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[/] [t6507lp/] [trunk/] [rtl/] [verilog/] [t6507lp_fsm_tb.v] - Rev 170
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//////////////////////////////////////////////////////////////////////////// //// //// //// T6507LP IP Core //// //// //// //// This file is part of the T6507LP project //// //// http://www.opencores.org/cores/t6507lp/ //// //// //// //// Description //// //// 6507 FSM testbench //// //// //// //// Author(s): //// //// - Gabriel Oshiro Zardo, gabrieloshiro@gmail.com //// //// - Samuel Nascimento Pagliarini (creep), snpagliarini@gmail.com //// //// //// //////////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2001 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source is distributed in the hope that it will be //// //// useful, but WITHOUT ANY WARRANTY; without even the implied //// //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR //// //// PURPOSE. See the GNU Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// //////////////////////////////////////////////////////////////////////////// `include "timescale.v" module t6507lp_fsm_tb(); // mem_rw signals localparam MEM_READ = 1'b0; localparam MEM_WRITE = 1'b1; reg clk; // regs are inputs reg reset_n; reg [7:0] alu_result; reg [7:0] alu_status; reg [7:0] data_in; reg [7:0] alu_x; reg [7:0] alu_y; wire [12:0] address; // wires are outputs wire mem_rw; wire [7:0] data_out; wire [7:0] alu_opcode; wire [7:0] alu_a; wire alu_enable; integer my_i; `include "t6507lp_package.v" t6507lp_fsm #(8,13) t6507lp_fsm( .clk(clk), .reset_n(reset_n), .alu_result(alu_result), .alu_status(alu_status), .data_in(data_in), .alu_x(alu_x), .alu_y(alu_y), .address(address), .mem_rw(mem_rw), .data_out(data_out), .alu_opcode(alu_opcode), .alu_a(alu_a), .alu_enable(alu_enable) ); always #10 clk = ~clk; reg[7:0] fake_mem[2**13-1:0]; initial begin clk = 1'b0; reset_n = 1'b0; alu_result = 8'h01; alu_status = 8'h00; alu_x = 8'h07; alu_y = 8'h03; for (my_i=0; my_i < 2**13; my_i= my_i+1) begin $write("\n%d",my_i); fake_mem[my_i]=8'h00; end fake_mem[0] = ASL_ACC; // testing ACC mode fake_mem[1] = ADC_IMM; // testing IMM mode fake_mem[2] = 8'h27; fake_mem[3] = JMP_ABS; // testing ABS mode, JMP type fake_mem[4] = 8'h09; fake_mem[5] = 8'h00; fake_mem[6] = ASL_ACC; // wont be executed fake_mem[7] = ASL_ACC; // wont be executed fake_mem[8] = ASL_ACC; // wont be executed fake_mem[9] = ASL_ACC; // wont be executed fake_mem[10] = LDA_ABS; // testing ABS mode, READ type. A = MEM[0002]. (a=27) fake_mem[11] = 8'h02; fake_mem[12] = 8'h00; fake_mem[13] = ASL_ABS; // testing ABS mode, READ_MODIFY_WRITE type. should overwrite the first ASL_ACC fake_mem[14] = 8'h00; fake_mem[15] = 8'h00; fake_mem[16] = STA_ABS; // testing ABS mode, WRITE type. should write alu_result on MEM[1] fake_mem[17] = 8'h01; fake_mem[18] = 8'h00; fake_mem[19] = LDA_ZPG; // testing ZPG mode, READ type fake_mem[20] = 8'h00; fake_mem[21] = ASL_ZPG; // testing ZPG mode, READ_MODIFY_WRITE type fake_mem[22] = 8'h00; fake_mem[23] = STA_ZPG; // testing ZPG mode, WRITE type fake_mem[24] = 8'h00; fake_mem[25] = LDA_ZPX; // testing ZPX mode, READ type. A = MEM[x+1] fake_mem[26] = 8'h01; fake_mem[27] = ASL_ZPX; // testing ZPX mode, READ_MODIFY_WRITE type. MEM[x+1] = MEM[x+1] << 1; fake_mem[28] = 8'h01; fake_mem[29] = STA_ZPX; // testing ZPX mode, WRITE type. MEM[x+2] = A; fake_mem[30] = 8'h02; fake_mem[31] = LDA_ABX; // testing ABX mode, READ TYPE. No page crossed. fake_mem[32] = 8'h0a; fake_mem[33] = 8'h00; fake_mem[34] = LDA_ABX; // testing ABX mode, READ TYPE. Page crossed. fake_mem[35] = 8'hff; fake_mem[36] = 8'h00; fake_mem[37] = ASL_ABX; // testing ABX