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[/] [a-z80/] [trunk/] [cpu/] [control/] [test_decode.sv] - Rev 8
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//==============================================================// Test PLA decode and combinatorial static execute//==============================================================`timescale 100 ns/ 100 nsmodule test_decode;reg [7:0] ir_sig;reg [4:0] prefix_sig;wire [107:0] pla_sig;// ----------------- TEST -------------------initial begininteger opcode;// Test every opcode in the first table//================================================// Regular instructions with no prefix//================================================$display("START IXY0:XX");opcode = 0;while(opcode<256) begin#1 $display("OPCODE: 0x%2H", opcode);prefix_sig[4:0] = 5'b10100;ir_sig[7:0] = opcode;#1 // Reset the IR into NOP so we get the trigger signal againprefix_sig[4:0] = 5'b01100;ir_sig[7:0] = 0;opcode++;end#1 $display("END");//================================================// Regular instructions with IX/IY prefix//================================================$display("START IXY1:XX");opcode = 0;while(opcode<256) begin#1 $display("OPCODE: 0x%2H", opcode);prefix_sig[4:0] = 5'b01100;ir_sig[7:0] = opcode;#1 // Reset the IR into NOP so we get the trigger signal againprefix_sig[4:0] = 5'b01100;ir_sig[7:0] = 0;opcode++;end#1 $display("END");//================================================// CD instructions with no prefix//================================================$display("START IXY0:CB");opcode = 0;while(opcode<256) begin#1 $display("OPCODE: 0x%2H", opcode);prefix_sig[4:0] = 5'b10010;ir_sig[7:0] = opcode;#1 // Reset the IR into NOP so we get the trigger signal againprefix_sig[4:0] = 5'b01100;ir_sig[7:0] = 0;opcode++;end#1 $display("END");//================================================// CB instructions with IX/IY prefix//================================================$display("START IXY1:CB");opcode = 0;while(opcode<256) begin#1 $display("OPCODE: 0x%2H", opcode);prefix_sig[4:0] = 5'b01010;ir_sig[7:0] = opcode;#1 // Reset the IR into NOP so we get the trigger signal againprefix_sig[4:0] = 5'b01100;ir_sig[7:0] = 0;opcode++;end#1 $display("END");//================================================// ED instructions with no prefix//================================================$display("START IXY0:ED");opcode = 0;while(opcode<256) begin#1 $display("OPCODE: 0x%2H", opcode);prefix_sig[4:0] = 5'b10001;ir_sig[7:0] = opcode;#1 // Reset the IR into NOP so we get the trigger signal againprefix_sig[4:0] = 5'b01100;ir_sig[7:0] = 0;opcode++;end#1 $display("END");//================================================// ED instructions with IX/IY prefix//================================================$display("START IXY1:ED");opcode = 0;while(opcode<256) begin#1 $display("OPCODE: 0x%2H", opcode);prefix_sig[4:0] = 5'b01001;ir_sig[7:0] = opcode;#1 // Reset the IR into NOP so we get the trigger signal againprefix_sig[4:0] = 5'b01001;ir_sig[7:0] = 0;opcode++;end#1 $display("END");end//--------------------------------------------------------------// Instantiate decode blocks//--------------------------------------------------------------pla_decode pla_decode_inst(.prefix(prefix_sig) , // input [6:0] prefix_sig.opcode(ir_sig) , // input [7:0] opcode.pla(pla_sig) // output [104:0] pla_sig);execute execute_inst(.pla(pla_sig) , // input [107:0] pla_sig.M1(M1_sig) , // input M1_sig.M2(M2_sig) , // input M2_sig.M3(M3_sig) , // input M3_sig.M4(M4_sig) , // input M4_sig.M5(M5_sig) , // input M5_sig.T1(T1_sig) , // input T1_sig.T2(T2_sig) , // input T2_sig.T3(T3_sig) , // input T3_sig.T4(T4_sig) , // input T4_sig.T5(T5_sig) , // input T5_sig.T6(T6_sig) , // input T6_sig.nextM(nextM_sig) , // output nextM_sig.setM1(setM1_sig) , // output setM1_sig.setM1ss(setM1ss_sig) , // output setM1ss_sig.setM1cc(setM1cc_sig) , // output setM1cc_sig.setM1bz(setM1bz_sig) , // output setM1bz_sig.fFetch(fFetch_sig) , // output fFetch_sig.fMRead(fMRead_sig) , // output fMRead_sig.fMWrite(fMWrite_sig) , // output fMWrite_sig.fIORead(fIORead_sig) , // output fIORead_sig.fIOWrite(fIOWrite_sig) , // output fIOWrite_sig.FIntr(FIntr_sig) , // output FIntr_sig.ctl_bus_sw1(ctl_bus_sw1_sig) , // output ctl_bus_sw1_sig.ctl_bus_sw2(ctl_bus_sw2_sig) , // output ctl_bus_sw2_sig.ctl_bus_sw4(ctl_bus_sw4_sig) , // output ctl_bus_sw4_sig.ctl_al_we(ctl_al_we_sig) , // output ctl_al_we_sig.ctl_inc_dec(ctl_inc_dec_sig) , // output ctl_inc_dec_sig.ctl_inc_limit6(ctl_inc_limit6_sig) , // output ctl_inc_limit6_sig.ctl_inc_cy(ctl_inc_cy_sig) , // output ctl_inc_cy_sig.ctl_ab_mux_inc(ctl_ab_mux_inc_sig) , // output ctl_ab_mux_inc_sig.explode(explode_sig) // output explode_sig);endmodule