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📄 aaa.ant

📁 simple MIPS source code very simple it has not complete but you can test it
💻 ANT
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--------------------------------------------------------------------------------
-- Copyright (c) 1995-2007 Xilinx, Inc.
-- All Right Reserved.
--------------------------------------------------------------------------------
--   ____  ____ 
--  /   /\/   / 
-- /___/  \  /    Vendor: Xilinx 
-- \   \   \/     Version : 9.2i
--  \   \         Application : ISE
--  /   /         Filename : aaa.ant
-- /___/   /\     Timestamp : Sat Apr 04 11:09:48 2009
-- \   \  /  \ 
--  \___\/\___\ 
--
--Command: 
--Design Name: aaa
--Device: Xilinx
--

library IEEE;
use IEEE.STD_LOGIC_1164.ALL;
use IEEE.STD_LOGIC_ARITH.ALL;
use IEEE.STD_LOGIC_UNSIGNED.ALL;
USE IEEE.STD_LOGIC_TEXTIO.ALL;
USE STD.TEXTIO.ALL;

ENTITY aaa IS
END aaa;

ARCHITECTURE testbench_arch OF aaa IS
    FILE RESULTS: TEXT OPEN WRITE_MODE IS "C:\micro_temp\alu_class\aaa.ano";

    COMPONENT top
        PORT (
            clk : In std_logic;
            reset : In std_logic;
            read_sel1 : In std_logic_vector (4 DownTo 0);
            read_sel2 : In std_logic_vector (4 DownTo 0);
            write_sel1 : In std_logic_vector (4 DownTo 0);
            we : In std_logic;
            alu_sel : In std_logic;
            data : In std_logic_vector (15 DownTo 0);
            final_output : Out std_logic_vector (15 DownTo 0)
        );
    END COMPONENT;

    SIGNAL clk : std_logic := '0';
    SIGNAL reset : std_logic := '0';
    SIGNAL read_sel1 : std_logic_vector (4 DownTo 0) := "00000";
    SIGNAL read_sel2 : std_logic_vector (4 DownTo 0) := "00000";
    SIGNAL write_sel1 : std_logic_vector (4 DownTo 0) := "00000";
    SIGNAL we : std_logic := '0';
    SIGNAL alu_sel : std_logic := '0';
    SIGNAL data : std_logic_vector (15 DownTo 0) := "0000000000000000";
    SIGNAL final_output : std_logic_vector (15 DownTo 0) := "0000000000000000";

    SHARED VARIABLE TX_ERROR : INTEGER := 0;
    SHARED VARIABLE TX_OUT : LINE;

    constant PERIOD : time := 200 ns;
    constant DUTY_CYCLE : real := 0.5;
    constant OFFSET : time := 100 ns;

    BEGIN
        UUT : top
        PORT MAP (
            clk => clk,
            reset => reset,
            read_sel1 => read_sel1,
            read_sel2 => read_sel2,
            write_sel1 => write_sel1,
            we => we,
            alu_sel => alu_sel,
            data => data,
            final_output => final_output
        );

        PROCESS    -- clock process for clk
        BEGIN
            WAIT for OFFSET;
            CLOCK_LOOP : LOOP
                clk <= '0';
                WAIT FOR (PERIOD - (PERIOD * DUTY_CYCLE));
                clk <= '1';
                WAIT FOR (PERIOD * DUTY_CYCLE);
            END LOOP CLOCK_LOOP;
        END PROCESS;

        PROCESS    -- Annotation process for clk
            VARIABLE TX_TIME : INTEGER := 0;

            PROCEDURE ANNOTATE_final_output(
                TX_TIME : INTEGER
            ) IS
                VARIABLE TX_STR : String(1 to 4096);
                VARIABLE TX_LOC : LINE;
            BEGIN
                STD.TEXTIO.write(TX_LOC, string'("Annotate["));
                STD.TEXTIO.write(TX_LOC, TX_TIME);
                STD.TEXTIO.write(TX_LOC, string'(", final_output, "));
                IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, final_output);
                STD.TEXTIO.write(TX_LOC, string'("]"));
                TX_STR(TX_LOC.all'range) := TX_LOC.all;
                STD.TEXTIO.writeline(RESULTS, TX_LOC);
                STD.TEXTIO.Deallocate(TX_LOC);
            END;
        BEGIN
            WAIT for 1 fs;
            ANNOTATE_final_output(0);
            WAIT for OFFSET;
            TX_TIME := TX_TIME + 100;
            ANNO_LOOP : LOOP
                --Rising Edge
                WAIT for 115 ns;
                TX_TIME := TX_TIME + 115;
                ANNOTATE_final_output(TX_TIME);
                WAIT for 85 ns;
                TX_TIME := TX_TIME + 85;
            END LOOP ANNO_LOOP;
        END PROCESS;

        PROCESS
            BEGIN
                -- -------------  Current Time:  185ns
                WAIT FOR 185 ns;
                reset <= '1';
                -- -------------------------------------
                -- -------------  Current Time:  585ns
                WAIT FOR 400 ns;
                we <= '1';
                data <= "0000000000010010";
                -- -------------------------------------
                -- -------------  Current Time:  1185ns
                WAIT FOR 600 ns;
                write_sel1 <= "00011";
                -- -------------------------------------
                -- -------------  Current Time:  1385ns
                WAIT FOR 200 ns;
                read_sel1 <= "10001";
                -- -------------------------------------
                -- -------------  Current Time:  1585ns
                WAIT FOR 200 ns;
                we <= '0';
                -- -------------------------------------
                -- -------------  Current Time:  2585ns
                WAIT FOR 1000 ns;
                we <= '1';
                -- -------------------------------------
                -- -------------  Current Time:  2785ns
                WAIT FOR 200 ns;
                data <= "0000000000011000";
                -- -------------------------------------
                -- -------------  Current Time:  3185ns
                WAIT FOR 400 ns;
                write_sel1 <= "00010";
                -- -------------------------------------
                -- -------------  Current Time:  3385ns
                WAIT FOR 200 ns;
                read_sel2 <= "10000";
                -- -------------------------------------
                -- -------------  Current Time:  3585ns
                WAIT FOR 200 ns;
                we <= '0';
                -- -------------------------------------
                WAIT FOR 6615 ns;

                STD.TEXTIO.write(TX_OUT, string'("Total[]"));
                STD.TEXTIO.writeline(RESULTS, TX_OUT);
                ASSERT (FALSE) REPORT
                    "Success! Simulation for annotation completed"
                    SEVERITY FAILURE;
            END PROCESS;

    END testbench_arch;

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