test.v
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// test.v v1 Frank Berndt
// r4300 code test;
// :set tabstop=4
`timescale 1ps/1ps
`define TCO #0
module test;
// instantiate the cpu model;
// clock/reset generation;
reg sysclk; // system clock;
reg [2:0] divmode; // cpu frequency mode;
reg coldrst_l; // cpu cold reset;
reg warmrst_l; // cpu wam reset;
wire pll_lock;
// dump control;
initial
$dumpvars;
// clock generator;
initial
sysclk = 0;
always
#6000 sysclk = ~sysclk;
// reset logic;
initial
begin
divmode = 3'b000;
coldrst_l = 1;
warmrst_l = 1;
repeat(4) @(posedge sysclk);
`TCO;
coldrst_l = 0;
warmrst_l = 0;
repeat(4) @(posedge sysclk);
`TCO;
coldrst_l = 1;
repeat(16) @(posedge sysclk);
`TCO;
warmrst_l = 1;
end
wire `TCO eok_l; // external agent ok;
wire [31:0] sysad_out; // system addr/data from cpu;
wire [4:0] syscmd_out; // system command from cpu;
wire pvalid_l; // processor data valid;
wire [31:0] `TCO sysad_in; // system addr/data to cpu;
wire [4:0] `TCO syscmd_in; // system command to cpu;
wire `TCO evalid_l; // external data valid;
wire [4:0] `TCO int_l; // cpu interrupts;
wire `TCO nmi_l; // non-maskable interrupt;
// do not use interrupts or nmi;
assign int_l = 5'b11111;
assign nmi_l = 1'b1;
// instantiate NEC cpu model;
NB4300V01 cpu (
.MASTERCLOCK(sysclk),
.ISYSCMD4(syscmd_in[4]),
.ISYSCMD3(syscmd_in[3]),
.ISYSCMD2(syscmd_in[2]),
.ISYSCMD1(syscmd_in[1]),
.ISYSCMD0(syscmd_in[0]),
.OSYSCMD4(syscmd_out[4]),
.OSYSCMD3(syscmd_out[3]),
.OSYSCMD2(syscmd_out[2]),
.OSYSCMD1(syscmd_out[1]),
.OSYSCMD0(syscmd_out[0]),
.ISYSAD31(sysad_in[31]),
.ISYSAD30(sysad_in[30]),
.ISYSAD29(sysad_in[29]),
.ISYSAD28(sysad_in[28]),
.ISYSAD27(sysad_in[27]),
.ISYSAD26(sysad_in[26]),
.ISYSAD25(sysad_in[25]),
.ISYSAD24(sysad_in[24]),
.ISYSAD23(sysad_in[23]),
.ISYSAD22(sysad_in[22]),
.ISYSAD21(sysad_in[21]),
.ISYSAD20(sysad_in[20]),
.ISYSAD19(sysad_in[19]),
.ISYSAD18(sysad_in[18]),
.ISYSAD17(sysad_in[17]),
.ISYSAD16(sysad_in[16]),
.ISYSAD15(sysad_in[15]),
.ISYSAD14(sysad_in[14]),
.ISYSAD13(sysad_in[13]),
.ISYSAD12(sysad_in[12]),
.ISYSAD11(sysad_in[11]),
.ISYSAD10(sysad_in[10]),
.ISYSAD9(sysad_in[9]),
.ISYSAD8(sysad_in[8]),
.ISYSAD7(sysad_in[7]),
.ISYSAD6(sysad_in[6]),
.ISYSAD5(sysad_in[5]),
.ISYSAD4(sysad_in[4]),
.ISYSAD3(sysad_in[3]),
.ISYSAD2(sysad_in[2]),
.ISYSAD1(sysad_in[1]),
.ISYSAD0(sysad_in[0]),
.OSYSAD31(sysad_out[31]),
.OSYSAD30(sysad_out[30]),
.OSYSAD29(sysad_out[29]),
.OSYSAD28(sysad_out[28]),
.OSYSAD27(sysad_out[27]),
.OSYSAD26(sysad_out[26]),
.OSYSAD25(sysad_out[25]),
.OSYSAD24(sysad_out[24]),
.OSYSAD23(sysad_out[23]),
.OSYSAD22(sysad_out[22]),
.OSYSAD21(sysad_out[21]),
.OSYSAD20(sysad_out[20]),
.OSYSAD19(sysad_out[19]),
.OSYSAD18(sysad_out[18]),
.OSYSAD17(sysad_out[17]),
.OSYSAD16(sysad_out[16]),
.OSYSAD15(sysad_out[15]),
.OSYSAD14(sysad_out[14]),
.OSYSAD13(sysad_out[13]),
.OSYSAD12(sysad_out[12]),
.OSYSAD11(sysad_out[11]),
