; end process; end generate; generic_check : process begin assert sepclk = 0 or wrfst = 0 report "syncram_2pbw: Write-first not supported for RAM with separate clocks" severity failure; wait; end process; -- pragma translate_on end generate; nos2pbw : if has_sram_2pbw(tech) /= 1 generate rx : for i in 0 to dbits/8-1 generate x0 : syncram_2p generic map (tech, abits, 8, sepclk, wrfst, testen, words, custombits) port map (rclk, renable(i), raddress, dataout(i*8+7 downto i*8), wclk, write(i), waddress, datain(i*8+7 downto i*8), testin, customclk, customin((i+1)*custombits-1 downto i*custombits), customout((i+1)*custombits-1 downto i*custombits)); end generate; end generate; end;
-- Copyright 1986-2016 Xilinx, Inc. All Rights Reserved. -- -------------------------------------------------------------------------------- -- Tool Version: Vivado v.2016.4 (win64) Build 1733598 Wed Dec 14 22:35:39 MST 2016 -- Date : Wed Mar 01 09:53:17 2017 -- Host : GILAMONSTER running 64-bit major release (build 9200) -- Command : write_vhdl -force -mode funcsim -rename_top system_rgb565_to_rgb888_0_0 -prefix -- system_rgb565_to_rgb888_0_0_ system_rgb565_to_rgb888_1_0_sim_netlist.vhdl -- Design : system_rgb565_to_rgb888_1_0 -- Purpose : This VHDL netlist is a functional simulation representation of the design and should not be modified or -- synthesized. This netlist cannot be used for SDF annotated simulation. -- Device : xc7z010clg400-1 -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; library UNISIM; use UNISIM.VCOMPONENTS.ALL; entity system_rgb565_to_rgb888_0_0 is port ( rgb_565 : in STD_LOGIC_VECTOR ( 15 downto 0 ); rgb_888 : out STD_LOGIC_VECTOR ( 23 downto 0 ) ); attribute NotValidForBitStream : boolean; attribute NotValidForBitStream of system_rgb565_to_rgb888_0_0 : entity is true; attribute CHECK_LICENSE_TYPE : string; attribute CHECK_LICENSE_TYPE of system_rgb565_to_rgb888_0_0 : entity is "system_rgb565_to_rgb888_1_0,rgb565_to_rgb888,{}"; attribute downgradeipidentifiedwarnings : string; attribute downgradeipidentifiedwarnings of system_rgb565_to_rgb888_0_0 : entity is "yes"; attribute x_core_info : string; attribute x_core_info of system_rgb565_to_rgb888_0_0 : entity is "rgb565_to_rgb888,Vivado 2016.4"; end system_rgb565_to_rgb888_0_0; architecture STRUCTURE of system_rgb565_to_rgb888_0_0 is signal \<const0>\ : STD_LOGIC; signal \^rgb_565\ : STD_LOGIC_VECTOR ( 15 downto 0 ); begin \^rgb_565\(15 downto 0) <= rgb_565(15 downto 0); rgb_888(23 downto 19) <= \^rgb_565\(15 downto 11); rgb_888(18 downto 16) <= \^rgb_565\(15 downto 13); rgb_888(15 downto 10) <= \^rgb_565\(10 downto 5); rgb_888(9 downto 8) <= \^rgb_565\(10 downto 9); rgb_888(7 downto 3) <= \^rgb_565\(4 downto 0); rgb_888(2) <= \<const0>\; rgb_888(1) <= \<const0>\; rgb_888(0) <= \<const0>\; GND: unisim.vcomponents.GND port map ( G => \<const0>\ ); end STRUCTURE;
---------------------------------------------------------------------------------- -- Company: Politecnico di Torino -- Engineer: Alessandro Salvato -- -- Create Date: 14:32:23 12/06/2016 -- Design Name: -- Module Name: profiler - 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; use IEEE.NUMERIC_STD.ALL; use ieee.std_logic_unsigned.all; entity profiler is port ( instruction_code : in STD_LOGIC_VECTOR (5 downto 0); --from execution_logic count_max : in STD_LOGIC_VECTOR (9 downto 0); --from control logic target_instr : in STD_LOGIC_VECTOR (5 downto 0); --from control logic Reset : in STD_LOGIC; --from control logic, it works in asyncronous way EnableRF : in STD_LOGIC; --from control logic WriteRF : in STD_LOGIC; --from control logic Read16RF : in STD_LOGIC; --from control logic Read32RF : in STD_LOGIC; --from control logic EnableDump : in STD_LOGIC; --from control logic clk : in STD_LOGIC; --from the environment carry_detection : out STD_LOGIC; --to control logic dump_detection: out std_logic; --to control logic dump_end: out std_logic; --to control logic data_out : out STD_LOGIC_VECTOR (31 downto 0)); --to multiplexer end profiler; --each control signal is considered active when is high architecture Behavioral of profiler is TYPE regfile_type IS ARRAY (0 TO 51) OF std_logic_vector(15 DOWNTO 0); SIGNAL regfile : regfile_type; signal count_state: std_logic_vector(9 downto 0); --in place of register signal target_instr_state: std_logic_vector(5 downto 0); --in place of register shared variable indice: integer := 0; --signal RAM_out: std_logic_vector(15 downto 0); --signal count_out_RAM: std_logic_vector(9 downto 0); --signal target_instr_out_RAM: std_logic_vector(5 downto 0); begin WriteProcess: process(Clk) variable tmp: std_logic_vector(15 downto 0); begin if (clk = '1' and clk'EVENT) then if(Reset = '1') then for index in 0 to 51 loop regfile(index) <= std_logic_vector(to_unsigned(index, 16)); end loop; dump_detection <= '0'; carry_detection <= '0'; elsif (WriteRF = '1' and EnableRF = '1' and instruction_code /= "ZZZZZZ") then tmp := regfile(to_integer(unsigned(instruction_code))); tmp := tmp + std_logic_vector(to_unsigned(64, 16)); -- 10000000 if((tmp(15 downto 6) >= count_state) and (tmp(5 downto 0) = target_instr_state)) then if(EnableDump = '1') then dump_detection <= '1'; else dump_detection <= '0'; end if; else if(tmp(15 downto 6) = "0000000000") then -- se dopo la somma il contatore è uguale a zero, allora c'è stato carry carry_detection <= '1'; -- è indipendente da target_instr, qualsiasi istruzione può esssere soggetta al carry detection --buffer_out <= "1111111111111111" & tmp; else carry_detection <= '0'; end if; dump_detection <= '0'; --carry_detection <= '0'; end if; regfile(to_integer(unsigned(instruction_code))) <= tmp; end if; end if; end process; init: process(reset) begin if(reset = '1' and reset'event) then count_state <= (others => 'Z'); target_instr_state <= (others => 'Z'); --indice := 0; -- dump_detection <= '0'; -- carry_detection <= '0'; -- dump_end <= '0'; end if; end process; write_register: process(count_max, target_instr, reset) begin if(reset = '0' and count_max /= "ZZZZZZZZZZ" and target_instr /="ZZZZZZ") then --when reset is deactivated control logic writes the correct values count_state <= count_max; target_instr_state <= target_instr; -- dump_detection <= '0'; -- carry_detection <= '0'; -- dump_end <= '0'; end if; end process; -- dump_mode: process(clk, Read32RF) variable tmp: std_logic_vector(31 downto 0); begin if(Read32RF = '1' and EnableRF = '1' and EnableDump = '1' and Reset = '0') then if(clk = '1' and clk'event) then if(indice <51) then tmp(15 downto 0) := regfile(indice); tmp(31 downto 16) := regfile(indice+1); data_out <= tmp; dump_end <= '0'; indice := indice + 2; else indice := 0; tmp(15 downto 0) := regfile(51); tmp(31 downto 16) := (others => '1'); dump_end <= '1'; end if; end if; elsif(reset = '1') then indice := 0; end if; end process; -- writing_out: process(buffer_out) -- begin -- data_out <= buffer_out; -- end process; end Behavioral;
`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 24B4SGNCPgvOzh0vhtLN5279M65nzAa+XDLRI8Cw2pv0wf4YoOAqzpljAP3KvdJbt7+u5dUe+Abk 0bo9eO3SfhQi0EmJmr35x3y9MUFrD6V0qKHNSlcfavPNdn59fAyIql3Drt/x+RVhVZWrvhXBdq95 /5O1Yh2EeLrqlMpZtUAX3NuKrFlVe0pq950XXav0uroscTnf4/E8Loc8mG6O1sYv3UsREH32oL5E V2Yt408Bk3rr0M8fm1mtKwXy/yHscGX0bfEtFlw2yBf/V2lqnPdBkOIdRFkZ+hc4vmgrL3zC+u3c FSfumsObF4ymosR166ClBdZcC4XDGZtq5xGaNw== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block Ovx259cNDtBFa/oJJBICxm0yvz+h/4r7qzgrTH4KP8268kcBQi/sVCMnbjohNqICo+/7l8gEaAFO fqml5lkEdgGR/HZ3l3n9Ome0tTbBZiNnyAZ8QsE5/wugnKRozagtWPFRBwBNPboFN5JFDfQCNnW9 DNOUg+hIXZ6UYpUjvT8= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block K/IQQ0giJwfKqgjeL4+9+HSBTNKM2ovuq6Z+1C9A+q3EeDaIdaKKu/T+ZpCeDPYUyuKubgaG1HFN 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 24B4SGNCPgvOzh0vhtLN5279M65nzAa+XDLRI8Cw2pv0wf4YoOAqzpljAP3KvdJbt7+u5dUe+Abk 0bo9eO3SfhQi0EmJmr35x3y9MUFrD6V0qKHNSlcfavPNdn59fAyIql3Drt/x+RVhVZWrvhXBdq95 /5O1Yh2EeLrqlMpZtUAX3NuKrFlVe0pq950XXav0uroscTnf4/E8Loc8mG6O1sYv3UsREH32oL5E V2Yt408Bk3rr0M8fm1mtKwXy/yHscGX0bfEtFlw2yBf/V2lqnPdBkOIdRFkZ+hc4vmgrL3zC+u3c FSfumsObF4ymosR166ClBdZcC4XDGZtq5xGaNw== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block Ovx259cNDtBFa/oJJBICxm0yvz+h/4r7qzgrTH4KP8268kcBQi/sVCMnbjohNqICo+/7l8gEaAFO fqml5lkEdgGR/HZ3l3n9Ome0tTbBZiNnyAZ8QsE5/wugnKRozagtWPFRBwBNPboFN5JFDfQCNnW9 DNOUg+hIXZ6UYpUjvT8= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block K/IQQ0giJwfKqgjeL4+9+HSBTNKM2ovuq6Z+1C9A+q3EeDaIdaKKu/T+ZpCeDPYUyuKubgaG1HFN 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 24B4SGNCPgvOzh0vhtLN5279M65nzAa+XDLRI8Cw2pv0wf4YoOAqzpljAP3KvdJbt7+u5dUe+Abk 0bo9eO3SfhQi0EmJmr35x3y9MUFrD6V0qKHNSlcfavPNdn59fAyIql3Drt/x+RVhVZWrvhXBdq95 /5O1Yh2EeLrqlMpZtUAX3NuKrFlVe0pq950XXav0uroscTnf4/E8Loc8mG6O1sYv3UsREH32oL5E V2Yt408Bk3rr0M8fm1mtKwXy/yHscGX0bfEtFlw2yBf/V2lqnPdBkOIdRFkZ+hc4vmgrL3zC+u3c FSfumsObF4ymosR166ClBdZcC4XDGZtq5xGaNw== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block Ovx259cNDtBFa/oJJBICxm0yvz+h/4r7qzgrTH4KP8268kcBQi/sVCMnbjohNqICo+/7l8gEaAFO fqml5lkEdgGR/HZ3l3n9Ome0tTbBZiNnyAZ8QsE5/wugnKRozagtWPFRBwBNPboFN5JFDfQCNnW9 DNOUg+hIXZ6UYpUjvT8= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block K/IQQ0giJwfKqgjeL4+9+HSBTNKM2ovuq6Z+1C9A+q3EeDaIdaKKu/T+ZpCeDPYUyuKubgaG1HFN 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", 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 2013" `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 caQ4kDNpC+yRhd9rT8TQRjEh5dHwq37lgHnP3RI5sQRwfA7zsWXwbZRhGD9ikfspHeHU7ayi3OmU WfEoUTW8pw== `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 VFnFlmJ3J1D3IRh9aa3aLQlPXF5So/7159XiX4axP65bRTF088ez5OE0uWO8ayvK4YW3ZqYiTOOw 6p9P2epqNjkH/N8i8ZN5SsgJ0WT/dq56xwITEDoGQp6E8y1M9iB5e3Zs60VN8QiK3xTd239Kb2Is hT+s2ECmzEqJuVm3TI8= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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-- Copyright 1986-2017 Xilinx, Inc. All Rights Reserved. -- -------------------------------------------------------------------------------- -- Tool Version: Vivado v.2017.1 (win64) Build 1846317 Fri Apr 14 18:55:03 MDT 2017 -- Date : Thu Aug 24 05:36:23 2017 -- Host : ACER-BLUES running 64-bit major release (build 9200) -- Command : write_vhdl -force -mode synth_stub -- D:/Design_Project/E_elements/Project_BipedRobot/Project_BipedRobot.srcs/sources_1/ip/fifo_EEPROM/fifo_EEPROM_stub.vhdl -- Design : fifo_EEPROM -- Purpose : Stub declaration of top-level module interface -- Device : xc7a35tcsg324-1 -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; entity fifo_EEPROM is Port ( rst : in STD_LOGIC; wr_clk : in STD_LOGIC; rd_clk : in STD_LOGIC; din : in STD_LOGIC_VECTOR ( 7 downto 0 ); wr_en : in STD_LOGIC; rd_en : in STD_LOGIC; dout : out STD_LOGIC_VECTOR ( 7 downto 0 ); full : out STD_LOGIC; empty : out STD_LOGIC ); end fifo_EEPROM; architecture stub of fifo_EEPROM 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 "rst,wr_clk,rd_clk,din[7:0],wr_en,rd_en,dout[7:0],full,empty"; attribute x_core_info : string; attribute x_core_info of stub : architecture is "fifo_generator_v13_1_4,Vivado 2017.1"; begin end;
------------------------------------------------------------------------------ -- 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: outpad -- File: outpad.vhd -- Author: Jiri Gaisler - Gaisler Research -- Description: output pad with technology wrapper ------------------------------------------------------------------------------ library techmap; library ieee; use ieee.std_logic_1164.all; use techmap.gencomp.all; use techmap.allpads.all; entity outpad is generic (tech : integer := 0; level : integer := 0; slew : integer := 0; voltage : integer := x33v; strength : integer := 12); port (pad : out std_ulogic; i : in std_ulogic; cfgi: in std_logic_vector(19 downto 0) := "00000000000000000000"); end; architecture rtl of outpad is signal padx, gnd, vcc : std_ulogic; begin gnd <= '0'; vcc <= '1'; gen0 : if has_pads(tech) = 0 generate pad <= i -- pragma translate_off after 2 ns -- pragma translate_on when slew = 0 else i; end generate; xcv : if (is_unisim(tech) = 1) generate x0 : unisim_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; axc : if (tech = axcel) or (tech = axdsp) generate x0 : axcel_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; pa3 : if (tech = proasic) or (tech = apa3) generate x0 : apa3_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; pa3e : if (tech = apa3e) generate x0 : apa3e_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; pa3l : if (tech = apa3l) generate x0 : apa3l_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; fus : if (tech = actfus) generate x0 : fusion_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; atc : if (tech = atc18s) generate x0 : atc18_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; atcrh : if (tech = atc18rha) generate x0 : atc18rha_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; um : if (tech = umc) generate x0 : umc_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; rhu : if (tech = rhumc) generate x0 : rhumc_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; saed : if (tech = saed32) generate x0 : saed32_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; dar : if (tech = dare) generate x0 : dare_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; ihp : if (tech = ihp25) generate x0 : ihp25_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; ihprh : if (tech = ihp25rh) generate x0 : ihp25rh_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; rh18t : if (tech = rhlib18t) generate x0 : rh_lib18t_iopad generic map (strength) port map (padx, i, gnd, open); pad <= padx; end generate; ut025 : if (tech = ut25) generate x0 : ut025crh_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; ut13 : if (tech = ut130) generate x0 : ut130hbd_outpad generic map (level, slew, voltage, strength) port map (pad, i); end generate; pere : if (tech = peregrine) generate x0 : peregrine_toutpad generic map (level, slew, voltage, strength) port map(pad, i, vcc); end generate; nex : if (tech = easic90) generate x0 : nextreme_toutpad generic map (level, slew, voltage, strength) port map(pad, i, vcc); end generate; n2x : if (tech = easic45) generate x0 : n2x_outpad generic map (level, slew, voltage, strength) port map(pad, i, cfgi(0), cfgi(1), cfgi(19 downto 15), cfgi(14 downto 10), cfgi(9 downto 6), cfgi(5 downto 2)); end generate; ut90nhbd : if (tech = ut90) generate x0 : ut90nhbd_outpad generic map (level, slew, voltage, strength) port map(pad, i, cfgi(0)); end generate; end; library techmap; library ieee; use ieee.std_logic_1164.all; use techmap.gencomp.all; entity outpadv is generic (tech : integer := 0; level : integer := 0; slew : integer := 0; voltage : integer := 0; strength : integer := 12; width : integer := 1); port ( pad : out std_logic_vector(width-1 downto 0); i : in std_logic_vector(width-1 downto 0); cfgi: in std_logic_vector(19 downto 0) := "00000000000000000000"); end; architecture rtl of outpadv is begin v : for j in width-1 downto 0 generate x0 : outpad generic map (tech, level, slew, voltage, strength) port map (pad(j), i(j), cfgi); end generate; end;
