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[/] [System09/] [trunk/] [rtl/] [Testbench/] [testbench2.vhd] - Rev 66

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--===========================================================================----
--
--  T E S T B E N C H    tesetbench2 - CPU09 Testbench.
--
--  www.OpenCores.Org - September 2003
--  This core adheres to the GNU public license  
--
-- File name      : Testbench2.vhd
--
-- Purpose        : cpu09 Microprocessor Test Bench 2
--                  Contains ROM to read sector from
--                  a none existant Compact Flash module
--
-- Dependencies   : ieee.Std_Logic_1164
--                  ieee.std_logic_unsigned
--                  ieee.std_logic_arith
--                  ieee.numeric_std
--
-- Uses           : cpu09    (cpu09.vhd)      CPU core
--                   
-- Author         : John E. Kent
--                  dilbert57@opencores.org      
--
--===========================================================================----
--
-- Revision History:
--===========================================================================--
--
-- Version 0.1 - 12st April 2003 - John Kent 
-- First version
--
-- Version 1.0- 6 Sep 2003 - John Kent
-- Initial release to Open Cores
--
-- Version 1.1 - 25th Jan 2004 - John Kent
-- removed "test_alu" and "test_cc"
--
--===========================================================================--
 
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;
 
entity my_testbench2 is
end my_testbench2;
 
-------------------------------------------------------------------------------
-- Architecture for memio Controller Unit
-------------------------------------------------------------------------------
architecture behavior of my_testbench2 is
  -----------------------------------------------------------------------------
  -- Signals
  -----------------------------------------------------------------------------
 
  -- CPU Interface signals
  signal SysClk      : Std_Logic;
  signal cpu_reset   : Std_Logic;
  signal cpu_rw      : Std_Logic;
  signal cpu_vma     : Std_Logic;
  signal cpu_addr    : Std_Logic_Vector(15 downto 0);
  signal cpu_data_in : Std_Logic_Vector(7 downto 0);
  signal cpu_data_out: Std_Logic_Vector(7 downto 0);
  signal cpu_irq     : Std_Logic;
  signal cpu_nmi     : Std_Logic;
  signal cpu_firq    : std_logic;
 
  constant width   : integer := 8;
  constant memsize : integer := 128;
 
  type rom_array is array(0 to memsize-1) of std_logic_vector(width-1 downto 0);
 