.OSYSAD10(sysad_out[10]),
.OSYSAD9(sysad_out[9]),
.OSYSAD8(sysad_out[8]),
.OSYSAD7(sysad_out[7]),
.OSYSAD6(sysad_out[6]),
.OSYSAD5(sysad_out[5]),
.OSYSAD4(sysad_out[4]),
.OSYSAD3(sysad_out[3]),
.OSYSAD2(sysad_out[2]),
.OSYSAD1(sysad_out[1]),
.OSYSAD0(sysad_out[0]),
.SYSEN(), // XXX
.PVALIDB(pvalid_l),
.PREQB(), // unused;
.PMASTERB(), // unused;
.NMIB(nmi_l),
.INTB4(int_l[4]),
.INTB3(int_l[3]),
.INTB2(int_l[2]),
.INTB1(int_l[1]),
.INTB0(int_l[0]),
.EVALIDB(evalid_l),
.EREQB(1'b1), // never requested;
.EOKB(eok_l),
.DIVMODE2(divmode[2]),
.DIVMODE1(divmode[1]),
.DIVMODE0(divmode[0]),
.COLDRESETB(coldrst_l),
.RESETB(warmrst_l),
.PLOCK(pll_lock),
.SI7(1'b0), // XXX
.SI6(1'b0), // XXX
.SI5(1'b0), // XXX
.SI4(1'b0), // XXX
.SI3(1'b0), // XXX
.SI2(1'b0), // XXX
.SI1(1'b0), // XXX
.SI0(1'b0), // XXX
.SO7(), // XXX
.SO6(), // XXX
.SO5(), // XXX
.SO4(), // XXX
.SO3(), // XXX
.SO2(), // XXX
.SO1(), // XXX
.SO0(), // XXX
.BUNRI(1'b0), // XXX normal mode;
.TBI51(1'b0), // XXX test bus input;
.TBI50(1'b0), // XXX test bus input;
.TBI49(1'b0), // XXX test bus input;
.TBI48(1'b0), // XXX test bus input;
.TBI47(1'b0), // XXX test bus input;
.TBI46(1'b0), // XXX test bus input;
.TBI45(1'b0), // XXX test bus input;
.TBI44(1'b0), // XXX test bus input;
.TBI43(1'b0), // XXX test bus input;
.TBI42(1'b0), // XXX test bus input;
.TBI41(1'b0), // XXX test bus input;
.TBI40(1'b0), // XXX test bus input;
.TBI39(1'b0), // XXX test bus input;
.TBI38(1'b0), // XXX test bus input;
.TBI37(1'b0), // XXX test bus input;
.TBI36(1'b0), // XXX test bus input;
.TBI35(1'b0), // XXX test bus input;
.TBI34(1'b0), // XXX test bus input;
.TBI33(1'b0), // XXX test bus input;
.TBI32(1'b0), // XXX test bus input;
.TBI31(1'b0), // XXX test bus input;
.TBI30(1'b0), // XXX test bus input;
.TBI29(1'b0), // XXX test bus input;
.TBI28(1'b0), // XXX test bus input;
.TBI27(1'b0), // XXX test bus input;
.TBI26(1'b0), // XXX test bus input;
.TBI25(1'b0), // XXX test bus input;
.TBI24(1'b0), // XXX test bus input;
.TBI23(1'b0), // XXX test bus input;
.TBI22(1'b0), // XXX test bus input;
.TBI21(1'b0), // XXX test bus input;
.TBI20(1'b0), // XXX test bus input;
.TBI19(1'b0), // XXX test bus input;
.TBI18(1'b0), // XXX test bus input;
.TBI17(1'b0), // XXX test bus input;
.TBI16(1'b0), // XXX test bus input;
.TBI15(1'b0), // XXX test bus input;
.TBI14(1'b0), // XXX test bus input;
.TBI13(1'b0), // XXX test bus input;
.TBI12(1'b0), // XXX test bus input;
.TBI11(1'b0), // XXX test bus input;
.TBI10(1'b0), // XXX test bus input;
.TBI9(1'b0), // XXX test bus input;
.TBI8(1'b0), // XXX test bus input;
.TBI7(1'b0), // XXX test bus input;
.TBI6(1'b0), // XXX test bus input;
.TBI5(1'b0), // XXX test bus input;
.TBI4(1'b0), // XXX test bus input;
.TBI3(1'b0), // XXX test bus input;
.TBI2(1'b0), // XXX test bus input;
.TBI1(1'b0), // XXX test bus input;
.TBI0(1'b0), // XXX test bus input;