-- ******************************************* -- * Banco de pruebas para SRAM de un puerto * -- ******************************************* library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity sram_up_bp is generic( DIR_ANCHO: integer:=2; DATOS_ANCHO: integer:=8 ); end sram_up_bp; architecture tb_arch of sram_up_bp is constant T: time := 20 ns; -- Período del Reloj signal clk: std_logic; signal we: std_logic; signal dir: std_logic_vector(DIR_ANCHO-1 downto 0); signal d: std_logic_vector(DATOS_ANCHO-1 downto 0); signal q: std_logic_vector(DATOS_ANCHO-1 downto 0); begin -- ============= -- Instanciación -- ============= ubp: entity work.sram_up(arq_dir_reg) generic map(DIR_ANCHO => DIR_ANCHO, DATOS_ANCHO => DATOS_ANCHO) port map(clk => clk, we => we, dir => dir, d => d, q => q); -- ===== -- Reloj -- ===== process begin clk <= '0'; wait for T/2; clk <= '1'; wait for T/2; end process; -- =============== -- Otros estímulos -- =============== process begin we <= '1'; -- Activar la escritura -- Escribir toda la memoria for i in 0 to 2**DIR_ANCHO-1 loop dir <= std_logic_vector(to_unsigned(i, DIR_ANCHO)); d <= std_logic_vector(to_unsigned(i + 8, DATOS_ANCHO)); wait until falling_edge(clk); end loop; we <= '0'; -- Desactivar la escritura/activar la lectura wait until falling_edge(clk); -- Leer toda la memoria for i in 0 to 2**DIR_ANCHO-1 loop dir <= std_logic_vector(to_unsigned(i, DIR_ANCHO)); wait until falling_edge(clk); end loop; -- =================== -- Terminar simulación -- =================== assert false report "Simulación Completada" severity failure; end process; end tb_arch;
--------------------------------------------------------------------------------------- -- Title : Wishbone slave core for FMC ADC/DAC interface registers --------------------------------------------------------------------------------------- -- File : wb_fmc150_port.vhd -- Author : auto-generated by wbgen2 from xfmc150.wb -- Created : Thu Oct 11 10:21:39 2012 -- Standard : VHDL'87 --------------------------------------------------------------------------------------- -- THIS FILE WAS GENERATED BY wbgen2 FROM SOURCE FILE xfmc150.wb -- DO NOT HAND-EDIT UNLESS IT'S ABSOLUTELY NECESSARY! --------------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; use work.fmc150_wbgen2_pkg.all; entity wb_fmc150_port is port ( rst_n_i : in std_logic; clk_sys_i : in std_logic; wb_adr_i : in std_logic_vector(2 downto 0); wb_dat_i : in std_logic_vector(31 downto 0); wb_dat_o : out std_logic_vector(31 downto 0); wb_cyc_i : in std_logic; wb_sel_i : in std_logic_vector(3 downto 0); wb_stb_i : in std_logic; wb_we_i : in std_logic; wb_ack_o : out std_logic; wb_stall_o : out std_logic; regs_i : in t_fmc150_in_registers; regs_o : out t_fmc150_out_registers ); end wb_fmc150_port; architecture syn of wb_fmc150_port is signal fmc150_flgs_pulse_dly0 : std_logic ; signal fmc150_flgs_pulse_int : std_logic ; signal fmc150_flgs_in_spi_rw_int : std_logic ; signal fmc150_flgs_in_ext_clk_int : std_logic ; signal fmc150_addr_int : std_logic_vector(15 downto 0); signal fmc150_data_in_int : std_logic_vector(31 downto 0); signal fmc150_cs_cdce72010_int : std_logic ; signal fmc150_cs_ads62p49_int : std_logic ; signal fmc150_cs_dac3283_int : std_logic ; signal fmc150_cs_amc7823_int : std_logic ; signal fmc150_adc_dly_str_int : std_logic_vector(4 downto 0); signal fmc150_adc_dly_cha_int : std_logic_vector(4 downto 0); signal fmc150_adc_dly_chb_int : std_logic_vector(4 downto 0); signal ack_sreg : std_logic_vector(9 downto 0); signal rddata_reg : std_logic_vector(31 downto 0); signal wrdata_reg : std_logic_vector(31 downto 0); signal bwsel_reg : std_logic_vector(3 downto 0); signal rwaddr_reg : std_logic_vector(2 downto 0); signal ack_in_progress : std_logic ; signal wr_int : std_logic ; signal rd_int : std_logic ; signal allones : std_logic_vector(31 downto 0); signal allzeros : std_logic_vector(31 downto 0); begin -- Some internal signals assignments. For (foreseen) compatibility with other bus standards. wrdata_reg <= wb_dat_i; bwsel_reg <= wb_sel_i; rd_int <= wb_cyc_i and (wb_stb_i and (not wb_we_i)); wr_int <= wb_cyc_i and (wb_stb_i and wb_we_i); allones <= (others => '1'); allzeros <= (others => '0'); -- -- Main register bank access process. process (clk_sys_i, rst_n_i) begin if (rst_n_i = '0') then ack_sreg <= "0000000000"; ack_in_progress <= '0'; rddata_reg <= "00000000000000000000000000000000"; fmc150_flgs_pulse_int <= '0'; fmc150_flgs_in_spi_rw_int <= '0'; fmc150_flgs_in_ext_clk_int <= '0'; fmc150_addr_int <= "0000000000000000"; fmc150_data_in_int <= "00000000000000000000000000000000"; fmc150_cs_cdce72010_int <= '0'; fmc150_cs_ads62p49_int <= '0'; fmc150_cs_dac3283_int <= '0'; fmc150_cs_amc7823_int <= '0'; fmc150_adc_dly_str_int <= "00000"; fmc150_adc_dly_cha_int <= "00000"; fmc150_adc_dly_chb_int <= "00000"; elsif rising_edge(clk_sys_i) then -- advance the ACK generator shift register ack_sreg(8 downto 0) <= ack_sreg(9 downto 1); ack_sreg(9) <= '0'; if (ack_in_progress = '1') then if (ack_sreg(0) = '1') then fmc150_flgs_pulse_int <= '0'; ack_in_progress <= '0'; else end if; else if ((wb_cyc_i = '1') and (wb_stb_i = '1')) then case rwaddr_reg(2 downto 0) is when "000" => if (wb_we_i = '1') then fmc150_flgs_pulse_int <= wrdata_reg(0); end if; rddata_reg(0) <= 'X'; rddata_reg(1) <= 'X'; rddata_reg(2) <= 'X'; rddata_reg(3) <= 'X'; rddata_reg(4) <= 'X'; rddata_reg(5) <= 'X'; rddata_reg(6) <= 'X'; rddata_reg(7) <= 'X'; rddata_reg(8) <= 'X'; rddata_reg(9) <= 'X'; rddata_reg(10) <= 'X'; rddata_reg(11) <= 'X'; rddata_reg(12) <= 'X'; rddata_reg(13) <= 'X'; rddata_reg(14) <= 'X'; rddata_reg(15) <= 'X'; rddata_reg(16) <= 'X'; rddata_reg(17) <= 'X'; rddata_reg(18) <= 'X'; rddata_reg(19) <= 'X'; rddata_reg(20) <= 'X'; rddata_reg(21) <= 'X'; rddata_reg(22) <= 'X'; rddata_reg(23) <= 'X'; rddata_reg(24) <= 'X'; rddata_reg(25) <= 'X'; rddata_reg(26) <= 'X'; rddata_reg(27) <= 'X'; rddata_reg(28) <= 'X'; rddata_reg(29) <= 'X'; rddata_reg(30) <= 'X'; rddata_reg(31) <= 'X'; ack_sreg(2) <= '1'; ack_in_progress <= '1'; when "001" => if (wb_we_i = '1') then fmc150_flgs_in_spi_rw_int <= wrdata_reg(0); fmc150_flgs_in_ext_clk_int <= wrdata_reg(1); end if; rddata_reg(0) <= fmc150_flgs_in_spi_rw_int; rddata_reg(1) <= fmc150_flgs_in_ext_clk_int; rddata_reg(2) <= 'X'; rddata_reg(3) <= 'X'; rddata_reg(4) <= 'X'; rddata_reg(5) <= 'X'; rddata_reg(6) <= 'X'; rddata_reg(7) <= 'X'; rddata_reg(8) <= 'X'; rddata_reg(9) <= 'X'; rddata_reg(10) <= 'X'; rddata_reg(11) <= 'X'; rddata_reg(12) <= 'X'; rddata_reg(13) <= 'X'; rddata_reg(14) <= 'X'; rddata_reg(15) <= 'X'; rddata_reg(16) <= 'X'; rddata_reg(17) <= 'X'; rddata_reg(18) <= 'X'; rddata_reg(19) <= 'X'; rddata_reg(20) <= 'X'; rddata_reg(21) <= 'X'; rddata_reg(22) <= 'X'; rddata_reg(23) <= 'X'; rddata_reg(24) <= 'X'; rddata_reg(25) <= 'X'; rddata_reg(26) <= 'X'; rddata_reg(27) <= 'X'; rddata_reg(28) <= 'X'; rddata_reg(29) <= 'X'; rddata_reg(30) <= 'X'; rddata_reg(31) <= 'X'; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when "010" => if (wb_we_i = '1') then fmc150_addr_int <= wrdata_reg(15 downto 0); end if; rddata_reg(15 downto 0) <= fmc150_addr_int; rddata_reg(16) <= 'X'; rddata_reg(17) <= 'X'; rddata_reg(18) <= 'X'; rddata_reg(19) <= 'X'; rddata_reg(20) <= 'X'; rddata_reg(21) <= 'X'; rddata_reg(22) <= 'X'; rddata_reg(23) <= 'X'; rddata_reg(24) <= 'X'; rddata_reg(25) <= 'X'; rddata_reg(26) <= 'X'; rddata_reg(27) <= 'X'; rddata_reg(28) <= 'X'; rddata_reg(29) <= 'X'; rddata_reg(30) <= 'X'; rddata_reg(31) <= 'X'; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when "011" => if (wb_we_i = '1') then fmc150_data_in_int <= wrdata_reg(31 downto 0); end if; rddata_reg(31 downto 0) <= fmc150_data_in_int; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when "100" => if (wb_we_i = '1') then fmc150_cs_cdce72010_int <= wrdata_reg(0); fmc150_cs_ads62p49_int <= wrdata_reg(1); fmc150_cs_dac3283_int <= wrdata_reg(2); fmc150_cs_amc7823_int <= wrdata_reg(3); end if; rddata_reg(0) <= fmc150_cs_cdce72010_int; rddata_reg(1) <= fmc150_cs_ads62p49_int; rddata_reg(2) <= fmc150_cs_dac3283_int; rddata_reg(3) <= fmc150_cs_amc7823_int; rddata_reg(4) <= 'X'; rddata_reg(5) <= 'X'; rddata_reg(6) <= 'X'; rddata_reg(7) <= 'X'; rddata_reg(8) <= 'X'; rddata_reg(9) <= 'X'; rddata_reg(10) <= 'X'; rddata_reg(11) <= 'X'; rddata_reg(12) <= 'X'; rddata_reg(13) <= 'X'; rddata_reg(14) <= 'X'; rddata_reg(15) <= 'X'; rddata_reg(16) <= 'X'; rddata_reg(17) <= 'X'; rddata_reg(18) <= 'X'; rddata_reg(19) <= 'X'; rddata_reg(20) <= 'X'; rddata_reg(21) <= 'X'; rddata_reg(22) <= 'X'; rddata_reg(23) <= 'X'; rddata_reg(24) <= 'X'; rddata_reg(25) <= 'X'; rddata_reg(26) <= 'X'; rddata_reg(27) <= 'X'; rddata_reg(28) <= 'X'; rddata_reg(29) <= 'X'; rddata_reg(30) <= 'X'; rddata_reg(31) <= 'X'; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when "101" => if (wb_we_i = '1') then fmc150_adc_dly_str_int <= wrdata_reg(4 downto 0); fmc150_adc_dly_cha_int <= wrdata_reg(12 downto 8); fmc150_adc_dly_chb_int <= wrdata_reg(20 downto 16); end if; rddata_reg(4 downto 0) <= fmc150_adc_dly_str_int; rddata_reg(12 downto 8) <= fmc150_adc_dly_cha_int; rddata_reg(20 downto 16) <= fmc150_adc_dly_chb_int; rddata_reg(5) <= 'X'; rddata_reg(6) <= 'X'; rddata_reg(7) <= 'X'; rddata_reg(13) <= 'X'; rddata_reg(14) <= 'X'; rddata_reg(15) <= 'X'; rddata_reg(21) <= 'X'; rddata_reg(22) <= 'X'; rddata_reg(23) <= 'X'; rddata_reg(24) <= 'X'; rddata_reg(25) <= 'X'; rddata_reg(26) <= 'X'; rddata_reg(27) <= 'X'; rddata_reg(28) <= 'X'; rddata_reg(29) <= 'X'; rddata_reg(30) <= 'X'; rddata_reg(31) <= 'X'; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when "110" => if (wb_we_i = '1') then end if; rddata_reg(31 downto 0) <= regs_i.data_out_i; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when "111" => if (wb_we_i = '1') then end if; rddata_reg(0) <= regs_i.flgs_out_spi_busy_i; rddata_reg(1) <= regs_i.flgs_out_pll_status_i; rddata_reg(2) <= regs_i.flgs_out_adc_clk_locked_i; rddata_reg(3) <= regs_i.flgs_out_fmc_prst_i; rddata_reg(4) <= 'X'; rddata_reg(5) <= 'X'; rddata_reg(6) <= 'X'; rddata_reg(7) <= 'X'; rddata_reg(8) <= 'X'; rddata_reg(9) <= 'X'; rddata_reg(10) <= 'X'; rddata_reg(11) <= 'X'; rddata_reg(12) <= 'X'; rddata_reg(13) <= 'X'; rddata_reg(14) <= 'X'; rddata_reg(15) <= 'X'; rddata_reg(16) <= 'X'; rddata_reg(17) <= 'X'; rddata_reg(18) <= 'X'; rddata_reg(19) <= 'X'; rddata_reg(20) <= 'X'; rddata_reg(21) <= 'X'; rddata_reg(22) <= 'X'; rddata_reg(23) <= 'X'; rddata_reg(24) <= 'X'; rddata_reg(25) <= 'X'; rddata_reg(26) <= 'X'; rddata_reg(27) <= 'X'; rddata_reg(28) <= 'X'; rddata_reg(29) <= 'X'; rddata_reg(30) <= 'X'; rddata_reg(31) <= 'X'; ack_sreg(0) <= '1'; ack_in_progress <= '1'; when others => -- prevent the slave from hanging the bus on invalid address ack_in_progress <= '1'; ack_sreg(0) <= '1'; end case; end if; end if; end if; end process; -- Drive the data output bus wb_dat_o <= rddata_reg; -- Update ADC delay process (clk_sys_i, rst_n_i) begin if (rst_n_i = '0') then fmc150_flgs_pulse_dly0 <= '0'; regs_o.flgs_pulse_o <= '0'; elsif rising_edge(clk_sys_i) then fmc150_flgs_pulse_dly0 <= fmc150_flgs_pulse_int; regs_o.flgs_pulse_o <= fmc150_flgs_pulse_int and (not fmc150_flgs_pulse_dly0); end if; end process; -- SPI Read/Write flag regs_o.flgs_in_spi_rw_o <= fmc150_flgs_in_spi_rw_int; -- External Clock for ADC regs_o.flgs_in_ext_clk_o <= fmc150_flgs_in_ext_clk_int; -- SPI address regs_o.addr_o <= fmc150_addr_int; -- Data In for FMC150 regs_o.data_in_o <= fmc150_data_in_int; -- Chipselect for cdce72010 regs_o.cs_cdce72010_o <= fmc150_cs_cdce72010_int; -- Chipselect for ads62p49 regs_o.cs_ads62p49_o <= fmc150_cs_ads62p49_int; -- Chipselect for dac3283 regs_o.cs_dac3283_o <= fmc150_cs_dac3283_int; -- Chipselect for amc7823 regs_o.cs_amc7823_o <= fmc150_cs_amc7823_int; -- ADC Strobe delay regs_o.adc_dly_str_o <= fmc150_adc_dly_str_int; -- ADC Channel A delay regs_o.adc_dly_cha_o <= fmc150_adc_dly_cha_int; -- ADC Strobe delay regs_o.adc_dly_chb_o <= fmc150_adc_dly_chb_int; -- Data out from FMC150 -- SPI Busy -- CDCE72010 PLL Status -- FPGA ADC clock locked -- FMC present rwaddr_reg <= wb_adr_i; wb_stall_o <= (not ack_sreg(0)) and (wb_stb_i and wb_cyc_i); -- ACK signal generation. Just pass the LSB of ACK counter. wb_ack_o <= ack_sreg(0); end syn;
