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--===========================================================================---- -- -- T E S T B E N C H tesetbench3 - CPU09 Testbench. -- -- www.OpenCores.Org - September 2003 -- This core adheres to the GNU public license -- -- File name : Testbench3.vhd -- -- Purpose : cpu09 Microprocessor Test Bench 3 -- Contains ROM to test interrupts -- -- 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 - 12 Apr 2003 - John Kent -- First version -- -- Version 1.0 - 6 Sep 2003 - John Kent -- Initial release to Open Cores -- -- Version 1.1 - 26 Feb 2004 - John kent -- removed test_alu and test_cc signals from -- CPU component. --===========================================================================-- 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_testbench3 is end my_testbench3; ------------------------------------------------------------------------------- -- Architecture for memio Controller Unit ------------------------------------------------------------------------------- architecture behavior of my_testbench3 is ----------------------------------------------------------------------------- -- Signals ----------------------------------------------------------------------------- signal cpu_irq : std_Logic; signal cpu_firq : std_logic; signal cpu_nmi : std_logic; -- 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); 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 := ( "00010000", "11001110", "11111000", "00110000", -- F800 - 10CE F830 RET1 LDS #STACK "00111111", -- F804 - 3F SWI "00010000", "00111111", -- F805 - 103F SWIVEC SWI2 "00010001", "00111111", -- F807 - 113F SWI2VEC SWI3 "00111011", -- F809 - 3B SWI3VEC RTI "00100000", "11111110", -- F80A - 20 FE BRA * "10110001", -- F80C - B1 STACK3 FCB $B1 ; CC "00110010", -- F80D - 32 FCB $32 ; ACCA "00110011", -- F8OE - 33 FCB $33 ; ACCB "00110100", -- F8OF - 34 FCB $34 ; DPR "00110101", "00110110", -- F810 - 3536 FDB $3536 ; IX "00110111", "00111000", -- F812 - 3738 FDB $3738 ; IY "00111001", "00111010", -- F814 - 393A FDB $393A ; UP "11111000", "00001001", -- F816 - F809 FDB SWI3VEC ; PC "10100001", -- F818 - A1 STACK2 FCB $A1 ; CC "00100010", -- F819 - 22 FCB $22 ; ACCA "00100011", -- F81A - 23 FCB $23 ; ACCB "00100100", -- F81B - 24 FCB $24 ; DPR "00100101", "00100110", -- F81C - 2526 FDB $2526 ; IX "00100111", "00101000", -- F81E - 2728 FDB $2728 ; IY "00101001", "00101010", -- F820 - 292A FDB $292A ; UP "11111000", "00001001", -- F822 - F809 FDB SWI3VEC ; PC "10010001", -- F824 - 91 STACK1 FCB $91 ; CC "00010010", -- F825 - 12 FCB $12 ; ACCA "00010011", -- F826 - 13 FCB $13 ; ACCB "00010100", -- F827 - 14 FCB $14 ; DPR "00010101", "00010110", -- F828 - 1516 FDB $1516 ; IX "00010111", "00011000", -- F82A - 1718 FDB $1718 ; IY "00011001", "00011010", -- F82C - 191A FDB $191A ; UP "11111000", "00000000", -- F82E - F800 FDB RESET ; PC -- F830 STACK EQU * -- -- Interrupt Cectors Start Here -- "11111000", "00000000", -- F830 - F800 FDB RESET ; RESV "11111000", "00001001", -- F832 - F809 FDB SWIVEC3 ; SWI3 "11111000", "00000111", -- F834 - F807 FDB SWIVEC2 ; SWI2 "11111000", "00000000", -- F836 - F800 fdb RESET ; FIRQ "11111000", "00000000", -- F838 - F800 fdb RESET ; IRQ "11111000", "00000101", -- F83A - F805 fdb SWIVEC ; SWI "11111000", "00000000", -- F83C - F800 fcb RESET ; NMI "11111000", "00000000" -- F83E - F800 fdb RESET ; Reset ); 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(5 downto 0))); end process; end behavior; --===================== End of architecture =======================--
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