.TBO39(), // XXX test bus output;
.TBO38(), // XXX test bus output;
.TBO37(), // XXX test bus output;
.TBO36(), // XXX test bus output;
.TBO35(), // XXX test bus output;
.TBO34(), // XXX test bus output;
.TBO33(), // XXX test bus output;
.TBO32(), // XXX test bus output;
.TBO31(), // XXX test bus output;
.TBO30(), // XXX test bus output;
.TBO29(), // XXX test bus output;
.TBO28(), // XXX test bus output;
.TBO27(), // XXX test bus output;
.TBO26(), // XXX test bus output;
.TBO25(), // XXX test bus output;
.TBO24(), // XXX test bus output;
.TBO23(), // XXX test bus output;
.TBO22(), // XXX test bus output;
.TBO21(), // XXX test bus output;
.TBO20(), // XXX test bus output;
.TBO19(), // XXX test bus output;
.TBO18(), // XXX test bus output;
.TBO17(), // XXX test bus output;
.TBO16(), // XXX test bus output;
.TBO15(), // XXX test bus output;
.TBO14(), // XXX test bus output;
.TBO13(), // XXX test bus output;
.TBO12(), // XXX test bus output;
.TBO11(), // XXX test bus output;
.TBO10(), // XXX test bus output;
.TBO9(), // XXX test bus output;
.TBO8(), // XXX test bus output;
.TBO7(), // XXX test bus output;
.TBO6(), // XXX test bus output;
.TBO5(), // XXX test bus output;
.TBO4(), // XXX test bus output;
.TBO3(), // XXX test bus output;
.TBO2(), // XXX test bus output;
.TBO1(), // XXX test bus output;
.TBO0(), // XXX test bus output;
.TEST(1'b0), // XXX test mode;
.TEST1(1'b0), // XXX test mode;
.TEST0(1'b0), // XXX test mode;
.SCANSMC(1'b0),
.SCANTMC(1'b0),
.BYPASSPLLMODE(1'b0),
.BYPASSPLLPCLK(1'b0),
.BYPASSPLLSCLK(1'b0),
.AVDD1(1'b1),
.AGND1(1'b0)
);
// short-cut cpu pll timing;
always @(cpu.NB4300.pll.ABPLSSCH_IF.PLL._STBY)
begin
if(cpu.NB4300.pll.ABPLSSCH_IF.PLL._STBY == 1)
force cpu.NB4300.pll.ABPLSSCH_IF.PLL._PBSTBY = 1'b1;
if(cpu.NB4300.pll.ABPLSSCH_IF.PLL._STBY == 0)
force cpu.NB4300.pll.ABPLSSCH_IF.PLL._PBSTBY = 1'b0;
end
// instantiate cpu monitor;
cpu_mon cpu_mon (
.sysclk(sysclk),
.divmode(divmode),
.coldrst_l(coldrst_l),
.warmrst_l(warmrst_l),
.eok_l(eok_l),
.sysad_out(sysad_out),
.syscmd_out(syscmd_out),
.pvalid_l(pvalid_l),
.sysad_in(sysad_in),
.syscmd_in(syscmd_in),
.evalid_l(evalid_l),
.int_l(int_l),
.nmi_l(nmi_l),
.secure(1'b0)
);
// internal memories;
reg [31:0] brom [0:4*1024-1];
reg [31:0] bram [0:16*1024-1];
reg [31:0] iram [0:8*1024-1];
initial
$readmemh("rom.sim", brom);
// read word;
// all other spaces return 0;
task rword;
input [31:0] addr; // byte address;
input [2:0] sbo; // sub-block order;
output [31:0] word; // word read;
reg [13:0] wa; // word address;
begin
wa[13:3] = addr[15:5];
wa[2:0] = addr[4:2] ^ sbo;
case(addr[31:16])
16'h1fc0: word = brom[wa];
16'h1fc2: word = bram[wa];
16'h1fc4: word = iram[wa];
default: word = 32'd0;
endcase
end
endtask
// write word;
// all other spaces are dropped;
task wword;
input [31:0] addr; // byte address;
input [2:0] sbo; // sub-block order;