------------------------------------------------------------------------------- -- Title : Exercise -- Project : Counter ------------------------------------------------------------------------------- -- File : cntr_top_tb.vhd -- Author : Martin Angermair -- Company : Technikum Wien, Embedded Systems -- Last update: 24.10.2017 -- Platform : ModelSim ------------------------------------------------------------------------------- -- Description: Testbench for the counter ------------------------------------------------------------------------------- -- Revisions : -- Date Version Author Description -- 19.11.2017 0.1 Martin Angermair init ------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; entity cntr_top_tb is end cntr_top_tb; architecture sim of cntr_top_tb is component cntr_top is port ( clk_i : in std_logic; reset_i : in std_logic; sw_i : in std_logic_vector(15 downto 0); pb_i : in std_logic_vector(3 downto 0); ss_o : out std_logic_vector(7 downto 0); ss_sel_o : out std_logic_vector(3 downto 0)); end component; signal clk_i : std_logic; signal reset_i : std_logic; signal sw_i : std_logic_vector(15 downto 0); signal pb_i : std_logic_vector(3 downto 0); signal ss_o : std_logic_vector(7 downto 0); signal ss_sel_o : std_logic_vector(3 downto 0); begin -- Generate system clock 100 MHz p_clk : process begin clk_i <= '0'; wait for 5 ns; clk_i <= '1'; wait for 5 ns; end process; -- Component under test p_io_ctrl : cntr_top port map ( clk_i => clk_i, reset_i => reset_i, sw_i => sw_i, pb_i => pb_i, ss_o => ss_o, ss_sel_o =>ss_sel_o); p_sim : process begin reset_i <= '1'; sw_i <= "0000000000000000"; pb_i <= "0000"; wait for 200 ns; reset_i <= '0'; -- set count direction up sw_i <= "0001000000000000"; wait for 50 ms; -- hold counter sw_i <= "0101000000000000"; wait for 1 ms; -- test reset reset_i <= '0'; wait for 100 ns; reset_i <= '1'; wait for 20 ms; -- set count directon down sw_i <= "0000100000000000"; wait for 200 ms; end process; end sim;
architecture RTL of ENTITY1 is signal instruction : bit_vector(15 downto 0); alias opcode : bit_vector(3 downto 0) is instruction(15 downto 12); signal data : std_logic_vector(OPCODE'range); begin data <= OpCode; PROC_NAME : process () is begin data <= OpCOde; if (opCODE = "0110") then data <= opcode; end if; end process PROC_NAME; end architecture RTL;
-------------------------------------------------------------------------------- -- -- -- V H D L F I L E -- -- COPYRIGHT (C) 2006 -- -- -- -------------------------------------------------------------------------------- -- -- Title : DCT1D -- Design : MDCT Core -- Author : Michal Krepa -- -------------------------------------------------------------------------------- -- -- File : DCT1D.VHD -- Created : Sat Mar 5 7:37 2006 -- -------------------------------------------------------------------------------- -- -- Description : 1D Discrete Cosine Transform (1st stage) -- -------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.NUMERIC_STD.all; library WORK; use WORK.MDCT_PKG.all; -------------------------------------------------------------------------------- -- ENTITY -------------------------------------------------------------------------------- entity DCT1D is port( clk : in STD_LOGIC; rst : in std_logic; dcti : in std_logic_vector(IP_W-1 downto 0); idv : in STD_LOGIC; romedatao0 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao1 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao2 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao3 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao4 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao5 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao6 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao7 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romedatao8 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao0 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao1 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao2 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao3 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao4 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao5 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao6 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao7 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); romodatao8 : in STD_LOGIC_VECTOR(ROMDATA_W-1 downto 0); odv : out STD_LOGIC; dcto : out std_logic_vector(OP_W-1 downto 0); romeaddro0 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro1 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro2 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro3 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro4 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro5 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro6 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro7 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romeaddro8 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro0 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro1 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro2 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro3 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro4 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro5 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro6 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro7 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); romoaddro8 : out STD_LOGIC_VECTOR(ROMADDR_W-1 downto 0); ramwaddro : out STD_LOGIC_VECTOR(RAMADRR_W-1 downto 0); ramdatai : out STD_LOGIC_VECTOR(RAMDATA_W-1 downto 0); ramwe : out STD_LOGIC; wmemsel : out STD_LOGIC ); end DCT1D; -------------------------------------------------------------------------------- -- ARCHITECTURE -------------------------------------------------------------------------------- architecture RTL of DCT1D is type INPUT_DATA is array (N-1 downto 0) of SIGNED(IP_W downto 0); signal databuf_reg : INPUT_DATA; signal latchbuf_reg : INPUT_DATA; signal col_reg : UNSIGNED(RAMADRR_W/2-1 downto 0); signal row_reg : UNSIGNED(RAMADRR_W/2-1 downto 0); signal rowr_reg : UNSIGNED(RAMADRR_W/2-1 downto 0); signal inpcnt_reg : UNSIGNED(RAMADRR_W/2-1 downto 0); signal ramdatai_s : STD_LOGIC_VECTOR(RAMDATA_W-1 downto 0); signal ramwe_s : STD_LOGIC; signal wmemsel_reg : STD_LOGIC; signal stage2_reg : STD_LOGIC; signal stage2_cnt_reg : UNSIGNED(RAMADRR_W-1 downto 0); signal col_2_reg : UNSIGNED(RAMADRR_W/2-1 downto 0); begin ramwe_sg: ramwe <= ramwe_s; ramdatai_sg: ramdatai <= ramdatai_s; -- temporary odv_sg: odv <= ramwe_s; dcto_sg: dcto <= ramdatai_s(RAMDATA_W-1) & ramdatai_s(RAMDATA_W-1) & ramdatai_s; wmemsel_sg: wmemsel <= wmemsel_reg; process(clk) begin if clk = '1' and clk'event then if rst = '1' then inpcnt_reg <= (others => '0'); latchbuf_reg <= (others => (others => '0')); databuf_reg <= (others => (others => '0')); stage2_reg <= '0'; stage2_cnt_reg <= (others => '1'); ramdatai_s <= (others => '0'); ramwe_s <= '0'; ramwaddro <= (others => '0'); col_reg <= (others => '0'); row_reg <= (others => '0'); wmemsel_reg <= '0'; col_2_reg <= (others => '0'); else stage2_reg <= '0'; ramwe_s <= '0'; -------------------------------- -- 1st stage -------------------------------- if idv = '1' then inpcnt_reg <= inpcnt_reg + 1; -- right shift input data latchbuf_reg(N-2 downto 0) <= latchbuf_reg(N-1 downto 1); latchbuf_reg(N-1) <= SIGNED('0' & dcti) - LEVEL_SHIFT; if inpcnt_reg = N-1 then -- after this sum databuf_reg is in range of -256 to 254 (min to max) databuf_reg(0) <= latchbuf_reg(1)+(SIGNED('0' & dcti) - LEVEL_SHIFT); databuf_reg(1) <= latchbuf_reg(2)+latchbuf_reg(7); databuf_reg(2) <= latchbuf_reg(3)+latchbuf_reg(6); databuf_reg(3) <= latchbuf_reg(4)+latchbuf_reg(5); databuf_reg(4) <= latchbuf_reg(1)-(SIGNED('0' & dcti) - LEVEL_SHIFT); databuf_reg(5) <= latchbuf_reg(2)-latchbuf_reg(7); databuf_reg(6) <= latchbuf_reg(3)-latchbuf_reg(6); databuf_reg(7) <= latchbuf_reg(4)-latchbuf_reg(5); stage2_reg <= '1'; end if; end if; -------------------------------- -------------------------------- -- 2nd stage -------------------------------- if stage2_cnt_reg < N then if stage2_cnt_reg(0) = '0' then ramdatai_s <= STD_LOGIC_VECTOR(RESIZE (RESIZE(SIGNED(romedatao0),DA_W) + (RESIZE(SIGNED(romedatao1),DA_W-1) & '0') + (RESIZE(SIGNED(romedatao2),DA_W-2) & "00") + (RESIZE(SIGNED(romedatao3),DA_W-3) & "000") + (RESIZE(SIGNED(romedatao4),DA_W-4) & "0000") + (RESIZE(SIGNED(romedatao5),DA_W-5) & "00000") + (RESIZE(SIGNED(romedatao6),DA_W-6) & "000000") + (RESIZE(SIGNED(romedatao7),DA_W-7) & "0000000") - (RESIZE(SIGNED(romedatao8),DA_W-8) & "00000000"), DA_W)(DA_W-1 downto 12)); else ramdatai_s <= STD_LOGIC_VECTOR(RESIZE (RESIZE(SIGNED(romodatao0),DA_W) + (RESIZE(SIGNED(romodatao1),DA_W-1) & '0') + (RESIZE(SIGNED(romodatao2),DA_W-2) & "00") + (RESIZE(SIGNED(romodatao3),DA_W-3) & "000") + (RESIZE(SIGNED(romodatao4),DA_W-4) & "0000") + (RESIZE(SIGNED(romodatao5),DA_W-5) & "00000") + (RESIZE(SIGNED(romodatao6),DA_W-6) & "000000") + (RESIZE(SIGNED(romodatao7),DA_W-7) & "0000000") - (RESIZE(SIGNED(romodatao8),DA_W-8) & "00000000"), DA_W)(DA_W-1 downto 12)); end if; stage2_cnt_reg <= stage2_cnt_reg + 1; -- write RAM ramwe_s <= '1'; -- reverse col/row order for transposition purpose ramwaddro <= STD_LOGIC_VECTOR(col_2_reg & row_reg); -- increment column counter col_reg <= col_reg + 1; col_2_reg <= col_2_reg + 1; -- finished processing one input row if col_reg = 0 then row_reg <= row_reg + 1; -- switch to 2nd memory if row_reg = N - 1 then wmemsel_reg <= not wmemsel_reg; col_reg <= (others => '0'); end if; end if; end if; if stage2_reg = '1' then stage2_cnt_reg <= (others => '0'); col_reg <= (0=>'1',others => '0'); col_2_reg <= (others => '0'); end if; ---------------------------------- end if; end if; end process; -- read precomputed MAC results from LUT romeaddro0 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(0) & databuf_reg(1)(0) & databuf_reg(2)(0) & databuf_reg(3)(0); romeaddro1 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(1) & databuf_reg(1)(1) & databuf_reg(2)(1) & databuf_reg(3)(1); romeaddro2 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(2) & databuf_reg(1)(2) & databuf_reg(2)(2) & databuf_reg(3)(2); romeaddro3 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(3) & databuf_reg(1)(3) & databuf_reg(2)(3) & databuf_reg(3)(3); romeaddro4 <= STD_LOGIC_VECTOR( col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(4) & databuf_reg(1)(4) & databuf_reg(2)(4) & databuf_reg(3)(4); romeaddro5 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(5) & databuf_reg(1)(5) & databuf_reg(2)(5) & databuf_reg(3)(5); romeaddro6 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(6) & databuf_reg(1)(6) & databuf_reg(2)(6) & databuf_reg(3)(6); romeaddro7 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(7) & databuf_reg(1)(7) & databuf_reg(2)(7) & databuf_reg(3)(7); romeaddro8 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(0)(8) & databuf_reg(1)(8) & databuf_reg(2)(8) & databuf_reg(3)(8); -- odd romoaddro0 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(0) & databuf_reg(5)(0) & databuf_reg(6)(0) & databuf_reg(7)(0); romoaddro1 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(1) & databuf_reg(5)(1) & databuf_reg(6)(1) & databuf_reg(7)(1); romoaddro2 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(2) & databuf_reg(5)(2) & databuf_reg(6)(2) & databuf_reg(7)(2); romoaddro3 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(3) & databuf_reg(5)(3) & databuf_reg(6)(3) & databuf_reg(7)(3); romoaddro4 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(4) & databuf_reg(5)(4) & databuf_reg(6)(4) & databuf_reg(7)(4); romoaddro5 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(5) & databuf_reg(5)(5) & databuf_reg(6)(5) & databuf_reg(7)(5); romoaddro6 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(6) & databuf_reg(5)(6) & databuf_reg(6)(6) & databuf_reg(7)(6); romoaddro7 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(7) & databuf_reg(5)(7) & databuf_reg(6)(7) & databuf_reg(7)(7); romoaddro8 <= STD_LOGIC_VECTOR(col_reg(RAMADRR_W/2-1 downto 1)) & databuf_reg(4)(8) & databuf_reg(5)(8) & databuf_reg(6)(8) & databuf_reg(7)(8); end RTL; --------------------------------------------------------------------------------
