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[/] [a-z80/] [trunk/] [cpu/] [control/] [test_decode.sv] - Blame information for rev 4

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//==============================================================
// Test PLA decode and combinatorial static execute
//==============================================================
`timescale 100 ns/ 100 ns
 
module test_decode;
 
reg [7:0] ir_sig;
reg [4:0] prefix_sig;
wire [107:0] pla_sig;
 
// ----------------- TEST -------------------
initial begin
    integer 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 again
           prefix_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 again
           prefix_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 again
           prefix_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 again
           prefix_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 again
           prefix_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 again
           prefix_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
    .M6(M6_sig) ,               // input  M6_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

Line No.	Rev	Author	Line
1	3	gdevic	`//==============================================================`
2			`// Test PLA decode and combinatorial static execute`
3			`//==============================================================`
4			`timescale 100 ns/ 100 ns
5
6			`module test_decode;`
7
8			`reg [7:0] ir_sig;`
9			`reg [4:0] prefix_sig;`
10			`wire [107:0] pla_sig;`
11
12			`// ----------------- TEST -------------------`
13			`initial begin`
14			`integer opcode;`
15
16			`// Test every opcode in the first table`
17
18			`//================================================`
19			`// Regular instructions with no prefix`
20			`//================================================`
21			`$display("START IXY0:XX");`
22			`opcode = 0;`
23			`while(opcode<256) begin`
24			`#1 $display("OPCODE: 0x%2H", opcode);`
25			`prefix_sig[4:0] = 5'b10100;`
26			`ir_sig[7:0] = opcode;`
27			`#1 // Reset the IR into NOP so we get the trigger signal again`
28			`prefix_sig[4:0] = 5'b01100;`
29			`ir_sig[7:0] = 0;`
30			`opcode++;`
31			`end`
32			`#1 $display("END");`
33
34			`//================================================`
35			`// Regular instructions with IX/IY prefix`
36			`//================================================`
37			`$display("START IXY1:XX");`
38			`opcode = 0;`
39			`while(opcode<256) begin`
40			`#1 $display("OPCODE: 0x%2H", opcode);`
41			`prefix_sig[4:0] = 5'b01100;`
42			`ir_sig[7:0] = opcode;`
43			`#1 // Reset the IR into NOP so we get the trigger signal again`
44			`prefix_sig[4:0] = 5'b01100;`
45			`ir_sig[7:0] = 0;`
46			`opcode++;`
47			`end`
48			`#1 $display("END");`
49
50			`//================================================`
51			`// CD instructions with no prefix`
52			`//================================================`
53			`$display("START IXY0:CB");`
54			`opcode = 0;`
55			`while(opcode<256) begin`
56			`#1 $display("OPCODE: 0x%2H", opcode);`
57			`prefix_sig[4:0] = 5'b10010;`
58			`ir_sig[7:0] = opcode;`
59			`#1 // Reset the IR into NOP so we get the trigger signal again`
60			`prefix_sig[4:0] = 5'b01100;`
61			`ir_sig[7:0] = 0;`
62			`opcode++;`
63			`end`
64			`#1 $display("END");`
65
66			`//================================================`
67			`// CB instructions with IX/IY prefix`
68			`//================================================`
69			`$display("START IXY1:CB");`
70			`opcode = 0;`
71			`while(opcode<256) begin`
72			`#1 $display("OPCODE: 0x%2H", opcode);`