input [31:0] word; // write data;
input [31:0] mask; // write mask;
reg [13:0] wa; // word address;
begin
wa[13:3] = addr[15:5];
wa[2:0] = addr[4:2] ^ sbo;
case(addr[31:16])
16'h1fc0: brom[wa] = (brom[wa] & ~mask) | (word & mask);
16'h1fc2: bram[wa] = (bram[wa] & ~mask) | (word & mask);
16'h1fc4: iram[wa] = (iram[wa] & ~mask) | (word & mask);
endcase
end
endtask
// requests state machine;
wire reset_l;
reg sys_ack;
wire cmd_iss;
reg sys_eok_l;
reg sys_iss;
reg sys_busy;
assign reset_l = coldrst_l & warmrst_l;
assign cmd_iss = sys_iss & ~pvalid_l & ~syscmd_out[4];
always @(posedge sysclk)
begin
if(reset_l)
sys_ack <= 0;
sys_eok_l <= ~reset_l | cmd_iss | (sys_busy & ~sys_ack);
sys_iss <= reset_l & ~sys_eok_l;
sys_busy <= reset_l & ~sys_ack & (sys_busy | cmd_iss);
end
assign eok_l = sys_eok_l;
// hold on to address/cmd;
reg [31:0] sys_addr;
reg [4:0] sys_cmd;
integer sys_nwr;
always @(posedge sysclk)
begin
if(cmd_iss) begin
sys_addr <= sysad_out;
sys_cmd <= syscmd_out;
sys_nwr <= 0;
end
end
// write state machine;
reg [31:0] mask;
integer nwr;
always @(sys_cmd or sys_addr)
begin
nwr = 0;
case(sys_cmd[2:0])
3'b000, // 1-byte write;
3'b001, // 2-byte write;
3'b010, // 3-byte write;
3'b011: nwr = 1; // 4-byte write;
3'b100: nwr = 2; // 8-byte write;
3'b101: nwr = 4; // 16-byte write;
3'b110: nwr = 8; // 32-byte write;
endcase
mask = 32'd0;
case({sys_cmd[2:0], sys_addr[1:0]})
{ 3'b000, 2'b00 }: mask = 32'hff000000;
{ 3'b000, 2'b01 }: mask = 32'h00ff0000;
{ 3'b000, 2'b10 }: mask = 32'h0000ff00;
{ 3'b000, 2'b11 }: mask = 32'h000000ff;
{ 3'b001, 2'b00 }: mask = 32'hffff0000;
{ 3'b001, 2'b10 }: mask = 32'h0000ffff;
{ 3'b010, 2'b00 }: mask = 32'hffffff00;
{ 3'b010, 2'b01 }: mask = 32'h00ffffff;
{ 3'b011, 2'b00 }: mask = 32'hffffffff;
endcase
@(posedge sysclk);
@(posedge sysclk);
sys_ack = 1;
@(posedge sysclk);
sys_ack = 0;
end
wire write;
assign write = syscmd_out[4] & ~pvalid_l;
always @(posedge sysclk)
begin
if(sys_cmd[3] & write & (sys_nwr < nwr)) begin
wword(sys_addr, sys_nwr, sysad_out, mask);
sys_nwr = sys_nwr + 1;
end
end
// read response state machine;
integer nrsp, nr;
reg [31:0] sysad_rsp;
reg [4:0] syscmd_rsp;
reg sys_evalid_l;
always @(negedge reset_l)
sys_evalid_l = 1;
always @(posedge sys_busy)
begin
@(posedge sysclk);
if(sys_cmd[3] === 1'b0) begin
nrsp = 0;
case(sys_cmd[2:0])
3'b000, // 1-byte read;
3'b001, // 2-byte read;
3'b010, // 3-byte read;
3'b011: nrsp = 1; // 4-byte read;
3'b100: nrsp = 2; // 8-byte read;
3'b101: nrsp = 4; // 16-byte read;
3'b110: nrsp = 8; // 32-byte read;
endcase
for(nr = 0; nr < nrsp; nr = nr + 1) begin
rword(sys_addr, nr, sysad_rsp);
syscmd_rsp[4] = 1;
syscmd_rsp[3] = ((nr + 1) != nrsp);
syscmd_rsp[2] = 0;
syscmd_rsp[1] = 0;
syscmd_rsp[0] = 0;
sys_evalid_l = 0;
@(posedge sysclk);
end
sys_evalid_l = 1;
end
end
assign sysad_in = sysad_rsp;
assign syscmd_in = syscmd_rsp;
assign evalid_l = sys_evalid_l;
endmodule