mode, READ_MODIFY_WRITE TYPE. No page crossed. fake_mem[38] = 8'h01; fake_mem[39] = 8'd35; fake_mem[40] = ASL_ABX; // testing ABX mode, READ_MODIFY_WRITE TYPE. Page crossed. fake_mem[41] = 8'hff; fake_mem[42] = 8'h00; fake_mem[40] = STA_ABX; // testing ABX mode, WRITE TYPE. No page crossed. fake_mem[41] = 8'h04; fake_mem[42] = 8'h00; fake_mem[43] = STA_ABX; // testing ABX mode, WRITE TYPE. Page crossed. fake_mem[44] = 8'hff; fake_mem[45] = 8'h00; fake_mem[46] = BNE_REL; // testing REL mode, taking a branch, no page crossed. fake_mem[47] = 8'h0a; fake_mem[58] = BNE_REL; // testing REL mode, taking a branch, page crossed. fake_mem[59] = 8'hff; fake_mem[60] = 8'hff; fake_mem[254] = 8'hff; fake_mem[256] = 8'h55; // PCL fetched from here when executing RTS_IMP fake_mem[257] = 8'h01; // PCH fetched from here when executing RTS_IMP fake_mem[264] = 8'd340; fake_mem[315] = BEQ_REL; // testing REL mode, not taking a branch, page would have crossed. fake_mem[316] = 8'hff; fake_mem[317] = BEQ_REL; // testing REL mode, not taking a branch, page would not have crossed. fake_mem[318] = 8'h00; fake_mem[319] = LDA_IDX; // testing IDX mode READ TYPE, no page crossed; fake_mem[320] = 8'h0a; fake_mem[321] = LDA_IDX; // testing IDX mode READ TYPE, page crossed; this will actually do A = MEM[6] because there is no carry fake_mem[322] = 8'hff; //fake_mem[319] = SLO_IDX; // testing IDX mode READ_MODIFY_WRITE TYPE //fake_mem[320] = 8'h0a; // all of read modify write instructions are not documented therefore will not be simulated fake_mem[323] = STA_IDX; // testing IDX mode WRITE TYPE, page crossed being ignored fake_mem[324] = 8'hff; fake_mem[325] = STA_IDX; // testing IDX mode WRITE TYPE, page not crossed; fake_mem[326] = 8'h00; fake_mem[327] = LDA_IDY; // testing IDY mode READ TYPE, page not crossed; fake_mem[328] = 8'h00; fake_mem[329] = LDA_IDY; // testing IDY mode READ TYPE, page not crossed but pointer overflowed. fake_mem[330] = 8'hff; /* testing IDY mode READ TYPE, page crossed. address may assume a invalid value when page is crossed but it is fixed on the next cycle when the true read occurs. this is probably not an issue */ fake_mem[331] = LDA_IDY; fake_mem[332] = 8'hfe; fake_mem[333] = STA_IDY; // testing IDY mode WRITE TYPE, page crossed; fake_mem[334] = 8'h00; fake_mem[335] = STA_IDY; // testing IDY mode WRITE TYPE, page not crossed; fake_mem[336] = 8'h0e; fake_mem[337] = INX_IMP; //fake_mem[338] = JMP_IND; // testing absolute indirect addressing. page crossed when updating pointer. //fake_mem[339] = 8'hff; //fake_mem[340] = 8'h00; //fake_mem[337] = JMP_IND; // testing absolute indirect addressing. no page crossed when updating pointer. //fake_mem[338] = 8'h3b; // these are commented cause they will actually jump //fake_mem[339] = 8'h00; //fake_mem[338] = BRK_IMP; //fake_mem[339] = RTI_IMP; //fake_mem[340] = RTS_IMP; // 341 is skipped due to RTS internal functionality //fake_mem[342] = PHA_IMP; //fake_mem[343] = PHP_IMP; //fake_mem[344] = PLA_IMP; //fake_mem[345] = PLP_IMP; fake_mem[338] = JSR_ABS; fake_mem[339] = 8'h01; fake_mem[340] = 8'h01; fake_mem[8190] = 8'h53; // this is the reset vector fake_mem[8191] = 8'h01; @(negedge clk) // will wait for next negative edge of the clock (t=20) reset_n=1'b1; #4000; $finish; // to shut down the simulation end //initial always @(clk) begin if (mem_rw == MEM_READ) begin // MEM_READ data_in <= fake_mem[address]; $write("\nreading from mem position %h: %h", address, fake_mem[address]); end else begin // MEM_WRITE fake_mem[address] <= data_out; $write("\nreading from mem position %h: %h", address, fake_mem[address]); end end endmodule
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