Subversion Repositories System68

--===========================================================================--

--

-- CPU68 Microprocessor Test Bench 3

--

-- 16 bit compare test (CPX)

--

-- John Kent 21st October 2002

--

--

-------------------------------------------------------------------------------

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_testbench is

end my_testbench;

-------------------------------------------------------------------------------

-- Architecture for memio Controller Unit

-------------------------------------------------------------------------------

architecture behavior of my_testbench is

  -----------------------------------------------------------------------------

  -- Signals

  -----------------------------------------------------------------------------

  signal uart_irq    : Std_Logic;

  signal timer_irq   : std_logic;

  -- Sequencer 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);

  constant width   : integer := 8;

  constant memsize : integer := 64;

  type rom_array is array(0 to memsize-1) of std_logic_vector(width-1 downto 0);

  constant rom_data : rom_array :=

  (

    "10001110", "11111111", "11011101", -- FFC0 - 8E FFDD  RESET LDS #$FFDD

         "11111110", "11111111", "11001110", -- FFC3 - FE FFCE        LDX BEGA

         "00001000",                         -- FFC6 - 08        LOOP INX

         "10111100", "11111111", "11010000", -- FFC7 - BC FFD0        CPX ENDA

    "00100011", "11111010",             -- FFCA - 23 FA    REENT BLS LOOP

         "00100000", "11110010",             -- FFCC - 20 F2          BRA RESET

         "00010010", "00110100",             -- FFCE - 12 34          FDB $1234

         "00010010", "00110110",             -- FFD0 - 12 36          FDB $1236

         -- the rest is junk

         "00110111",                         -- FFD2 - 37             PSHB

         "11100110", "00000001",             -- FFD3 - E6 01          LDAB 1,X

         "11100001", "00000011",             -- FFD5 - E1 03          CMPB 3,X

         "00110011",                         -- FFD7 - 33             PULB

         "00111001",                         -- FFD8 - 39             RTS

         "11111111", "11100000",             -- FFD9 - FF E0          FDB $FFE0

         "01010101",                         -- FFDB - 55             FCB $55

         "11111111", "11001000",             -- FFDC - FFC8           FDB REENT

         "00100000", "11100000",             -- FFDE - 20 E0          BRA RESET

         "00000000", "00000000",             -- FFE0 - 00 00          fcb $00,$00

         "00000000", "00000000",             -- FFE2 - 00 00          fcb $00,$00

         "00000000", "00000000",             -- FFE4 - 00 00          fcb $00,$00

         "00000000", "00000000",             -- FFE6 - 00 00          fcb $00,$00

    "01001000", "01100101", "01101100", -- FFE8 - 48 65 6c MSG   FCC "Hel"

         "01101100", "01101111", "00100000", -- FFEB - 6c 6f 20       FCC "lo "

         "01010111", "01101111", "01110010", -- FFEE - 57 6f 72       FCC "Wor"

    "01101100", "01100100",             -- FFF1 - 6c 64          FCC "ld"

    "00001010", "00001101", "00000000", -- FFF3 - 0a 0d 00       FCB LF,CR,NULL

    "00000000", "00000000",             -- FFF6 - 00 00          fcb null,null           

         "11111111", "11000000",             -- FFF8 - FF C0          fdb $FFC0 ; Timer irq

         "11111111", "11000000",             -- FFFA - FF C0          fdb $FFC0 ; Ext IRQ

         "11111111", "11000000",             -- FFFC - FF C0          fcb $FFC0 ; SWI

         "11111111", "11000000"              -- FFFE - FF C0          fdb $FFC0 ; Reset

         );

component cpu68

  port (

    data_in:  in        std_logic_vector(7 downto 0);

         data_out: out std_logic_vector(7 downto 0);

    address:  out       std_logic_vector(15 downto 0);

    vma:             out        std_logic;

    rw:      out        std_logic;              -- Asynchronous memory interface

    rst:             in std_logic;

         clk:        in std_logic;

         irq:      in  std_logic;

         nmi:      in  std_logic

  );

end component cpu68;

begin

cpu : cpu68  port map (

    data_in   => cpu_data_in,

         data_out  => cpu_data_out,

    address   => cpu_addr(15 downto 0),

    vma       => cpu_vma,

    rw       => cpu_rw,

    rst      => cpu_reset,

         clk         => SysClk,

         irq       => uart_irq,

         nmi       => timer_irq

  );

  -- *** Test Bench - User Defined Section ***

   tb : PROCESS

        variable count : integer;

   BEGIN

        cpu_reset <= '0';

        SysClk <= '0';

   uart_irq <= '0';

        timer_irq <= '0';

                for count in 0 to 256 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(5 downto 0)));

  end process;

end behavior; --===================== End of architecture =======================--