  constant rom_data : rom_array :=
  (
"00010000", -- $F800 LDS #$F878 (Point to dummy return to test stack)
"11001110",
"11111000",
"01111000",
"10000110", -- $F804 LDA #$E0 *** START
"11100000",
"00011111", -- $F806 TFR A,DPR
"10001011",
---------------------------
-- "10001101", -- $F80E BSR WAITRDY $F86A
-- "01100000",
"10001101", -- $F808 BSR $F874 -- test sub call
"01101010",
---------------------------
"10000110", -- $F80A LDA #$E0
"11100000",
"10010111", -- $F80C STA <$E016
"00010110",
---------------------------
-- "10001101", -- $F80E BSR WAITRDY $F86A
-- "01011010",
"10001101", -- $F80E BSR $F810
"00000000",
--------------------------
"10000110", -- $F810 LDA #$01
"00000001",
"10010111", -- $F812 STA <$E011
"00010001",
"10000110", -- $F814 LDA #$EF
"11101111",
"10010111", -- $F816 STA <$E017
"00010111",
--------------------------
-- "10001101", -- $F818 BSR WAITRDY $F86A
-- "01010000",
"10001101", -- $F818 BSR $F816
"00000000",
--------------------------
"00010000", -- $F81A LDY #$F800
"10001110",
"11111000",
"00000000",
"11000110", -- $F81E LDB #$7C
"01111100",
"10000110", -- $F820 LDA #$01 *** RDLP1
"00000001",
"10010111", -- $F822 STA <$E012
"00010010",
"11010111", -- $F824 STB <$E013
"00010011",
"10000110", -- $F826 LDA #$F4
"11110100",
"10010111", -- $F828 STA <$E014
"00010100",
"01001111", -- $F82A CLRA
"10010111", -- $F82B STA <$E015
"00010101",
"10001110", -- $F82D LDX #512
"00000010",
"00000000",
"10000110", -- $F830 LDA #$20
"00100000",
"10010111", -- $F832 STA <$E017
"00010111",
--------------------------
-- "10001101", -- $F834 BSR WAITRDY $F86A
-- "00110100",
"10001101", -- $F834 BSR *
"00000000",
--------------------------
"10010110", -- $F836 LDA <$E017 *** WAITDRQ
"00010111",
"10000101", -- $F838 BITA #$08
"00001000",
"00100111", -- $F83A BEQ WAITDRQ
"11111010",
"10010110", -- $F83C LDA <$E010
"00010000",
"10100111", -- $F83E STA ,Y+
"10100000",
"00110000", -- $F840 LEAX -1,X
"00011111",
"10001100", -- $F842 CMPX #$0000
"00000000",
"00000000",
"00100110", -- $F845 BNE RDLP2
"11110011",
--------------------------
-- "10001101", -- $F847 BSR WAITRDY $F86A
-- "00100001",
"10001101", -- $F847 BSR $F841
"00000000",
--------------------------
"01011100", -- $F849 INCB
"11000001", -- $F84A CMPB #$80
"10000000",
"00100110", -- $F84C BNE RDLP1
"11010110",
"10001110", -- $F84E LDX #$FF97
"11111111",
"10010111",
"00010000", -- $F851 LDY #$F000
"10001110",
"11110000",
"00000000",
"11000110", -- $F855 LDB #$61
"01100001",
"10100110", -- $F857 LDA 0,X+ *** MOVELP
"10000000",
"10100111", -- $F859 STA 0,Y+
"10100000",
"01011010", -- $F85B DECB
----------------------------
-- "00100110", -- $F85C BNE MOVELP
-- "11111001",
"00100110", --$F85C BNE $F861
"00000011",
----------------------------
"01111110", -- $F85E JMP $F000
"11110000",
"00000000",
"00001111", -- $F861 CLR <$E030 
"00110000",
"01001111", -- $F863 CLRA
"00011111", -- $F864 TFR A,DPR
"10001011",
"01101110", -- $F866 JMP [$FFFE]
"10011111",
"11111111",
"11111110",
--
-- Wait for Ready
--
"10010110", -- $F86A LDA <$E017 *** WAITRDY
"00010111",
"00101011", -- $F86C BMI WAITRDY
"11111100",
"10010110", -- $F86E LDA <$E017
"00010111",
"10000101", -- $F870 BITA #$40
"01000000",
"00100111", -- $F872 BNE WAITRQY
"11110110",
"00111001", -- $F874 RTS
"00010010", -- $F875 NOP
"11111000", -- $F876 FDB $F80A -- dummy sub return
"00001010",
"11111000", -- $F878 FDB $F800
"00000000",
"11111000", -- $F87A FDB $F800
"00000000",
"11111000", -- $F87C FDB $F800
"00000000",
"11111000", -- $F87E FDB $F800
"00000000"    
	 );
 
component cpu09
  port (    
	 clk:	     in	std_logic;
    rst:	     in	std_logic;
    rw:	     out	std_logic;		-- Asynchronous memory interface
    vma:	     out	std_logic;
    address:  out	std_logic_vector(15 downto 0);
    data_in:  in	std_logic_vector(7 downto 0);
	 data_out: out std_logic_vector(7 downto 0);
	 halt:     in  std_logic;
	 hold:     in  std_logic;
	 irq:      in  std_logic;
	 nmi:      in  std_logic;
	 firq:     in  std_logic
  );
end component cpu09;
 
 
begin
cpu : cpu09  port map (    
	 clk	     => SysClk,
    rst	     => cpu_reset,
    rw	     => cpu_rw,
    vma       => cpu_vma,
    address   => cpu_addr(15 downto 0),
    data_in   => cpu_data_in,
	 data_out  => cpu_data_out,
	 halt      => '0',
	 hold      => '0',
	 irq       => cpu_irq,
	 nmi       => cpu_nmi,
	 firq      => cpu_firq
  );
 
  -- *** Test Bench - User Defined Section ***
   tb : PROCESS
	variable count : integer;
   BEGIN
 
	cpu_reset <= '0';
	SysClk <= '0';
   cpu_irq <= '0';
   cpu_nmi <= '0';
	cpu_firq <= '0';
 
		for count in 0 to 512 loop
			SysClk <= '0';
			if count = 0 then
				cpu_reset <= '1';
			elsif count = 1 then
				cpu_reset <= '0';
			end if;
			wait for 100 ns;
			SysClk <= '1';
			wait for 100 ns;
		end loop;
 
      wait; -- will wait forever
   END PROCESS;
-- *** End Test Bench - User Defined Section ***
 
 
  rom : PROCESS( cpu_addr )
  begin
    cpu_data_in <= rom_data(conv_integer(cpu_addr(6 downto 0))); 
  end process;
 
end behavior; --===================== End of architecture =======================--
 
 

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