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 06.03.2014 15:08:57 -- 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; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.NUMERIC_STD.ALL; use work.VHDL_lib.all; -- Uncomment the following library declaration if instantiating -- any Xilinx leaf cells in this code. --library UNISIM; --use UNISIM.VComponents.all; entity top is Port ( clk_raw: in std_logic; btn : in STD_LOGIC_VECTOR (4 downto 0); sw : in STD_LOGIC_VECTOR (7 downto 0); VGA_DATA : out STD_LOGIC_VECTOR (11 downto 0); VGA_HSYNC : out STD_LOGIC; VGA_VSYNC : out STD_LOGIC; adc_clk_in_p: in std_logic; adc_clk_in_n: in std_logic; adc_data_in_p: in std_logic_vector(7 downto 0); adc_data_in_n: in std_logic_vector(7 downto 0); --- clatch: out std_logic; cdata: out std_logic; cout: out std_logic; cclk: out std_logic; mclk: out std_logic; lrclk: out std_logic; bclk: out std_logic; dac_sdata: out std_logic; adc_sdata: in std_logic; --- jb: out std_logic_vector(7 downto 0) ); end top; architecture Behavioral of top is component clk_adc port ( clk_in1_p : in std_logic; clk_in1_n : in std_logic; clk_250MHz : out std_logic; locked : out std_logic ); end component; COMPONENT dds PORT ( aclk : IN STD_LOGIC; s_axis_phase_tvalid : IN STD_LOGIC; s_axis_phase_tdata : IN STD_LOGIC_VECTOR(39 DOWNTO 0); m_axis_data_tvalid : OUT STD_LOGIC; m_axis_data_tdata : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); m_axis_phase_tvalid : OUT STD_LOGIC; m_axis_phase_tdata : OUT STD_LOGIC_VECTOR(39 DOWNTO 0) ); END COMPONENT; COMPONENT fir_lp_250kHz PORT ( aclk : IN STD_LOGIC; s_axis_data_tvalid : IN STD_LOGIC; s_axis_data_tready : OUT STD_LOGIC; s_axis_data_tdata : IN STD_LOGIC_VECTOR(31 DOWNTO 0); m_axis_data_tvalid : OUT STD_LOGIC; m_axis_data_tdata : OUT STD_LOGIC_VECTOR(95 DOWNTO 0) ); END COMPONENT; COMPONENT fir_lp_15kHz PORT ( aclk : IN STD_LOGIC; s_axis_data_tvalid : IN STD_LOGIC; s_axis_data_tready : OUT STD_LOGIC; s_axis_data_tdata : IN STD_LOGIC_VECTOR(15 DOWNTO 0); m_axis_data_tvalid : OUT STD_LOGIC; m_axis_data_tdata : OUT STD_LOGIC_VECTOR(47 DOWNTO 0) ); END COMPONENT; COMPONENT multi_QI PORT ( CLK : IN STD_LOGIC; A : IN STD_LOGIC_VECTOR(15 DOWNTO 0); B : IN STD_LOGIC_VECTOR(15 DOWNTO 0); P : OUT STD_LOGIC_VECTOR(31 DOWNTO 0) ); END COMPONENT; COMPONENT fir_bp_lr PORT ( aclk : IN STD_LOGIC; s_axis_data_tvalid : IN STD_LOGIC; s_axis_data_tready : OUT STD_LOGIC; s_axis_data_tdata : IN STD_LOGIC_VECTOR(15 DOWNTO 0); m_axis_data_tvalid : OUT STD_LOGIC; m_axis_data_tdata : OUT STD_LOGIC_VECTOR(39 DOWNTO 0) ); END COMPONENT; COMPONENT fir_bp_p PORT ( aclk : IN STD_LOGIC; s_axis_data_tvalid : IN STD_LOGIC; s_axis_data_tready : OUT STD_LOGIC; s_axis_data_tdata : IN STD_LOGIC_VECTOR(15 DOWNTO 0); m_axis_data_tvalid : OUT STD_LOGIC; m_axis_data_tdata : OUT STD_LOGIC_VECTOR(39 DOWNTO 0) ); END COMPONENT; --CONSTANTS-- constant vga_width:integer := 1280; constant vga_height:integer := 1024; constant xwidth : integer := log2(vga_width); constant ywidth : integer := log2(vga_height); constant audio_ch_bits: integer := 24; --SIGNALS-- --clock signals signal clk_250MHz: std_logic := '0'; signal clk_15MHz: std_logic; --adc signals signal adc_data: std_logic_vector(15 downto 0) := (others=>'0'); --cro signals signal ch1_x,ch2_x : std_logic_vector(xwidth-1 downto 0) := (others=>'0'); signal ch1_y,ch2_y,ch2_y_unsigned : std_logic_vector(ywidth-1 downto 0) := (others=>'0'); signal ch1_y_large,ch2_y_large : std_logic_vector(16-1 downto 0) := (others=>'0'); signal ch1_update,ch2_update: std_logic := '0'; signal ch1_y_scale,ch2_y_scale: std_logic_vector(2 downto 0) := (others=>'0'); signal ch1_input : std_logic_vector(15 downto 0) := (others => '0'); signal ch_step : integer := 0; --buttons signal dbtn : std_logic_vector(4 downto 0) := (others=>'0'); -- Phase slave channel signals signal dds_s_axis_phase_tvalid : std_logic := '1'; -- payload is valid signal dds_s_axis_phase_tdata : std_logic_vector(39 downto 0) := "0001101110000101000111101011100001010010"; -- data payload -- Data master channel signals signal dds_m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal dds_m_axis_data_tdata : std_logic_vector(31 downto 0) := (others => '0'); -- data payload -- Phase master channel signals signal dds_m_axis_phase_tvalid : std_logic := '0'; -- payload is valid signal dds_m_axis_phase_tdata : std_logic_vector(39 downto 0) := (others => '0'); -- data payload -- Data master channel alias signals signal dds_m_axis_data_tdata_cosine : std_logic_vector(15 downto 0) := (others => '0'); signal dds_m_axis_data_tdata_sine : std_logic_vector(15 downto 0) := (others => '0'); -- product Q&I signal I : std_logic_vector(31 downto 0); signal Q : std_logic_vector(31 downto 0); ------------- FIR ----------------------- -- Data slave channel signals signal fir_s_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir_s_axis_data_tready : std_logic := '1'; -- slave is ready signal fir_s_axis_data_tdata : std_logic_vector(31 downto 0) := (others => '0'); -- data payload -- Data master channel signals signal fir_m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir_m_axis_data_tdata : std_logic_vector(95 downto 0) := (others => '0'); -- data payload ----------------------------------------------------------------------- -- Aliases for AXI channel TDATA and TUSER fields -- These are a convenience for viewing data in a simulator waveform viewer. -- If using ModelSim or Questa, add "-voptargs=+acc=n" to the vsim command -- to prevent the simulator optimizing away these signals. ----------------------------------------------------------------------- -- Data slave channel alias signals alias fir_s_axis_data_tdata_path0 : std_logic_vector(15 downto 0) is fir_s_axis_data_tdata(15 downto 0); alias fir_s_axis_data_tdata_path1 : std_logic_vector(15 downto 0) is fir_s_axis_data_tdata(31 downto 16); -- Data slave channel alias signals --s_axis_data_tdata_path0 <= s_axis_data_tdata(15 downto 0); --s_axis_data_tdata_path1 <= s_axis_data_tdata(31 downto 16); -- Data master channel alias signals signal fir_m_axis_data_tdata_path0 : std_logic_vector(47 downto 0) := (others => '0'); signal fir_m_axis_data_tdata_path1 : std_logic_vector(47 downto 0) := (others => '0'); signal Q_filtered,I_filtered : std_logic_vector(15 downto 0); ------- FIR 2 15kHz LP ------- -- Data slave channel signals signal fir2_s_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir2_s_axis_data_tready : std_logic := '1'; -- slave is ready signal fir2_s_axis_data_tdata : std_logic_vector(15 downto 0) := (others => '0'); -- data payload -- Data master channel signals signal fir2_m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir2_m_axis_data_tdata : std_logic_vector(47 downto 0) := (others => '0'); -- data payload signal mono_out: std_logic_vector(15 downto 0); ----------------------------------------------------------------------- -- Aliases for AXI channel TDATA and TUSER fields -- These are a convenience for viewing data in a simulator waveform viewer. -- If using ModelSim or Questa, add "-voptargs=+acc=n" to the vsim command -- to prevent the simulator optimizing away these signals. ----------------------------------------------------------------------- -- Data slave channel alias signals signal fir2_s_axis_data_tdata_data : std_logic_vector(15 downto 0) := (others => '0'); -- Data master channel alias signals signal fir2_m_axis_data_tdata_data : std_logic_vector(23 downto 0) := (others => '0'); -- Data slave channel signals signal fir3_s_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir3_s_axis_data_tready : std_logic := '1'; -- slave is ready signal fir3_s_axis_data_tdata : std_logic_vector(15 downto 0) := (others => '0'); -- data payload -- Data master channel signals signal fir3_m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir3_m_axis_data_tdata : std_logic_vector(39 downto 0) := (others => '0'); -- data payload ----------------------------------------------------------------------- -- Aliases for AXI channel TDATA and TUSER fields -- These are a convenience for viewing data in a simulator waveform viewer. -- If using ModelSim or Questa, add "-voptargs=+acc=n" to the vsim command -- to prevent the simulator optimizing away these signals. ----------------------------------------------------------------------- -- Data slave channel alias signals signal fir3_s_axis_data_tdata_data : std_logic_vector(15 downto 0) := (others => '0'); -- Data master channel alias signals signal fir3_m_axis_data_tdata_data : std_logic_vector(36 downto 0) := (others => '0'); -- Data slave channel signals signal fir4_s_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir4_s_axis_data_tready : std_logic := '1'; -- slave is ready signal fir4_s_axis_data_tdata : std_logic_vector(15 downto 0) := (others => '0'); -- data payload -- Data master channel signals signal fir4_m_axis_data_tvalid : std_logic := '0'; -- payload is valid signal fir4_m_axis_data_tdata : std_logic_vector(39 downto 0) := (others => '0'); -- data payload ----------------------------------------------------------------------- -- Aliases for AXI channel TDATA and TUSER fields -- These are a convenience for viewing data in a simulator waveform viewer. -- If using ModelSim or Questa, add "-voptargs=+acc=n" to the vsim command -- to prevent the simulator optimizing away these signals. ----------------------------------------------------------------------- -- Data slave channel alias signals signal fir4_s_axis_data_tdata_data : std_logic_vector(15 downto 0) := (others => '0'); -- Data master channel alias signals signal fir4_m_axis_data_tdata_data : std_logic_vector(39 downto 0) := (others => '0'); signal fft_output: std_logic_vector(15 downto 0); signal station: std_logic_vector(15 downto 0); signal clk_1024: std_logic := '0'; --audio signal mclkb: std_logic; signal bclkb: std_logic; signal lrclkb: std_logic; signal adc_sdatab: std_logic; signal dac_sdatab: std_logic; signal audio_input: std_logic_vector(audio_ch_bits-1 downto 0); --spi signal spi_data: std_logic_vector(31 downto 0); signal spi_ready: std_logic; signal spi_valid: std_logic; signal clatchb: std_logic; signal cclkb: std_logic; signal cdatab: std_logic; begin --ch1_y <= std_logic_vector(resize(signed(m_axis_data_tdata(7 downto 0)),ywidth)) when m_axis_data_tvalid = '1'; --ch2_y <= std_logic_vector(resize(signed(m_axis_data_tdata(15 downto 8)),ywidth)) when m_axis_data_tvalid = '1'; dds_s_axis_phase_tvalid <= '1'; fir_s_axis_data_tvalid <= '1'; ch1_y_scale <= sw(7 downto 5); ch2_y_scale <= sw(4 downto 2); clk_div1: clk_div generic map( div=>16 ) port map( input=> clk_250MHz, output=> clk_15MHz,state=>open); clk_div2: clk_div generic map( div=>1024 ) port map( input=> clk_250MHz, output=> clk_1024,state=>open); ------------------- jb(0) <= mclkb; jb(1) <= bclkb; jb(2) <= lrclkb; jb(3) <= dac_sdatab; jb(4) <= '0'; jb(5) <= clatchb; jb(6) <= cclkb; jb(7) <= cdatab; audio1: audio generic map( bits_per_ch => audio_ch_bits ) port map( clk=>clk_250MHz, mclk=>mclkb, bclk=>bclkb, lrclk=>lrclkb, adc_sdata=>adc_sdatab, dac_sdata=>dac_sdatab, input=>audio_input ); spi1: spi port map( clk=>clk_250MHz, data=>spi_data, ready=>spi_ready, valid=>spi_valid, clatch=>clatchb, cclk=>cclkb, cdata=>cdatab ); audio_spi_drv1: audio_spi_drv port map( clk=>cclkb, data=>spi_data, ready=>spi_ready, valid=>spi_valid ); sation_filter: fir_lp_15kHz PORT MAP ( aclk => clk_250Mhz, s_axis_data_tvalid => '1', s_axis_data_tready => fir2_s_axis_data_tready, s_axis_data_tdata => fir2_s_axis_data_tdata, m_axis_data_tvalid => fir2_m_axis_data_tvalid, m_axis_data_tdata => fir2_m_axis_data_tdata ); fir3: fir_bp_lr PORT MAP ( aclk => clk_1024, s_axis_data_tvalid => fir3_s_axis_data_tvalid, s_axis_data_tready => fir3_s_axis_data_tready, s_axis_data_tdata => fir3_s_axis_data_tdata, m_axis_data_tvalid => fir3_m_axis_data_tvalid, m_axis_data_tdata => fir3_m_axis_data_tdata ); fir4: fir_bp_p PORT MAP ( aclk => clk_1024, s_axis_data_tvalid => fir4_s_axis_data_tvalid, s_axis_data_tready => fir4_s_axis_data_tready, s_axis_data_tdata => fir4_s_axis_data_tdata, m_axis_data_tvalid => fir4_m_axis_data_tvalid, m_axis_data_tdata => fir4_m_axis_data_tdata ); fir2_s_axis_data_tready <= '1'; fir2_s_axis_data_tdata <= station; fir3_s_axis_data_tready <= '1'; fir3_s_axis_data_tdata <= station; fir4_s_axis_data_tready <= '1'; fir4_s_axis_data_tdata <= station; process(clk_250MHz) begin if(clk_250MHz'event and clk_250MHz = '1')then if(sw(3) = '0')then audio_input(23 downto 8) <= dds_m_axis_data_tdata_sine; else audio_input(23 downto 8) <= mono_out; end if; audio_input(7 downto 0) <= (others=>'0');--std_logic_vector(resize(signed(sine_raw),audio_ch_bits)); end if; end process; clatch <= clatchb; cdata <= cdatab; --cout <= coutb; cclk <= cclkb; mclk <= mclkb; lrclk <=lrclkb; bclk <= bclkb; dac_sdata <= dac_sdatab; adc_sdatab <= adc_sdata; ---------------------- dbounce1: debounce port map(clk_250MHz, btn(0), dbtn(0)); dbounce2: debounce port map(clk_250MHz, btn(4), dbtn(4)); dbounce3: debounce port map(clk_250MHz, btn(1), dbtn(1)); dbounce4: debounce port map(clk_250MHz, btn(3), dbtn(3)); clk_adc_0: clk_adc port map(adc_clk_in_p, adc_clk_in_n, clk_250MHz, open); adc1: adc port map ( clk_250MHz => clk_250MHz, adc_clk_in_p => adc_clk_in_p, adc_clk_in_n => adc_clk_in_n, adc_data_in_p => adc_data_in_p, adc_data_in_n => adc_data_in_n, adc_data => adc_data ); Q_term: multi_QI PORT MAP ( CLK => clk_250MHz, A => adc_data, B => dds_m_axis_data_tdata_sine, P => Q ); I_term: multi_QI PORT MAP ( CLK => clk_250MHz, A => adc_data, B => dds_m_axis_data_tdata_cosine, P => I ); --31 & 27 downto 13 fir_s_axis_data_tdata_path0 <= Q(31) & Q(29 downto 29-14); fir_s_axis_data_tdata_path1 <= I(31) & I(29 downto 29-14); fir1: fir_lp_250kHz PORT MAP ( aclk => clk_250MHz, s_axis_data_tvalid => fir_s_axis_data_tvalid, s_axis_data_tready => fir_s_axis_data_tready, s_axis_data_tdata => fir_s_axis_data_tdata, m_axis_data_tvalid => fir_m_axis_data_tvalid, m_axis_data_tdata => fir_m_axis_data_tdata ); fft1: fft generic map( vga_width=>vga_width, vga_height=>vga_height, input_size => ywidth ) port map( clk => clk_250MHz, input => ch1_y, valid => ch2_update, index => ch2_x, output => ch2_y_unsigned ); cro1: cro generic map( vga_width=>vga_width, vga_height=>vga_height ) port map( clk_250MHz => clk_250MHz, clk_100MHz => clk_raw, ch1_x => ch1_x, ch1_y => ch1_y, ch1_update => ch1_update, ch2_x => ch2_x, ch2_y => ch2_y, ch2_update => ch2_update, VGA_DATA => VGA_DATA, VGA_HSYNC => VGA_HSYNC, VGA_VSYNC => VGA_VSYNC ); dds1: dds PORT MAP ( aclk => clk_250MHz, s_axis_phase_tvalid => dds_s_axis_phase_tvalid, s_axis_phase_tdata => dds_s_axis_phase_tdata, m_axis_data_tvalid => dds_m_axis_data_tvalid, m_axis_data_tdata => dds_m_axis_data_tdata, m_axis_phase_tvalid => dds_m_axis_phase_tvalid, m_axis_phase_tdata => dds_m_axis_phase_tdata ); scale1: bitshift_div generic map( scale_size=>3, size => 16 ) port map( scale => ch1_y_scale, input => ch1_input, output => ch1_y_large ); --scale2: bitshift_div -- generic map( -- scale_size=>3, -- size => 16 -- ) -- port map( -- scale => ch2_y_scale, -- input => adc_data, -- output => ch2_y_large -- ); truncate1: truncate generic map( size_in => 16, size_out => ywidth ) port map( clk=>clk_250MHz, input =>ch1_y_large, output => ch1_y ); --trigger1: trigger -- generic map( -- vga_width => vga_width, -- vga_height => vga_height -- ) -- port map( -- clk => clk_250MHz, -- input => ch1_y, -- valid => ch1_update, -- output=> ch1_x -- ); process(clk_250MHz) begin if(clk_250MHz'event