testwave.ant

来自「xilinx xc9572 cpld 实现的伺服电机控制器」· ANT 代码 · 共 587 行 · 第 1/2 页

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-- D:\FPGA\TEST\XC_9572
-- VHDL Annotation Test Bench created by
-- HDL Bencher 6.1i
-- Thu Apr 06 17:11:47 2006

LIBRARY IEEE;USE IEEE.STD_LOGIC_1164.ALL;USE IEEE.NUMERIC_STD.ALL;USE IEEE.STD_LOGIC_TEXTIO.ALL;
USE STD.TEXTIO.ALL;

ENTITY testwave IS
END testwave;

ARCHITECTURE testbench_arch OF testwave IS
-- If you get a compiler error on the following line,
-- from the menu do Options->Configuration select VHDL 87
FILE RESULTS: TEXT OPEN WRITE_MODE IS "d:\fpga\test\xc_9572\testwave.ano";
	COMPONENT top
		PORT (
			A0 : In  std_logic;
			A1 : In  std_logic;
			A2 : In  std_logic;
			CLK8 : In  std_logic;
			CS : In  std_logic;
			INT_L0 : In  std_logic;
			MA0 : In  std_logic;
			MA1 : In  std_logic;
			MB0 : In  std_logic;
			MB1 : In  std_logic;
			MC0 : In  std_logic;
			MC1 : In  std_logic;
			MR_0 : In  std_logic_vector (7 DOWNTO 0);
			MR_1 : In  std_logic_vector (7 DOWNTO 0);
			MR_2 : In  std_logic_vector (7 DOWNTO 0);
			RD : In  std_logic;
			RESET : In  std_logic;
			WR : In  std_logic;
			ALMR : Out  std_logic;
			CLK : Out  std_logic;
			CS1 : Out  std_logic;
			INT0 : Out  std_logic;
			M1CLR : Out  std_logic;
			M1PS : Out  std_logic;
			M1SG : Out  std_logic;
			M2CLR : Out  std_logic;
			M2PS : Out  std_logic;
			M2SG : Out  std_logic;
			PC1ON : Out  std_logic;
			PC2ON : Out  std_logic;
			REL0 : Out  std_logic;
			SEN0 : Out  std_logic;
			SEN1 : Out  std_logic;
			SEN2 : Out  std_logic;
			SPDA1 : Out  std_logic;
			SPDB1 : Out  std_logic;
			SPDB2 : Out  std_logic;
			SPD2A : Out  std_logic;
			UART0 : Out  std_logic;
			D : InOut  std_logic_vector (7 DOWNTO 0)
		);
	END COMPONENT;

	SIGNAL A0 : std_logic;
	SIGNAL A1 : std_logic;
	SIGNAL A2 : std_logic;
	SIGNAL CLK8 : std_logic;
	SIGNAL CS : std_logic;
	SIGNAL INT_L0 : std_logic;
	SIGNAL MA0 : std_logic;
	SIGNAL MA1 : std_logic;
	SIGNAL MB0 : std_logic;
	SIGNAL MB1 : std_logic;
	SIGNAL MC0 : std_logic;
	SIGNAL MC1 : std_logic;
	SIGNAL MR_0 : std_logic_vector (7 DOWNTO 0);
	SIGNAL MR_1 : std_logic_vector (7 DOWNTO 0);
	SIGNAL MR_2 : std_logic_vector (7 DOWNTO 0);
	SIGNAL RD : std_logic;
	SIGNAL RESET : std_logic;
	SIGNAL WR : std_logic;
	SIGNAL ALMR : std_logic;
	SIGNAL CLK : std_logic;
	SIGNAL CS1 : std_logic;
	SIGNAL INT0 : std_logic;
	SIGNAL M1CLR : std_logic;
	SIGNAL M1PS : std_logic;
	SIGNAL M1SG : std_logic;
	SIGNAL M2CLR : std_logic;
	SIGNAL M2PS : std_logic;
	SIGNAL M2SG : std_logic;
	SIGNAL PC1ON : std_logic;
	SIGNAL PC2ON : std_logic;
	SIGNAL REL0 : std_logic;
	SIGNAL SEN0 : std_logic;
	SIGNAL SEN1 : std_logic;
	SIGNAL SEN2 : std_logic;
	SIGNAL SPDA1 : std_logic;
	SIGNAL SPDB1 : std_logic;
	SIGNAL SPDB2 : std_logic;
	SIGNAL SPD2A : std_logic;
	SIGNAL UART0 : std_logic;
	SIGNAL D : std_logic_vector (7 DOWNTO 0);

BEGIN
	UUT : top
	PORT MAP (
		A0 => A0,
		A1 => A1,
		A2 => A2,
		CLK8 => CLK8,
		CS => CS,
		INT_L0 => INT_L0,
		MA0 => MA0,
		MA1 => MA1,
		MB0 => MB0,
		MB1 => MB1,
		MC0 => MC0,
		MC1 => MC1,
		MR_0 => MR_0,
		MR_1 => MR_1,
		MR_2 => MR_2,
		RD => RD,
		RESET => RESET,
		WR => WR,
		ALMR => ALMR,
		CLK => CLK,
		CS1 => CS1,
		INT0 => INT0,
		M1CLR => M1CLR,
		M1PS => M1PS,
		M1SG => M1SG,
		M2CLR => M2CLR,
		M2PS => M2PS,
		M2SG => M2SG,
		PC1ON => PC1ON,
		PC2ON => PC2ON,
		REL0 => REL0,
		SEN0 => SEN0,
		SEN1 => SEN1,
		SEN2 => SEN2,
		SPDA1 => SPDA1,
		SPDB1 => SPDB1,
		SPDB2 => SPDB2,
		SPD2A => SPD2A,
		UART0 => UART0,
		D => D
	);

	PROCESS -- clock process for CLK8,
		VARIABLE TX_TIME : INTEGER :=0;

		PROCEDURE ANNOTATE_ALMR(
			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'(",ALMR,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, ALMR);
			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;

		PROCEDURE ANNOTATE_CLK(
			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'(",CLK,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, CLK);
			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;

		PROCEDURE ANNOTATE_CS1(
			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'(",CS1,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, CS1);
			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;

		PROCEDURE ANNOTATE_INT0(
			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'(",INT0,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, INT0);
			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;

		PROCEDURE ANNOTATE_M1CLR(
			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'(",M1CLR,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, M1CLR);
			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;

		PROCEDURE ANNOTATE_M1PS(
			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'(",M1PS,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, M1PS);
			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;

		PROCEDURE ANNOTATE_M1SG(
			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'(",M1SG,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, M1SG);
			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;

		PROCEDURE ANNOTATE_M2CLR(
			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'(",M2CLR,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, M2CLR);
			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;

		PROCEDURE ANNOTATE_M2PS(
			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'(",M2PS,"));
			IEEE.STD_LOGIC_TEXTIO.write(TX_LOC, M2PS);
			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);
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