73			`prefix_sig[4:0] = 5'b01010;`
74			`ir_sig[7:0] = opcode;`
75			`#1 // Reset the IR into NOP so we get the trigger signal again`
76			`prefix_sig[4:0] = 5'b01100;`
77			`ir_sig[7:0] = 0;`
78			`opcode++;`
79			`end`
80			`#1 $display("END");`
81
82			`//================================================`
83			`// ED instructions with no prefix`
84			`//================================================`
85			`$display("START IXY0:ED");`
86			`opcode = 0;`
87			`while(opcode<256) begin`
88			`#1 $display("OPCODE: 0x%2H", opcode);`
89			`prefix_sig[4:0] = 5'b10001;`
90			`ir_sig[7:0] = opcode;`
91			`#1 // Reset the IR into NOP so we get the trigger signal again`
92			`prefix_sig[4:0] = 5'b01100;`
93			`ir_sig[7:0] = 0;`
94			`opcode++;`
95			`end`
96			`#1 $display("END");`
97
98			`//================================================`
99			`// ED instructions with IX/IY prefix`
100			`//================================================`
101			`$display("START IXY1:ED");`
102			`opcode = 0;`
103			`while(opcode<256) begin`
104			`#1 $display("OPCODE: 0x%2H", opcode);`
105			`prefix_sig[4:0] = 5'b01001;`
106			`ir_sig[7:0] = opcode;`
107			`#1 // Reset the IR into NOP so we get the trigger signal again`
108			`prefix_sig[4:0] = 5'b01001;`
109			`ir_sig[7:0] = 0;`
110			`opcode++;`
111			`end`
112			`#1 $display("END");`
113
114			`end`
115
116			`//--------------------------------------------------------------`
117			`// Instantiate decode blocks`
118			`//--------------------------------------------------------------`
119
120			`pla_decode pla_decode_inst`
121			`(`
122			`.prefix(prefix_sig) , // input [6:0] prefix_sig`
123			`.opcode(ir_sig) , // input [7:0] opcode`
124			`.pla(pla_sig) // output [104:0] pla_sig`
125			`);`
126
127			`execute execute_inst`
128			`(`
129			`.pla(pla_sig) , // input [107:0] pla_sig`
130			`.M1(M1_sig) , // input M1_sig`
131			`.M2(M2_sig) , // input M2_sig`
132			`.M3(M3_sig) , // input M3_sig`
133			`.M4(M4_sig) , // input M4_sig`
134			`.M5(M5_sig) , // input M5_sig`
135			`.M6(M6_sig) , // input M6_sig`
136			`.T1(T1_sig) , // input T1_sig`
137			`.T2(T2_sig) , // input T2_sig`
138			`.T3(T3_sig) , // input T3_sig`
139			`.T4(T4_sig) , // input T4_sig`
140			`.T5(T5_sig) , // input T5_sig`
141			`.T6(T6_sig) , // input T6_sig`
142			`.nextM(nextM_sig) , // output nextM_sig`
143			`.setM1(setM1_sig) , // output setM1_sig`
144			`.setM1ss(setM1ss_sig) , // output setM1ss_sig`
145			`.setM1cc(setM1cc_sig) , // output setM1cc_sig`
146			`.setM1bz(setM1bz_sig) , // output setM1bz_sig`
147			`.fFetch(fFetch_sig) , // output fFetch_sig`
148			`.fMRead(fMRead_sig) , // output fMRead_sig`
149			`.fMWrite(fMWrite_sig) , // output fMWrite_sig`
150			`.fIORead(fIORead_sig) , // output fIORead_sig`
151			`.fIOWrite(fIOWrite_sig) , // output fIOWrite_sig`
152			`.FIntr(FIntr_sig) , // output FIntr_sig`
153			`.ctl_bus_sw1(ctl_bus_sw1_sig) , // output ctl_bus_sw1_sig`
154			`.ctl_bus_sw2(ctl_bus_sw2_sig) , // output ctl_bus_sw2_sig`
155			`.ctl_bus_sw4(ctl_bus_sw4_sig) , // output ctl_bus_sw4_sig`
156			`.ctl_al_we(ctl_al_we_sig) , // output ctl_al_we_sig`
157			`.ctl_inc_dec(ctl_inc_dec_sig) , // output ctl_inc_dec_sig`
158			`.ctl_inc_limit6(ctl_inc_limit6_sig) , // output ctl_inc_limit6_sig`
159			`.ctl_inc_cy(ctl_inc_cy_sig) , // output ctl_inc_cy_sig`
160			`.ctl_ab_mux_inc(ctl_ab_mux_inc_sig) , // output ctl_ab_mux_inc_sig`
161			`.explode(explode_sig) // output explode_sig`
162			`);`
163
164			`endmodule`

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[/] [a-z80/] [trunk/] [cpu/] [control/] [test_decode.sv] - Blame information for rev 4