and clk_250MHz = '1')then ch1_update <= '1'; if( ch1_x < vga_width )then ch1_x <= ch1_x + 1; else ch1_x <= (others=>'0'); end if; end if; end process; --trigger2: trigger -- generic map( -- vga_width => vga_width, -- vga_height => vga_height -- ) -- port map( -- clk => clk_250MHz, -- input => ch2_y, -- valid => ch2_update, -- output=> ch2_x -- ); dmod1: dmod generic map( width => 16 ) port map( clk=> clk_15MHz, I => I_filtered, Q => Q_filtered, output => station ); process(clk_250MHz) begin if(clk_250MHz'event and clk_250MHz = '1')then ch2_y <= std_logic_vector(signed(ch2_y_unsigned)-vga_height/2); end if; end process; --2047 --process(clk_250MHz) begin -- if(clk_250MHz'event and clk_250MHz='1')then -- if(ch1_x < vga_width)then -- ch1_x <= ch1_x + 1; -- else -- ch1_x <= (others=>'0'); -- end if; -- end if; --end process; --ch1_update <= '1'; --42 downto 27 --31 & 27 downto 13 for iq --31 & 15 downto 0 for dmod process(clk_250MHz) begin if(clk_250MHz'event and clk_250MHz = '1')then if( dds_m_axis_data_tvalid = '1')then dds_m_axis_data_tdata_cosine <= dds_m_axis_data_tdata(15 downto 0); dds_m_axis_data_tdata_sine <= dds_m_axis_data_tdata(31 downto 16); end if; if(fir2_m_axis_data_tvalid = '1')then mono_out <= fir2_m_axis_data_tdata(45) & fir2_m_axis_data_tdata(32 DOWNTO 32-14); end if; if( fir_m_axis_data_tvalid = '1')then -- Data master channel alias signals: update these only when they are valid fir_m_axis_data_tdata_path0 <= fir_m_axis_data_tdata(47 downto 0); fir_m_axis_data_tdata_path1 <= fir_m_axis_data_tdata(95 downto 48); end if; Q_filtered <= fir_m_axis_data_tdata_path0(47) & fir_m_axis_data_tdata_path0(34 downto 34-14); I_filtered <= fir_m_axis_data_tdata_path1(47) & fir_m_axis_data_tdata_path1(34 downto 34-14); if(sw(2 downto 0) = "001") then ch1_input <= adc_data; elsif(sw(2 downto 0) = "010") then ch1_input <= dds_m_axis_data_tdata_sine; elsif(sw(2 downto 0) = "011") then ch1_input <= fir_s_axis_data_tdata_path1; elsif(sw(2 downto 0) = "100") then ch1_input <= I_filtered; elsif(sw(2 downto 0) = "101") then ch1_input <= station; elsif(sw(2 downto 0) = "110") then ch1_input <= mono_out; end if; end if; end process; process(clk_250MHz) begin if(clk_250MHz'event and clk_250MHz = '1')then if(dbtn(0) = '1')then dds_s_axis_phase_tdata <= dds_s_axis_phase_tdata + 1000000; elsif(dbtn(4) = '1')then dds_s_axis_phase_tdata <= dds_s_axis_phase_tdata - 1000000; elsif(dbtn(1) = '1')then dds_s_axis_phase_tdata <= "0001101110000101000111101011100001010010"; elsif(dbtn(3) = '1')then dds_s_axis_phase_tdata <= (others=>'0'); end if; end if; end process; fir3_s_axis_data_tdata_data <= fir3_s_axis_data_tdata(15 downto 0); fir4_s_axis_data_tdata_data <= fir4_s_axis_data_tdata(15 downto 0); -- Data master channel alias signals: update these only when they are valid fir3_m_axis_data_tdata_data <= fir3_m_axis_data_tdata(36 downto 0); fir4_m_axis_data_tdata_data <= fir4_m_axis_data_tdata(39 downto 0); end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 14:39:09 11/26/2009 -- Design Name: -- Module Name: GenCounter - 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; use IEEE.STD_LOGIC_ARITH.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 GenCounter is generic (size : integer); Port ( clock : in STD_LOGIC; reset : in STD_LOGIC; data_out : out STD_LOGIC_VECTOR((size - 1) downto 0)); end GenCounter; architecture Behavioral of GenCounter is begin main: process(clock, reset) is variable count : STD_LOGIC_VECTOR((size - 1) downto 0) := (others => '0'); begin if rising_edge(clock) then count := count + 1; end if; if reset = '1' then count := (others => '0'); end if; data_out <= count; end process; end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 14:39:09 11/26/2009 -- Design Name: -- Module Name: GenCounter - 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; use IEEE.STD_LOGIC_ARITH.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 GenCounter is generic (size : integer); Port ( clock : in STD_LOGIC; reset : in STD_LOGIC; data_out : out STD_LOGIC_VECTOR((size - 1) downto 0)); end GenCounter; architecture Behavioral of GenCounter is begin main: process(clock, reset) is variable count : STD_LOGIC_VECTOR((size - 1) downto 0) := (others => '0'); begin if rising_edge(clock) then count := count + 1; end if; if reset = '1' then count := (others => '0'); end if; data_out <= count; end process; end Behavioral;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 00:05:00 09/05/2016 -- Design Name: -- Module Name: gpio - 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; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity gpio is generic( wbs_adr_high : natural := 27 ); port( -- output leds: out std_logic_vector(4 downto 0); -- bus interface clk_i: in std_logic; rst_i: in std_logic; wbs_cyc_i: in std_logic; wbs_stb_i: in std_logic; wbs_we_i: in std_logic; wbs_sel_i: in std_logic_vector(3 downto 0); wbs_ack_o: out std_logic; wbs_adr_i: in std_logic_vector(wbs_adr_high downto 2); wbs_dat_i: in std_logic_vector(31 downto 0); wbs_dat_o: out std_logic_vector(31 downto 0) ); end gpio; architecture Behavioral of gpio is begin wbs_dat_o <= (others=>'0'); process(clk_i) begin if rising_edge(clk_i) then if rst_i='1' then leds<="00000"; end if; if wbs_cyc_i='1' and wbs_stb_i='1' then if wbs_we_i='1' and wbs_sel_i(0)='1' then leds <= wbs_dat_i(4 downto 0); end if; wbs_ack_o<='1'; else wbs_ack_o<='0'; end if; end if; end process; end Behavioral;
-------------------------------------------------------------------------------- -- -- BLK MEM GEN v7_3 Core - Synthesizable Testbench -- -------------------------------------------------------------------------------- -- -- (c) Copyright 2006_3010 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: RAM_synth.vhd -- -- Description: -- Synthesizable Testbench -------------------------------------------------------------------------------- -- Author: IP Solutions Division -- -- History: Sep 12, 2011 - First Release -------------------------------------------------------------------------------- -- -------------------------------------------------------------------------------- -- Library Declarations -------------------------------------------------------------------------------- LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.ALL; USE IEEE.STD_LOGIC_UNSIGNED.ALL; USE IEEE.STD_LOGIC_ARITH.ALL; USE IEEE.NUMERIC_STD.ALL; USE IEEE.STD_LOGIC_MISC.ALL; LIBRARY STD; USE STD.TEXTIO.ALL; --LIBRARY unisim; --USE unisim.vcomponents.ALL; LIBRARY work; USE work.ALL; USE work.BMG_TB_PKG.ALL; ENTITY RAM_synth IS PORT( CLK_IN : IN STD_LOGIC; RESET_IN : IN STD_LOGIC; STATUS : OUT STD_LOGIC_VECTOR(8 DOWNTO 0) := (OTHERS => '0') --ERROR STATUS OUT OF FPGA ); END ENTITY; ARCHITECTURE RAM_synth_ARCH OF RAM_synth IS COMPONENT RAM_exdes PORT ( --Inputs - Port A WEA : IN STD_LOGIC_VECTOR(3 DOWNTO 0); ADDRA : IN STD_LOGIC_VECTOR(7 DOWNTO 0); DINA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); DOUTA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); CLKA : IN STD_LOGIC ); END COMPONENT; SIGNAL CLKA: STD_LOGIC := '0'; SIGNAL RSTA: STD_LOGIC := '0'; SIGNAL WEA: STD_LOGIC_VECTOR(3 DOWNTO 0) := (OTHERS => '0'); SIGNAL WEA_R: STD_LOGIC_VECTOR(3 DOWNTO 0) := (OTHERS => '0'); SIGNAL ADDRA: STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL ADDRA_R: STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL DINA: STD_LOGIC_VECTOR(31 DOWNTO 0) := (OTHERS => '0'); SIGNAL DINA_R: STD_LOGIC_VECTOR(31 DOWNTO 0) := (OTHERS => '0'); SIGNAL DOUTA: STD_LOGIC_VECTOR(31 DOWNTO 0); SIGNAL CHECKER_EN : STD_LOGIC:='0'; SIGNAL CHECKER_EN_R : STD_LOGIC:='0'; SIGNAL STIMULUS_FLOW : STD_LOGIC_VECTOR(22 DOWNTO 0) := (OTHERS =>'0'); SIGNAL clk_in_i: STD_LOGIC; SIGNAL RESET_SYNC_R1 : STD_LOGIC:='1'; SIGNAL RESET_SYNC_R2 : STD_LOGIC:='1'; SIGNAL RESET_SYNC_R3 : STD_LOGIC:='1'; SIGNAL ITER_R0 : STD_LOGIC := '0'; SIGNAL ITER_R1 : STD_LOGIC := '0'; SIGNAL ITER_R2 : STD_LOGIC := '0'; SIGNAL ISSUE_FLAG : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL ISSUE_FLAG_STATUS : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); BEGIN -- clk_buf: bufg -- PORT map( -- i => CLK_IN, -- o => clk_in_i -- ); clk_in_i <= CLK_IN; CLKA <= clk_in_i; RSTA <= RESET_SYNC_R3 AFTER 50 ns; PROCESS(clk_in_i) BEGIN IF(RISING_EDGE(clk_in_i)) THEN RESET_SYNC_R1 <= RESET_IN; RESET_SYNC_R2 <= RESET_SYNC_R1; RESET_SYNC_R3 <= RESET_SYNC_R2; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ISSUE_FLAG_STATUS<= (OTHERS => '0'); ELSE ISSUE_FLAG_STATUS <= ISSUE_FLAG_STATUS OR ISSUE_FLAG; END IF; END IF; END PROCESS; STATUS(7 DOWNTO 0) <= ISSUE_FLAG_STATUS; BMG_DATA_CHECKER_INST: ENTITY work.CHECKER GENERIC MAP ( WRITE_WIDTH => 32, READ_WIDTH => 32 ) PORT MAP ( CLK => CLKA, RST => RSTA, EN => CHECKER_EN_R, DATA_IN => DOUTA, STATUS => ISSUE_FLAG(0) ); PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RSTA='1') THEN CHECKER_EN_R <= '0'; ELSE CHECKER_EN_R <= CHECKER_EN AFTER 50 ns; END IF; END IF; END PROCESS; BMG_STIM_GEN_INST:ENTITY work.BMG_STIM_GEN PORT MAP( CLK => clk_in_i, RST => RSTA, ADDRA => ADDRA, DINA => DINA, WEA => WEA, CHECK_DATA => CHECKER_EN ); PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN STATUS(8) <= '0'; iter_r2 <= '0'; iter_r1 <= '0'; iter_r0 <= '0'; ELSE STATUS(8) <= iter_r2; iter_r2 <= iter_r1; iter_r1 <= iter_r0; iter_r0 <= STIMULUS_FLOW(8); END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN STIMULUS_FLOW <= (OTHERS => '0'); ELSIF(WEA(0)='1') THEN STIMULUS_FLOW <= STIMULUS_FLOW+1; END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN WEA_R <= (OTHERS=>'0') AFTER 50 ns; DINA_R <= (OTHERS=>'0') AFTER 50 ns; ELSE WEA_R <= WEA AFTER 50 ns; DINA_R <= DINA AFTER 50 ns; END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ADDRA_R <= (OTHERS=> '0') AFTER 50 ns; ELSE ADDRA_R <= ADDRA AFTER 50 ns; END IF; END IF; END PROCESS; BMG_PORT: RAM_exdes PORT MAP ( --Port A WEA => WEA_R, ADDRA => ADDRA_R, DINA => DINA_R, DOUTA => DOUTA, CLKA => CLKA ); END ARCHITECTURE;
-------------------------------------------------------------------------------- -- -- BLK MEM GEN v7_3 Core - Synthesizable Testbench -- -------------------------------------------------------------------------------- -- -- (c) Copyright 2006_3010 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: RAM_synth.vhd -- -- Description: -- Synthesizable Testbench -------------------------------------------------------------------------------- -- Author: IP Solutions Division -- -- History: Sep 12, 2011 - First Release -------------------------------------------------------------------------------- -- -------------------------------------------------------------------------------- -- Library Declarations -------------------------------------------------------------------------------- LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.ALL; USE IEEE.STD_LOGIC_UNSIGNED.ALL; USE IEEE.STD_LOGIC_ARITH.ALL; USE IEEE.NUMERIC_STD.ALL; USE IEEE.STD_LOGIC_MISC.ALL; LIBRARY STD; USE STD.TEXTIO.ALL; --LIBRARY unisim; --USE unisim.vcomponents.ALL; LIBRARY work; USE work.ALL; USE work.BMG_TB_PKG.ALL; ENTITY RAM_synth IS PORT( CLK_IN : IN STD_LOGIC; RESET_IN : IN STD_LOGIC; STATUS : OUT STD_LOGIC_VECTOR(8 DOWNTO 0) := (OTHERS => '0') --ERROR STATUS OUT OF FPGA ); END ENTITY; ARCHITECTURE RAM_synth_ARCH OF RAM_synth IS COMPONENT RAM_exdes PORT ( --Inputs - Port A WEA : IN STD_LOGIC_VECTOR(3 DOWNTO 0); ADDRA : IN STD_LOGIC_VECTOR(7 DOWNTO 0); DINA : IN STD_LOGIC_VECTOR(31 DOWNTO 0); DOUTA : OUT STD_LOGIC_VECTOR(31 DOWNTO 0); CLKA : IN STD_LOGIC ); END COMPONENT; SIGNAL CLKA: STD_LOGIC := '0'; SIGNAL RSTA: STD_LOGIC := '0'; SIGNAL WEA: STD_LOGIC_VECTOR(3 DOWNTO 0) := (OTHERS => '0'); SIGNAL WEA_R: STD_LOGIC_VECTOR(3 DOWNTO 0) := (OTHERS => '0'); SIGNAL ADDRA: STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL ADDRA_R: STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL DINA: STD_LOGIC_VECTOR(31 DOWNTO 0) := (OTHERS => '0'); SIGNAL DINA_R: STD_LOGIC_VECTOR(31 DOWNTO 0) := (OTHERS => '0'); SIGNAL DOUTA: STD_LOGIC_VECTOR(31 DOWNTO 0); SIGNAL CHECKER_EN : STD_LOGIC:='0'; SIGNAL CHECKER_EN_R : STD_LOGIC:='0'; SIGNAL STIMULUS_FLOW : STD_LOGIC_VECTOR(22 DOWNTO 0) := (OTHERS =>'0'); SIGNAL clk_in_i: STD_LOGIC; SIGNAL RESET_SYNC_R1 : STD_LOGIC:='1'; SIGNAL RESET_SYNC_R2 : STD_LOGIC:='1'; SIGNAL RESET_SYNC_R3 : STD_LOGIC:='1'; SIGNAL ITER_R0 : STD_LOGIC := '0'; SIGNAL ITER_R1 : STD_LOGIC := '0'; SIGNAL ITER_R2 : STD_LOGIC := '0'; SIGNAL ISSUE_FLAG : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); SIGNAL ISSUE_FLAG_STATUS : STD_LOGIC_VECTOR(7 DOWNTO 0) := (OTHERS => '0'); BEGIN -- clk_buf: bufg -- PORT map( -- i => CLK_IN, -- o => clk_in_i -- ); clk_in_i <= CLK_IN; CLKA <= clk_in_i; RSTA <= RESET_SYNC_R3 AFTER 50 ns; PROCESS(clk_in_i) BEGIN IF(RISING_EDGE(clk_in_i)) THEN RESET_SYNC_R1 <= RESET_IN; RESET_SYNC_R2 <= RESET_SYNC_R1; RESET_SYNC_R3 <= RESET_SYNC_R2; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ISSUE_FLAG_STATUS<= (OTHERS => '0'); ELSE ISSUE_FLAG_STATUS <= ISSUE_FLAG_STATUS OR ISSUE_FLAG; END IF; END IF; END PROCESS; STATUS(7 DOWNTO 0) <= ISSUE_FLAG_STATUS; BMG_DATA_CHECKER_INST: ENTITY work.CHECKER GENERIC MAP ( WRITE_WIDTH => 32, READ_WIDTH => 32 ) PORT MAP ( CLK => CLKA, RST => RSTA, EN => CHECKER_EN_R, DATA_IN => DOUTA, STATUS => ISSUE_FLAG(0) ); PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RSTA='1') THEN CHECKER_EN_R <= '0'; ELSE CHECKER_EN_R <= CHECKER_EN AFTER 50 ns; END IF; END IF; END PROCESS; BMG_STIM_GEN_INST:ENTITY work.BMG_STIM_GEN PORT MAP( CLK => clk_in_i, RST => RSTA, ADDRA => ADDRA, DINA => DINA, WEA => WEA, CHECK_DATA => CHECKER_EN ); PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN STATUS(8) <= '0'; iter_r2 <= '0'; iter_r1 <= '0'; iter_r0 <= '0'; ELSE STATUS(8) <= iter_r2; iter_r2 <= iter_r1; iter_r1 <= iter_r0; iter_r0 <= STIMULUS_FLOW(8); END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN STIMULUS_FLOW <= (OTHERS => '0'); ELSIF(WEA(0)='1') THEN STIMULUS_FLOW <= STIMULUS_FLOW+1; END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN WEA_R <= (OTHERS=>'0') AFTER 50 ns; DINA_R <= (OTHERS=>'0') AFTER 50 ns; ELSE WEA_R <= WEA AFTER 50 ns; DINA_R <= DINA AFTER 50 ns; END IF; END IF; END PROCESS; PROCESS(CLKA) BEGIN IF(RISING_EDGE(CLKA)) THEN IF(RESET_SYNC_R3='1') THEN ADDRA_R <= (OTHERS=> '0') AFTER 50 ns; ELSE ADDRA_R <= ADDRA AFTER 50 ns; END IF; END IF; END PROCESS; BMG_PORT: RAM_exdes PORT MAP ( --Port A WEA => WEA_R, ADDRA => ADDRA_R, DINA => DINA_R, DOUTA => DOUTA, CLKA => CLKA ); END ARCHITECTURE;
library verilog; use verilog.vl_types.all; entity execute_port1 is port( iCLOCK : in vl_logic; inRESET : in vl_logic; iFREE_EX : in vl_logic; iPREVIOUS_EX_ALU1_VALID: in vl_logic; iPREVIOUS_EX_ALU1_WRITEBACK: in vl_logic; iPREVIOUS_EX_ALU1_COMMIT_TAG: in vl_logic_vector(5 downto 0); iPREVIOUS_EX_ALU1_CMD: in vl_logic_vector(4 downto 0); iPREVIOUS_EX_ALU1_AFE: in vl_logic_vector(3 downto 0); iPREVIOUS_EX_ALU1_SYS_REG: in vl_logic; iPREVIOUS_EX_ALU1_LOGIC: in vl_logic; iPREVIOUS_EX_ALU1_SHIFT: in vl_logic; iPREVIOUS_EX_ALU1_ADDER: in vl_logic; iPREVIOUS_EX_ALU1_MUL: in vl_logic; iPREVIOUS_EX_ALU1_SDIV: in vl_logic; iPREVIOUS_EX_ALU1_UDIV: in vl_logic; iPREVIOUS_EX_ALU1_SOURCE0: in vl_logic_vector(31 downto 0); iPREVIOUS_EX_ALU1_SOURCE1: in vl_logic_vector(31 downto 0); iPREVIOUS_EX_ALU1_DESTINATION_SYSREG: in vl_logic; iPREVIOUS_EX_ALU1_LOGIC_DEST: in vl_logic_vector(4 downto 0); iPREVIOUS_EX_ALU1_DESTINATION_REGNAME: in vl_logic_vector(5 downto 0); iPREVIOUS_EX_ALU1_FLAGS_WRITEBACK: in vl_logic; iPREVIOUS_EX_ALU1_FLAGS_REGNAME: in vl_logic_vector(3 downto 0); iPREVIOUS_EX_ALU1_PCR: in vl_logic_vector(31 downto 0); oPREVIOUS_EX_ALU1_LOCK: out vl_logic; oINTERRUPT_ACTIVE: out vl_logic; oINTERRUPT_NUM : out vl_logic_vector(10 downto 0); oSCHE1_EX_ALU1_VALID: out vl_logic; oSCHE1_EX_ALU1_COMMIT_TAG: out vl_logic_vector(5 downto 0); oSCHE2_EX_ALU1_VALID: out vl_logic; oSCHE2_EX_ALU1_COMMIT_TAG: out vl_logic_vector(5 downto 0); oSCHE2_EX_ALU1_SYSREG: out vl_logic; oSCHE2_EX_ALU1_LOGIC_DEST: out vl_logic_vector(4 downto 0); oSCHE2_EX_ALU1_DESTINATION_REGNAME: out vl_logic_vector(5 downto 0); oSCHE2_EX_ALU1_WRITEBACK: out vl_logic; oSCHE2_EX_ALU1_DATA: out vl_logic_vector(31 downto 0); oSCHE2_EX_ALU1_FLAG: out vl_logic_vector(4 downto 0); oSCHE2_EX_ALU1_FLAGS_WRITEBACK: out vl_logic; oSCHE2_EX_ALU1_FLAGS_REGNAME: out vl_logic_vector(3 downto 0) ); end execute_port1;
-- Copyright (C) 2016 by Spallina Ind. library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity TESTADIFFICILE is end TESTADIFFICILE; architecture beh of TESTADIFFICILE is component difficile is port ( din : in std_logic_vector(15 downto 0); start, clk : in std_logic; res : out std_logic_vector(15 downto 0); fine : out std_logic ); end component; signal din, res : std_logic_vector(15 downto 0); signal start, clk, fine : std_logic; begin DUT: difficile port map (din, start, clk, res, fine); process begin clk <= '0'; wait for 5 ns; clk <= '1'; wait for 5 ns; end process; start <= '1' after 1 ns, '0' after 11 ns; din <= "0000000000000"&"100" after 11 ns, conv_std_logic_vector(7, 16) after 21 ns; -- + altri test, mi secca :D end beh;
-- Copyright (C) 2016 by Spallina Ind. library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity TESTADIFFICILE is end TESTADIFFICILE; architecture beh of TESTADIFFICILE is component difficile is port ( din : in std_logic_vector(15 downto 0); start, clk : in std_logic; res : out std_logic_vector(15 downto 0); fine : out std_logic ); end component; signal din, res : std_logic_vector(15 downto 0); signal start, clk, fine : std_logic; begin DUT: difficile port map (din, start, clk, res, fine); process begin clk <= '0'; wait for 5 ns; clk <= '1'; wait for 5 ns; end process; start <= '1' after 1 ns, '0' after 11 ns; din <= "0000000000000"&"100" after 11 ns, conv_std_logic_vector(7, 16) after 21 ns; -- + altri test, mi secca :D end beh;
------------------------------------------------------------------------------- -- -- Title : sync -- Design : plk_mn -- ------------------------------------------------------------------------------- -- -- File : sync.vhd -- Generated : Wed Jul 27 09:33:40 2011 -- From : interface description file -- By : Itf2Vhdl ver. 1.22 -- ------------------------------------------------------------------------------- -- -- (c) B&R, 2011 -- -- 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. -- ------------------------------------------------------------------------------- -- -- 2011-07-26 V0.01 zelenkaj First version -- 2011-11-25 V0.02 mairt omitted reset out -- ------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_arith.all; USE ieee.std_logic_unsigned.all; entity sync is generic( doSync_g : boolean := true ); port( clk : in std_logic; rst : in std_logic; din : in std_logic; dout : out std_logic ); end sync; architecture rtl of sync is signal s0, s1 : std_logic := '0'; begin genSync : if doSync_g = true generate process(clk)--, rst) begin if clk = '1' and clk'event then s0 <= din; --reg0 s1 <= s0; --reg1 end if; end process; end generate; dout <= s1 when doSync_g = true else din; --reg1 output end rtl;
------------------------------------------------------------------------------- -- -- Title : sync -- Design : plk_mn -- ------------------------------------------------------------------------------- -- -- File : sync.vhd -- Generated : Wed Jul 27 09:33:40 2011 -- From : interface description file -- By : Itf2Vhdl ver. 1.22 -- ------------------------------------------------------------------------------- -- -- (c) B&R, 2011 -- -- 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. -- ------------------------------------------------------------------------------- -- -- 2011-07-26 V0.01 zelenkaj First version -- 2011-11-25 V0.02 mairt omitted reset out -- ------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_arith.all; USE ieee.std_logic_unsigned.all; entity sync is generic( doSync_g : boolean := true ); port( clk : in std_logic; rst : in std_logic; din : in std_logic; dout : out std_logic ); end sync; architecture rtl of sync is signal s0, s1 : std_logic := '0'; begin genSync : if doSync_g = true generate process(clk)--, rst) begin if clk = '1' and clk'event then s0 <= din; --reg0 s1 <= s0; --reg1 end if; end process; end generate; dout <= s1 when doSync_g = true else din; --reg1 output end rtl;
------------------------------------------------------------------------------- -- -- Title : sync -- Design : plk_mn -- ------------------------------------------------------------------------------- -- -- File : sync.vhd -- Generated : Wed Jul 27 09:33:40 2011 -- From : interface description file -- By : Itf2Vhdl ver. 1.22 -- ------------------------------------------------------------------------------- -- -- (c) B&R, 2011 -- -- 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. -- ------------------------------------------------------------------------------- -- -- 2011-07-26 V0.01 zelenkaj First version -- 2011-11-25 V0.02 mairt omitted reset out -- ------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.std_logic_arith.all; USE ieee.std_logic_unsigned.all; entity sync is generic( doSync_g : boolean := true ); port( clk : in std_logic; rst : in std_logic; din : in std_logic; dout : out std_logic ); end sync; architecture rtl of sync is signal s0, s1 : std_logic := '0'; begin genSync : if doSync_g = true generate process(clk)--, rst) begin if clk = '1' and clk'event then s0 <= din; --reg0 s1 <= s0; --reg1 end if; end process; end generate; dout <= s1 when doSync_g = true else din; --reg1 output end rtl;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity MemController is port(clk: in std_logic; readMem : in std_logic; writeMem:in std_logic; regEn:out std_logic; wen: out std_logic; outen : out std_logic); end entity MemController; ------------------------------------------------------------------------------- architecture arch of MemController is type mem_states is (ready,read_in,write_out,write_outtwo,write_in,written); signal state, next_state: mem_states; begin -- architecture arch process (clk) begin if (clk='1' and clk'Event) then state <= next_state; end if; end process; process (state, writeMem, readMem) begin case state is when ready => if readMem='1' then next_state <= read_in; elsif writeMem='1' then next_state <= write_in; else next_state <= ready; end if; when read_in => next_state <= write_out; when write_in => next_state <= written; when write_out => next_state <= write_outtwo; when write_outtwo => next_state <= ready; when written => next_state <= ready; end case; end process; process (state) begin case state is when ready => regEn<='0'; wen<='0'; outen<='0'; when read_in => regEn<='1'; wen<='0'; outen<='0'; when write_in => regEn<='1'; wen<='0'; outen<='0'; when write_out => regEn<='0'; wen<='0'; outen<='0'; when write_outtwo => regEn<='0'; wen<='0'; outen<='1'; when written => regEn<='0'; wen<='1'; outen<='0'; end case; end process; end architecture arch; -------------------------------------------------------------------------------
-- ------------------------------------------------------------- -- -- File Name: hdl_prj/hdlsrc/hdl_ofdm_tx/TWDLROM_3_6.vhd -- Created: 2018-02-27 13:25:18 -- -- Generated by MATLAB 9.3 and HDL Coder 3.11 -- -- ------------------------------------------------------------- -- ------------------------------------------------------------- -- -- Module: TWDLROM_3_6 -- Source Path: hdl_ofdm_tx/ifft/TWDLROM_3_6 -- Hierarchy Level: 2 -- -- ------------------------------------------------------------- LIBRARY IEEE; USE IEEE.std_logic_1164.ALL; USE IEEE.numeric_std.ALL; USE work.hdl_ofdm_tx_pkg.ALL; ENTITY TWDLROM_3_6 IS PORT( clk : IN std_logic; reset : IN std_logic; enb_1_16_0 : IN std_logic; dout_2_vld : IN std_logic; softReset : IN std_logic; twdl_3_6_re : OUT std_logic_vector(15 DOWNTO 0); -- sfix16_En14 twdl_3_6_im : OUT std_logic_vector(15 DOWNTO 0); -- sfix16_En14 twdl_3_6_vld : OUT std_logic ); END TWDLROM_3_6; ARCHITECTURE rtl OF TWDLROM_3_6 IS -- Constants CONSTANT Twiddle_re_table_data : vector_of_signed16(0 TO 1) := (to_signed(16#4000#, 16), to_signed(16#3B21#, 16)); -- sfix16 [2] CONSTANT Twiddle_im_table_data : vector_of_signed16(0 TO 1) := (to_signed(16#0000#, 16), to_signed(-16#187E#, 16)); -- sfix16 [2] -- Signals SIGNAL Radix22TwdlMapping_cnt : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_phase : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_octantReg1 : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL Radix22TwdlMapping_twdlAddr_raw : unsigned(3 DOWNTO 0); -- ufix4 SIGNAL Radix22TwdlMapping_twdlAddrMap : std_logic; -- ufix1 SIGNAL Radix22TwdlMapping_twdl45Reg : std_logic; SIGNAL Radix22TwdlMapping_dvldReg1 : std_logic; SIGNAL Radix22TwdlMapping_dvldReg2 : std_logic; SIGNAL Radix22TwdlMapping_cnt_next : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_phase_next : unsigned(1 DOWNTO 0); -- ufix2 SIGNAL Radix22TwdlMapping_octantReg1_next : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL Radix22TwdlMapping_twdlAddr_raw_next : unsigned(3 DOWNTO 0); -- ufix4 SIGNAL Radix22TwdlMapping_twdlAddrMap_next : std_logic; -- ufix1 SIGNAL Radix22TwdlMapping_twdl45Reg_next : std_logic; SIGNAL Radix22TwdlMapping_dvldReg1_next : std_logic; SIGNAL Radix22TwdlMapping_dvldReg2_next : std_logic; SIGNAL twdlAddr : std_logic; -- ufix1 SIGNAL twdlAddrVld : std_logic; SIGNAL twdlOctant : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL twdl45 : std_logic; SIGNAL Twiddle_re_cast : signed(31 DOWNTO 0); -- int32 SIGNAL twiddleS_re : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twiddleReg_re : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL Twiddle_im_cast : signed(31 DOWNTO 0); -- int32 SIGNAL twiddleS_im : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twiddleReg_im : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twdlOctantReg : unsigned(2 DOWNTO 0); -- ufix3 SIGNAL twdl45Reg : std_logic; SIGNAL twdl_3_6_re_tmp : signed(15 DOWNTO 0); -- sfix16_En14 SIGNAL twdl_3_6_im_tmp : signed(15 DOWNTO 0); -- sfix16_En14 BEGIN -- Radix22TwdlMapping Radix22TwdlMapping_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN Radix22TwdlMapping_octantReg1 <= to_unsigned(16#0#, 3); Radix22TwdlMapping_twdlAddr_raw <= to_unsigned(16#0#, 4); Radix22TwdlMapping_twdlAddrMap <= '0'; Radix22TwdlMapping_twdl45Reg <= '0'; Radix22TwdlMapping_dvldReg1 <= '0'; Radix22TwdlMapping_dvldReg2 <= '0'; Radix22TwdlMapping_cnt <= to_unsigned(16#1#, 2); Radix22TwdlMapping_phase <= to_unsigned(16#1#, 2); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN Radix22TwdlMapping_cnt <= Radix22TwdlMapping_cnt_next; Radix22TwdlMapping_phase <= Radix22TwdlMapping_phase_next; Radix22TwdlMapping_octantReg1 <= Radix22TwdlMapping_octantReg1_next; Radix22TwdlMapping_twdlAddr_raw <= Radix22TwdlMapping_twdlAddr_raw_next; Radix22TwdlMapping_twdlAddrMap <= Radix22TwdlMapping_twdlAddrMap_next; Radix22TwdlMapping_twdl45Reg <= Radix22TwdlMapping_twdl45Reg_next; Radix22TwdlMapping_dvldReg1 <= Radix22TwdlMapping_dvldReg1_next; Radix22TwdlMapping_dvldReg2 <= Radix22TwdlMapping_dvldReg2_next; END IF; END IF; END PROCESS Radix22TwdlMapping_process; Radix22TwdlMapping_output : PROCESS (Radix22TwdlMapping_cnt, Radix22TwdlMapping_phase, Radix22TwdlMapping_octantReg1, Radix22TwdlMapping_twdlAddr_raw, Radix22TwdlMapping_twdlAddrMap, Radix22TwdlMapping_twdl45Reg, Radix22TwdlMapping_dvldReg1, Radix22TwdlMapping_dvldReg2, dout_2_vld) VARIABLE octant : unsigned(2 DOWNTO 0); VARIABLE addr_cast : unsigned(3 DOWNTO 0); VARIABLE c : unsigned(1 DOWNTO 0); VARIABLE sub_cast : signed(9 DOWNTO 0); VARIABLE sub_temp : signed(9 DOWNTO 0); VARIABLE sub_cast_0 : signed(5 DOWNTO 0); VARIABLE sub_temp_0 : signed(5 DOWNTO 0); VARIABLE sub_cast_1 : signed(5 DOWNTO 0); VARIABLE sub_temp_1 : signed(5 DOWNTO 0); VARIABLE sub_cast_2 : signed(9 DOWNTO 0); VARIABLE sub_temp_2 : signed(9 DOWNTO 0); VARIABLE sub_cast_3 : signed(9 DOWNTO 0); VARIABLE sub_temp_3 : signed(9 DOWNTO 0); BEGIN Radix22TwdlMapping_cnt_next <= Radix22TwdlMapping_cnt; Radix22TwdlMapping_phase_next <= Radix22TwdlMapping_phase; Radix22TwdlMapping_twdlAddr_raw_next <= Radix22TwdlMapping_twdlAddr_raw; Radix22TwdlMapping_twdlAddrMap_next <= Radix22TwdlMapping_twdlAddrMap; Radix22TwdlMapping_twdl45Reg_next <= Radix22TwdlMapping_twdl45Reg; Radix22TwdlMapping_dvldReg2_next <= Radix22TwdlMapping_dvldReg1; Radix22TwdlMapping_dvldReg1_next <= dout_2_vld; CASE Radix22TwdlMapping_twdlAddr_raw IS WHEN "0010" => octant := to_unsigned(16#0#, 3); Radix22TwdlMapping_twdl45Reg_next <= '1'; WHEN "0100" => octant := to_unsigned(16#1#, 3); Radix22TwdlMapping_twdl45Reg_next <= '0'; WHEN "0110" => octant := to_unsigned(16#2#, 3); Radix22TwdlMapping_twdl45Reg_next <= '1'; WHEN "1000" => octant := to_unsigned(16#3#, 3); Radix22TwdlMapping_twdl45Reg_next <= '0'; WHEN "1010" => octant := to_unsigned(16#4#, 3); Radix22TwdlMapping_twdl45Reg_next <= '1'; WHEN OTHERS => octant := Radix22TwdlMapping_twdlAddr_raw(3 DOWNTO 1); Radix22TwdlMapping_twdl45Reg_next <= '0'; END CASE; Radix22TwdlMapping_octantReg1_next <= octant; CASE octant IS WHEN "000" => Radix22TwdlMapping_twdlAddrMap_next <= Radix22TwdlMapping_twdlAddr_raw(0); WHEN "001" => sub_cast_0 := signed(resize(Radix22TwdlMapping_twdlAddr_raw, 6)); sub_temp_0 := to_signed(16#04#, 6) - sub_cast_0; Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_0(0); WHEN "010" => sub_cast_1 := signed(resize(Radix22TwdlMapping_twdlAddr_raw, 6)); sub_temp_1 := sub_cast_1 - to_signed(16#04#, 6); Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_1(0); WHEN "011" => sub_cast_2 := signed(resize(Radix22TwdlMapping_twdlAddr_raw & '0', 10)); sub_temp_2 := to_signed(16#010#, 10) - sub_cast_2; Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_2(1); WHEN "100" => sub_cast_3 := signed(resize(Radix22TwdlMapping_twdlAddr_raw & '0', 10)); sub_temp_3 := sub_cast_3 - to_signed(16#010#, 10); Radix22TwdlMapping_twdlAddrMap_next <= sub_temp_3(1); WHEN OTHERS => sub_cast := signed(resize(Radix22TwdlMapping_twdlAddr_raw & '0', 10)); sub_temp := to_signed(16#018#, 10) - sub_cast; Radix22TwdlMapping_twdlAddrMap_next <= sub_temp(1); END CASE; c := unsigned'(Radix22TwdlMapping_cnt(0) & Radix22TwdlMapping_cnt(1)); IF Radix22TwdlMapping_phase = to_unsigned(16#0#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= to_unsigned(16#0#, 4); ELSIF Radix22TwdlMapping_phase = to_unsigned(16#1#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= resize(c, 4); ELSIF Radix22TwdlMapping_phase = to_unsigned(16#2#, 2) THEN Radix22TwdlMapping_twdlAddr_raw_next <= resize(c, 4) sll 1; ELSE addr_cast := resize(c, 4); Radix22TwdlMapping_twdlAddr_raw_next <= (addr_cast sll 1) + addr_cast; END IF; IF dout_2_vld = '1' THEN Radix22TwdlMapping_cnt_next <= Radix22TwdlMapping_cnt + to_unsigned(16#000000004#, 2); END IF; twdlAddr <= Radix22TwdlMapping_twdlAddrMap; twdlAddrVld <= Radix22TwdlMapping_dvldReg2; twdlOctant <= Radix22TwdlMapping_octantReg1; twdl45 <= Radix22TwdlMapping_twdl45Reg; END PROCESS Radix22TwdlMapping_output; -- Twiddle ROM1 Twiddle_re_cast <= '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & twdlAddr; twiddleS_re <= Twiddle_re_table_data(to_integer(Twiddle_re_cast)); TWIDDLEROM_RE_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twiddleReg_re <= to_signed(16#0000#, 16); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twiddleReg_re <= twiddleS_re; END IF; END IF; END PROCESS TWIDDLEROM_RE_process; -- Twiddle ROM2 Twiddle_im_cast <= '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & '0' & twdlAddr; twiddleS_im <= Twiddle_im_table_data(to_integer(Twiddle_im_cast)); TWIDDLEROM_IM_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twiddleReg_im <= to_signed(16#0000#, 16); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twiddleReg_im <= twiddleS_im; END IF; END IF; END PROCESS TWIDDLEROM_IM_process; intdelay_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdlOctantReg <= to_unsigned(16#0#, 3); ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twdlOctantReg <= twdlOctant; END IF; END IF; END PROCESS intdelay_process; intdelay_1_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdl45Reg <= '0'; ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twdl45Reg <= twdl45; END IF; END IF; END PROCESS intdelay_1_process; -- Radix22TwdlOctCorr Radix22TwdlOctCorr_output : PROCESS (twiddleReg_re, twiddleReg_im, twdlOctantReg, twdl45Reg) VARIABLE twdlIn_re : signed(15 DOWNTO 0); VARIABLE twdlIn_im : signed(15 DOWNTO 0); VARIABLE cast : signed(16 DOWNTO 0); VARIABLE cast_0 : signed(16 DOWNTO 0); VARIABLE cast_1 : signed(16 DOWNTO 0); VARIABLE cast_2 : signed(16 DOWNTO 0); VARIABLE cast_3 : signed(16 DOWNTO 0); VARIABLE cast_4 : signed(16 DOWNTO 0); VARIABLE cast_5 : signed(16 DOWNTO 0); VARIABLE cast_6 : signed(16 DOWNTO 0); VARIABLE cast_7 : signed(16 DOWNTO 0); VARIABLE cast_8 : signed(16 DOWNTO 0); VARIABLE cast_9 : signed(16 DOWNTO 0); VARIABLE cast_10 : signed(16 DOWNTO 0); BEGIN twdlIn_re := twiddleReg_re; twdlIn_im := twiddleReg_im; IF twdl45Reg = '1' THEN CASE twdlOctantReg IS WHEN "000" => twdlIn_re := to_signed(16#2D41#, 16); twdlIn_im := to_signed(-16#2D41#, 16); WHEN "010" => twdlIn_re := to_signed(-16#2D41#, 16); twdlIn_im := to_signed(-16#2D41#, 16); WHEN "100" => twdlIn_re := to_signed(-16#2D41#, 16); twdlIn_im := to_signed(16#2D41#, 16); WHEN OTHERS => twdlIn_re := to_signed(16#2D41#, 16); twdlIn_im := to_signed(-16#2D41#, 16); END CASE; ELSE CASE twdlOctantReg IS WHEN "000" => NULL; WHEN "001" => cast := resize(twiddleReg_im, 17); cast_0 := - (cast); twdlIn_re := cast_0(15 DOWNTO 0); cast_5 := resize(twiddleReg_re, 17); cast_6 := - (cast_5); twdlIn_im := cast_6(15 DOWNTO 0); WHEN "010" => twdlIn_re := twiddleReg_im; cast_7 := resize(twiddleReg_re, 17); cast_8 := - (cast_7); twdlIn_im := cast_8(15 DOWNTO 0); WHEN "011" => cast_1 := resize(twiddleReg_re, 17); cast_2 := - (cast_1); twdlIn_re := cast_2(15 DOWNTO 0); twdlIn_im := twiddleReg_im; WHEN "100" => cast_3 := resize(twiddleReg_re, 17); cast_4 := - (cast_3); twdlIn_re := cast_4(15 DOWNTO 0); cast_9 := resize(twiddleReg_im, 17); cast_10 := - (cast_9); twdlIn_im := cast_10(15 DOWNTO 0); WHEN OTHERS => twdlIn_re := twiddleReg_im; twdlIn_im := twiddleReg_re; END CASE; END IF; twdl_3_6_re_tmp <= twdlIn_re; twdl_3_6_im_tmp <= twdlIn_im; END PROCESS Radix22TwdlOctCorr_output; twdl_3_6_re <= std_logic_vector(twdl_3_6_re_tmp); twdl_3_6_im <= std_logic_vector(twdl_3_6_im_tmp); intdelay_2_process : PROCESS (clk, reset) BEGIN IF reset = '1' THEN twdl_3_6_vld <= '0'; ELSIF clk'EVENT AND clk = '1' THEN IF enb_1_16_0 = '1' THEN twdl_3_6_vld <= twdlAddrVld; END IF; END IF; END PROCESS intdelay_2_process; END rtl;
-- ------------------------------------------------------------- -- -- Generated Architecture Declaration for rtl of INST_AA_e -- -- Generated -- by: wig -- on: Sat Mar 3 17:08:41 2007 -- cmd: /cygdrive/c/Documents and Settings/wig/My Documents/work/MIX/mix_0.pl -nodelta ../case.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: inst_aa_e-rtl-a.vhd,v 1.1 2007/03/03 17:32:14 wig Exp $ -- $Date: 2007/03/03 17:32:14 $ -- $Log: inst_aa_e-rtl-a.vhd,v $ -- Revision 1.1 2007/03/03 17:32:14 wig -- Fixed case in UNIX, too for testcase case -- -- Revision 1.2 2007/03/03 17:24:06 wig -- Updated testcase for case matches. Added filename serialization. -- -- -- Based on Mix Architecture Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.101 2007/03/01 16:28:38 wig Exp -- -- Generator: mix_0.pl Revision: 1.47 , wilfried.gaensheimer@micronas.com -- (C) 2003,2005 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/arch -- -- -- Start of Generated Architecture rtl of INST_AA_e -- architecture rtl of INST_AA_e is -- -- Generated Constant Declarations -- -- -- Generated Components -- -- -- Generated Signal List -- -- -- End of Generated Signal List -- begin -- -- Generated Concurrent Statements -- -- -- Generated Signal Assignments -- -- -- Generated Instances and Port Mappings -- end rtl; -- --!End of Architecture/s -- --------------------------------------------------------------
-------------------------------------------------------------------------------- -- -- 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: FiFo512Core32W32R_dgen.vhd -- -- Description: -- Used for write interface stimulus generation -- -------------------------------------------------------------------------------- -- Library Declarations -------------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.ALL; USE ieee.std_logic_unsigned.all; USE IEEE.std_logic_arith.all; USE IEEE.std_logic_misc.all; LIBRARY work; USE work.FiFo512Core32W32R_pkg.ALL; ENTITY FiFo512Core32W32R_dgen IS GENERIC ( C_DIN_WIDTH : INTEGER := 32; C_DOUT_WIDTH : INTEGER := 32; C_CH_TYPE : INTEGER := 0; TB_SEED : INTEGER := 2 ); PORT ( RESET : IN STD_LOGIC; WR_CLK : IN STD_LOGIC; PRC_WR_EN : IN STD_LOGIC; FULL : IN STD_LOGIC; WR_EN : OUT STD_LOGIC; WR_DATA : OUT STD_LOGIC_VECTOR(C_DIN_WIDTH-1 DOWNTO 0) ); END ENTITY; ARCHITECTURE fg_dg_arch OF FiFo512Core32W32R_dgen IS CONSTANT C_DATA_WIDTH : INTEGER := if_then_else(C_DIN_WIDTH > C_DOUT_WIDTH,C_DIN_WIDTH,C_DOUT_WIDTH); CONSTANT LOOP_COUNT : INTEGER := divroundup(C_DATA_WIDTH,8); SIGNAL pr_w_en : STD_LOGIC := '0'; SIGNAL rand_num : STD_LOGIC_VECTOR(8*LOOP_COUNT-1 DOWNTO 0); SIGNAL wr_data_i : STD_LOGIC_VECTOR(C_DIN_WIDTH-1 DOWNTO 0); BEGIN WR_EN <= PRC_WR_EN ; WR_DATA <= wr_data_i AFTER 50 ns; ---------------------------------------------- -- Generation of DATA ---------------------------------------------- gen_stim:FOR N IN LOOP_COUNT-1 DOWNTO 0 GENERATE rd_gen_inst1:FiFo512Core32W32R_rng GENERIC MAP( WIDTH => 8, SEED => TB_SEED+N ) PORT MAP( CLK => WR_CLK, RESET => RESET, RANDOM_NUM => rand_num(8*(N+1)-1 downto 8*N), ENABLE => pr_w_en ); END GENERATE; pr_w_en <= PRC_WR_EN AND NOT FULL; wr_data_i <= rand_num(C_DIN_WIDTH-1 DOWNTO 0); END ARCHITECTURE;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity BIST_core is PORT ( clk, reset_n : in std_logic; r_addr_a, r_addr_b, r_addr_c, r_addr_0, r_addr_1 : out std_logic_vector(31 downto 0); w_data, w_addr : out std_logic_vector(31 downto 0); we : out std_logic; stall : in std_logic; id : in std_logic_vector(2 downto 0); r_data_a, r_data_b, r_data_c, r_data_0, r_data_1 : in std_logic_vector(31 downto 0) ); end; architecture BIST of BIST_core is signal start_address : std_logic_vector(31 downto 0); signal error_a : std_logic; signal error_b : std_logic; signal error_c : std_logic; signal error_0 : std_logic; signal error_1 : std_logic; signal address_a : std_logic_vector(31 downto 0); signal address_b : std_logic_vector(31 downto 0); signal address_c : std_logic_vector(31 downto 0); signal address_0 : std_logic_vector(31 downto 0); signal address_1 : std_logic_vector(31 downto 0); begin process (start_address, id) begin if (id(0) = '1') then address_a <= start_address; address_b <= std_logic_vector(unsigned(start_address) + 1); address_c <= std_logic_vector(unsigned(start_address) + 2); address_0 <= std_logic_vector(unsigned(start_address) + 3); address_1 <= std_logic_vector(unsigned(start_address) + 4); else address_a <= start_address; address_b <= std_logic_vector(unsigned(start_address) + 1); address_c <= std_logic_vector(unsigned(start_address) + 2); address_0 <= std_logic_vector(unsigned(start_address) + 3); address_1 <= std_logic_vector(unsigned(start_address) + 4); end if; end process; w_addr <= "00000000000000000000000000000000"; w_data <= "00000000000000000000000000000000"; we <= '0'; r_addr_a <= address_a; r_addr_b <= address_b; r_addr_c <= address_c; r_addr_0 <= address_0; r_addr_1 <= address_1; process (reset_n, clk) begin if (reset_n = '0') then if (id(0) = '0') then start_address <= "00000000000000000000000000010000"; else start_address <= "00000000000000000000000000010000"; end if; elsif (rising_edge(clk)) then if (stall = '0') then start_address <= std_logic_vector(unsigned(start_address) + 5); end if; end if; end process; process (reset_n, clk) begin if (reset_n = '0') then error_a <= '0'; error_b <= '0'; error_c <= '0'; error_0 <= '0'; error_1 <= '0'; elsif(rising_edge(clk)) then if (stall = '0') then if (r_data_a = address_a) then error_a <= '0'; else error_a <= '1'; end if; if (r_data_b = address_b) then error_b <= '0'; else error_b <= '1'; end if; if (r_data_c = address_c) then error_c <= '0'; else error_c <= '1'; end if; if (r_data_a = address_a) then error_0 <= '0'; else error_0 <= '1'; end if; if (r_data_a = address_a) then error_1 <= '0'; else error_1 <= '1'; end if; end if; end if; end process; end;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity BIST_core is PORT ( clk, reset_n : in std_logic; r_addr_a, r_addr_b, r_addr_c, r_addr_0, r_addr_1 : out std_logic_vector(31 downto 0); w_data, w_addr : out std_logic_vector(31 downto 0); we : out std_logic; stall : in std_logic; id : in std_logic_vector(2 downto 0); r_data_a, r_data_b, r_data_c, r_data_0, r_data_1 : in std_logic_vector(31 downto 0) ); end; architecture BIST of BIST_core is signal start_address : std_logic_vector(31 downto 0); signal error_a : std_logic; signal error_b : std_logic; signal error_c : std_logic; signal error_0 : std_logic; signal error_1 : std_logic; signal address_a : std_logic_vector(31 downto 0); signal address_b : std_logic_vector(31 downto 0); signal address_c : std_logic_vector(31 downto 0); signal address_0 : std_logic_vector(31 downto 0); signal address_1 : std_logic_vector(31 downto 0); begin process (start_address, id) begin if (id(0) = '1') then address_a <= start_address; address_b <= std_logic_vector(unsigned(start_address) + 1); address_c <= std_logic_vector(unsigned(start_address) + 2); address_0 <= std_logic_vector(unsigned(start_address) + 3); address_1 <= std_logic_vector(unsigned(start_address) + 4); else address_a <= start_address; address_b <= std_logic_vector(unsigned(start_address) + 1); address_c <= std_logic_vector(unsigned(start_address) + 2); address_0 <= std_logic_vector(unsigned(start_address) + 3); address_1 <= std_logic_vector(unsigned(start_address) + 4); end if; end process; w_addr <= "00000000000000000000000000000000"; w_data <= "00000000000000000000000000000000"; we <= '0'; r_addr_a <= address_a; r_addr_b <= address_b; r_addr_c <= address_c; r_addr_0 <= address_0; r_addr_1 <= address_1; process (reset_n, clk) begin if (reset_n = '0') then if (id(0) = '0') then start_address <= "00000000000000000000000000010000"; else start_address <= "00000000000000000000000000010000"; end if; elsif (rising_edge(clk)) then if (stall = '0') then start_address <= std_logic_vector(unsigned(start_address) + 5); end if; end if; end process; process (reset_n, clk) begin if (reset_n = '0') then error_a <= '0'; error_b <= '0'; error_c <= '0'; error_0 <= '0'; error_1 <= '0'; elsif(rising_edge(clk)) then if (stall = '0') then if (r_data_a = address_a) then error_a <= '0'; else error_a <= '1'; end if; if (r_data_b = address_b) then error_b <= '0'; else error_b <= '1'; end if; if (r_data_c = address_c) then error_c <= '0'; else error_c <= '1'; end if; if (r_data_a = address_a) then error_0 <= '0'; else error_0 <= '1'; end if; if (r_data_a = address_a) then error_1 <= '0'; else error_1 <= '1'; end if; end if; end if; end process; end;
-- ============================================================== -- File generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC -- Version: 2014.1 -- Copyright (C) 2014 Xilinx Inc. All rights reserved. -- -- ============================================================== library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity nfa_finals_buckets_if_ap_fifo_af_ram is generic( mem_style : string := "block"; dwidth : integer := 64; awidth : integer := 6; mem_size : integer := 64 ); port ( clk : in std_logic; din : in std_logic_vector(dwidth-1 downto 0); w_addr : in std_logic_vector(awidth-1 downto 0); we : in std_logic; r_addr : in std_logic_vector(awidth-1 downto 0); dout : out std_logic_vector(dwidth-1 downto 0) ); end entity; architecture rtl of nfa_finals_buckets_if_ap_fifo_af_ram is type mem_array is array (mem_size-1 downto 0) of std_logic_vector (dwidth-1 downto 0); signal mem : mem_array; attribute ram_style : string; attribute ram_style of mem : signal is mem_style; begin p_memory_read: process (clk) begin if (clk = '1' and clk'event) then if (we = '1') then mem(CONV_INTEGER(w_addr)) <= din; end if; dout <= mem(CONV_INTEGER(r_addr)); end if; end process; end rtl; library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity nfa_finals_buckets_if_ap_fifo_af is generic ( MEM_STYLE : string := "block"; DATA_WIDTH : integer := 64; ADDR_WIDTH : integer := 6; DEPTH : integer := 64; ALMOST_FULL_MARGIN : integer := 2); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; if_empty_n : OUT STD_LOGIC; if_read : IN STD_LOGIC; if_dout : OUT STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0); if_full_n : OUT STD_LOGIC; if_write : IN STD_LOGIC; if_din : IN STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0)); end entity; architecture rtl of nfa_finals_buckets_if_ap_fifo_af is component nfa_finals_buckets_if_ap_fifo_af_ram is generic( mem_style : string := "block"; dwidth : integer := 64; awidth : integer := 6; mem_size : integer := 64 ); port ( clk : in std_logic; din : in std_logic_vector(dwidth-1 downto 0); w_addr : in std_logic_vector(awidth-1 downto 0); we : in std_logic; r_addr : in std_logic_vector(awidth-1 downto 0); dout : out std_logic_vector(dwidth-1 downto 0) ); end component; signal mInPtr, mOutPtr : STD_LOGIC_VECTOR(ADDR_WIDTH - 1 downto 0); signal mInPtr_next, mOutPtr_next : STD_LOGIC_VECTOR(ADDR_WIDTH - 1 downto 0); signal ram_raddr, ram_waddr : STD_LOGIC_VECTOR(ADDR_WIDTH - 1 downto 0); signal ram_din, ram_dout : STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0); signal conflict_buff : STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0); signal conflict_buff_valid : STD_LOGIC; signal ram_we : STD_LOGIC; signal wordUsed : STD_LOGIC_VECTOR(ADDR_WIDTH downto 0); signal internal_empty_n, internal_full_n: STD_LOGIC; begin if_empty_n <= internal_empty_n; if_full_n <= internal_full_n; ram_din <= if_din; process (wordUsed, conflict_buff_valid, conflict_buff, ram_dout) begin if ( wordUsed = 1 and conflict_buff_valid = '1' ) then if_dout <= conflict_buff; else if_dout <= ram_dout; end if; end process; process (mOutPtr) begin if ( mOutPtr < DEPTH -1 ) then mOutPtr_next <= mOutPtr + 1; else mOutPtr_next <= (others => '0'); end if; end process; process (mInPtr) begin if ( mInPtr < DEPTH -1 ) then mInPtr_next <= mInPtr + 1; else mInPtr_next <= (others => '0'); end if; end process; process (clk, reset) begin if reset = '1' then mInPtr <= (others => '0'); mOutPtr <= (others => '0'); wordUsed <= (others => '0'); internal_empty_n <= '0'; internal_full_n <= '1'; conflict_buff <= (others => '0'); conflict_buff_valid <= '0'; else if clk'event and clk = '1' then if if_read = '1' and internal_empty_n = '1' then mOutPtr <= mOutPtr_next; end if; if (if_write = '1') then mInPtr <= mInPtr_next; end if; if (if_read = '1' and internal_empty_n = '1' and if_write = '0') then wordUsed <= wordUsed -1; if (wordUsed = 1) then internal_empty_n <= '0'; end if; internal_full_n <= '1'; elsif (if_read = '0' or internal_empty_n = '0') and (if_write = '1') then wordUsed <= wordUsed +1; internal_empty_n <= '1'; if (wordUsed + ALMOST_FULL_MARGIN = DEPTH -1) then internal_full_n <= '0'; end if; end if; conflict_buff <= if_din; conflict_buff_valid <= if_write and internal_full_n; end if; end if; end process; ram_waddr <= mInPtr; ram_raddr <= mOutPtr_next when if_read = '1' and internal_empty_n = '1' else mOutPtr; -- if a read occur on the following clock edge, prepare next read data in advance ram_we <= if_write; -- caller should check almost_full signal U_nfa_finals_buckets_if_ap_fifo_af_ram : nfa_finals_buckets_if_ap_fifo_af_ram generic map ( mem_style => MEM_STYLE, dwidth => DATA_WIDTH, awidth => ADDR_WIDTH, mem_size => DEPTH) port map ( clk => clk, din => ram_din, w_addr => ram_waddr, we => ram_we, r_addr => ram_raddr, dout => ram_dout); end rtl;
-- ============================================================== -- File generated by Vivado(TM) HLS - High-Level Synthesis from C, C++ and SystemC -- Version: 2014.1 -- Copyright (C) 2014 Xilinx Inc. All rights reserved. -- -- ============================================================== library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity nfa_finals_buckets_if_ap_fifo_af_ram is generic( mem_style : string := "block"; dwidth : integer := 64; awidth : integer := 6; mem_size : integer := 64 ); port ( clk : in std_logic; din : in std_logic_vector(dwidth-1 downto 0); w_addr : in std_logic_vector(awidth-1 downto 0); we : in std_logic; r_addr : in std_logic_vector(awidth-1 downto 0); dout : out std_logic_vector(dwidth-1 downto 0) ); end entity; architecture rtl of nfa_finals_buckets_if_ap_fifo_af_ram is type mem_array is array (mem_size-1 downto 0) of std_logic_vector (dwidth-1 downto 0); signal mem : mem_array; attribute ram_style : string; attribute ram_style of mem : signal is mem_style; begin p_memory_read: process (clk) begin if (clk = '1' and clk'event) then if (we = '1') then mem(CONV_INTEGER(w_addr)) <= din; end if; dout <= mem(CONV_INTEGER(r_addr)); end if; end process; end rtl; library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; entity nfa_finals_buckets_if_ap_fifo_af is generic ( MEM_STYLE : string := "block"; DATA_WIDTH : integer := 64; ADDR_WIDTH : integer := 6; DEPTH : integer := 64; ALMOST_FULL_MARGIN : integer := 2); port ( clk : IN STD_LOGIC; reset : IN STD_LOGIC; if_empty_n : OUT STD_LOGIC; if_read : IN STD_LOGIC; if_dout : OUT STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0); if_full_n : OUT STD_LOGIC; if_write : IN STD_LOGIC; if_din : IN STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0)); end entity; architecture rtl of nfa_finals_buckets_if_ap_fifo_af is component nfa_finals_buckets_if_ap_fifo_af_ram is generic( mem_style : string := "block"; dwidth : integer := 64; awidth : integer := 6; mem_size : integer := 64 ); port ( clk : in std_logic; din : in std_logic_vector(dwidth-1 downto 0); w_addr : in std_logic_vector(awidth-1 downto 0); we : in std_logic; r_addr : in std_logic_vector(awidth-1 downto 0); dout : out std_logic_vector(dwidth-1 downto 0) ); end component; signal mInPtr, mOutPtr : STD_LOGIC_VECTOR(ADDR_WIDTH - 1 downto 0); signal mInPtr_next, mOutPtr_next : STD_LOGIC_VECTOR(ADDR_WIDTH - 1 downto 0); signal ram_raddr, ram_waddr : STD_LOGIC_VECTOR(ADDR_WIDTH - 1 downto 0); signal ram_din, ram_dout : STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0); signal conflict_buff : STD_LOGIC_VECTOR(DATA_WIDTH - 1 downto 0); signal conflict_buff_valid : STD_LOGIC; signal ram_we : STD_LOGIC; signal wordUsed : STD_LOGIC_VECTOR(ADDR_WIDTH downto 0); signal internal_empty_n, internal_full_n: STD_LOGIC; begin if_empty_n <= internal_empty_n; if_full_n <= internal_full_n; ram_din <= if_din; process (wordUsed, conflict_buff_valid, conflict_buff, ram_dout) begin if ( wordUsed = 1 and conflict_buff_valid = '1' ) then if_dout <= conflict_buff; else if_dout <= ram_dout; end if; end process; process (mOutPtr) begin if ( mOutPtr < DEPTH -1 ) then mOutPtr_next <= mOutPtr + 1; else mOutPtr_next <= (others => '0'); end if; end process; process (mInPtr) begin if ( mInPtr < DEPTH -1 ) then mInPtr_next <= mInPtr + 1; else mInPtr_next <= (others => '0'); end if; end process; process (clk, reset) begin if reset = '1' then mInPtr <= (others => '0'); mOutPtr <= (others => '0'); wordUsed <= (others => '0'); internal_empty_n <= '0'; internal_full_n <= '1'; conflict_buff <= (others => '0'); conflict_buff_valid <= '0'; else if clk'event and clk = '1' then if if_read = '1' and internal_empty_n = '1' then mOutPtr <= mOutPtr_next; end if; if (if_write = '1') then mInPtr <= mInPtr_next; end if; if (if_read = '1' and internal_empty_n = '1' and if_write = '0') then wordUsed <= wordUsed -1; if (wordUsed = 1) then internal_empty_n <= '0'; end if; internal_full_n <= '1'; elsif (if_read = '0' or internal_empty_n = '0') and (if_write = '1') then wordUsed <= wordUsed +1; internal_empty_n <= '1'; if (wordUsed + ALMOST_FULL_MARGIN = DEPTH -1) then internal_full_n <= '0'; end if; end if; conflict_buff <= if_din; conflict_buff_valid <= if_write and internal_full_n; end if; end if; end process; ram_waddr <= mInPtr; ram_raddr <= mOutPtr_next when if_read = '1' and internal_empty_n = '1' else mOutPtr; -- if a read occur on the following clock edge, prepare next read data in advance ram_we <= if_write; -- caller should check almost_full signal U_nfa_finals_buckets_if_ap_fifo_af_ram : nfa_finals_buckets_if_ap_fifo_af_ram generic map ( mem_style => MEM_STYLE, dwidth => DATA_WIDTH, awidth => ADDR_WIDTH, mem_size => DEPTH) port map ( clk => clk, din => ram_din, w_addr => ram_waddr, we => ram_we, r_addr => ram_raddr, dout => ram_dout); end rtl;
library IEEE; use IEEE.std_logic_1164.all; use IEEE.NUMERIC_STD.all; entity Binarization_example is port( Avalon_ST_Sink_data : in STD_LOGIC_VECTOR(23 downto 0); Avalon_ST_Sink_endofpacket : in STD_LOGIC; Avalon_MM_Slave_address : in STD_LOGIC_VECTOR(1 downto 0); Avalon_MM_Slave_writedata : in STD_LOGIC_VECTOR(31 downto 0); Avalon_ST_Source_valid : out STD_LOGIC; Avalon_ST_Sink_valid : in STD_LOGIC; Clock : in STD_LOGIC; Avalon_ST_Source_endofpacket : out STD_LOGIC; Avalon_ST_Source_startofpacket : out STD_LOGIC; aclr : in STD_LOGIC; Avalon_MM_Slave_write : in STD_LOGIC; Avalon_ST_Source_ready : in STD_LOGIC; Avalon_ST_Sink_ready : out STD_LOGIC; Avalon_ST_Sink_startofpacket : in STD_LOGIC; Avalon_ST_Source_data : out STD_LOGIC_VECTOR(23 downto 0)); end entity; architecture rtl of Binarization_example is component Binarization port( Avalon_ST_Sink_data : in STD_LOGIC_VECTOR(23 downto 0); Avalon_ST_Sink_endofpacket : in STD_LOGIC; Avalon_MM_Slave_address : in STD_LOGIC_VECTOR(1 downto 0); Avalon_MM_Slave_writedata : in STD_LOGIC_VECTOR(31 downto 0); Avalon_ST_Source_valid : out STD_LOGIC; Avalon_ST_Sink_valid : in STD_LOGIC; Clock : in STD_LOGIC; Avalon_ST_Source_endofpacket : out STD_LOGIC; Avalon_ST_Source_startofpacket : out STD_LOGIC; aclr : in STD_LOGIC; Avalon_MM_Slave_write : in STD_LOGIC; Avalon_ST_Source_ready : in STD_LOGIC; Avalon_ST_Sink_ready : out STD_LOGIC; Avalon_ST_Sink_startofpacket : in STD_LOGIC; Avalon_ST_Source_data : out STD_LOGIC_VECTOR(23 downto 0)); end component; begin Binarization_instance : component Binarization port map( Avalon_ST_Sink_data => Avalon_ST_Sink_data, Avalon_ST_Sink_endofpacket => Avalon_ST_Sink_endofpacket, Avalon_MM_Slave_address => Avalon_MM_Slave_address, Avalon_MM_Slave_writedata => Avalon_MM_Slave_writedata, Avalon_ST_Source_valid => Avalon_ST_Source_valid, Avalon_ST_Sink_valid => Avalon_ST_Sink_valid, Clock => Clock, Avalon_ST_Source_endofpacket => Avalon_ST_Source_endofpacket, Avalon_ST_Source_startofpacket => Avalon_ST_Source_startofpacket, aclr => aclr, Avalon_MM_Slave_write => Avalon_MM_Slave_write, Avalon_ST_Source_ready => Avalon_ST_Source_ready, Avalon_ST_Sink_ready => Avalon_ST_Sink_ready, Avalon_ST_Sink_startofpacket => Avalon_ST_Sink_startofpacket, Avalon_ST_Source_data => Avalon_ST_Source_data); end architecture rtl;