rsp_regr_include.v
22.4 KB
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`include "rsp_regr.h"
/****************************************************
* $test$plusargs setups
***************************************************/
`ifdef REALITY_RSP_REGRESSION
`else
reg random_dma_mode;
initial
begin
rsp_random_dma.random_idma_mode = 0;
rsp_random_dma.random_ddma_mode = 0;
rsp_random_dma.random_halt_mode = 0;
random_dma_mode = 0;
if ($test$plusargs("random_idma"))
begin
$display("setting random_idma_mode bit");
rsp_random_dma.random_idma_mode = 1;
random_dma_mode = 1;
end
if ($test$plusargs("random_ddma"))
begin
$display("setting random_ddma_mode bit");
rsp_random_dma.random_ddma_mode = 1;
random_dma_mode = 1;
end
if ($test$plusargs("random_halt"))
begin
$display("setting random_halt_mode bit");
rsp_random_dma.random_halt_mode = 1;
random_dma_mode = 1;
end
#1
if (random_dma_mode)
rsp_random_dma.fp = $fopen("random_dma.log");
#10
rsp_random_dma.seed = 32'h00000005;
if ($getnum$plusarg("seed=", rsp_random_dma.seed) == 1)
begin
end
if (random_dma_mode)
$display("\nRandom Number Generator Seed = %d\n",rsp_random_dma.seed);
end
`endif
reg MBUS;
initial
begin
MBUS = 0;
if ($test$plusargs("MBUS"))
begin
$display("Generating vectors for at-speed test.");
MBUS = 1;
end
end
reg single_step;
initial
begin
single_step = 0;
if ($test$plusargs("single_step"))
begin
$display("setting single_step Mode");
single_step = 1;
end
end
initial
if ($test$plusargs("dumpvars"))
begin
$display("Enabling dumpvars");
$dumpvars;
end
reg AllDiags;
initial
begin
AllDiags = 0;
if ($test$plusargs("AllDiags"))
begin
$display("Seting All diags to run Flag");
AllDiags = 1;
end
end
reg ctrace;
initial
begin
ctrace = 0;
if ($test$plusargs("ctrace"))
begin
$display("Seting trace compare on");
ctrace = 1;
end
end
reg eod_rst;
initial
begin
eod_rst = 0;
if ($test$plusargs("eod_rst"))
begin
$display("Seting End of Diag Reset");
eod_rst = 1;
end
end
/********************************************************
*
********************************************************/
reg [127:0] mem[0:255];
reg [127:0] temp;
integer i;
reg [31:0] fp;
initial fp = $fopen("regression.log");
/************************************************************
* TimeOut counters
***********************************************************/
reg [23:0] cycle_count;
reg [23:0] cycle_count_save;
reg TimeOut;
initial TimeOut = 0;
always @(posedge `CLK)
if (TimeOut)
cycle_count <= cycle_count;
else
if (single_step && !`tr.SingleStep)
cycle_count <= 0;
else
if (!single_step && `Halt)
cycle_count <= 0;
else
cycle_count <= cycle_count + 1;
always @(cycle_count)
`ifdef REALITY_RSP_REGRESSION
if (single_step)
`else
if (single_step || random_dma_mode)
`endif
TimeOut = (cycle_count === `TIMEOUT_CNT_SS);
else
TimeOut = (cycle_count === `TIMEOUT_CNT);
always @(`Halt) cycle_count_save = (`Halt) ? cycle_count : 'h0;
/*********************************************************
* Various initailizations
*********************************************************/
reg dmem_dump_error;
reg [9:0] total_tests;
reg [9:0] passed_tests;
reg [9:0] failed_tests;
reg [31:0] ireg_mem[0:31];
reg [127:0] vreg_mem[0:31];
initial
begin
dmem_dump_error = 0;
total_tests = 0;
passed_tests = 0;
failed_tests = 0;
for (i=0; i<32; i=i+1) ireg_mem[i] = 32'h0;
for (i=0; i<32; i=i+1) vreg_mem[i] = 128'h0;
for (i=0; i<256; i=i+1) mem[i] = 128'h0;
`ifdef REALITY_RSP_REGRESSION
`else
for (i=0; i<512; i=i+1) `IMEM[i] = 64'h0;
for (i=0; i<256; i=i+1) begin
`DMEM0[i] = 8'h0;
`DMEM1[i] = 8'h0;
`DMEM2[i] = 8'h0;
`DMEM3[i] = 8'h0;
`DMEM4[i] = 8'h0;
`DMEM5[i] = 8'h0;
`DMEM6[i] = 8'h0;
`DMEM7[i] = 8'h0;
`DMEM8[i] = 8'h0;
`DMEM9[i] = 8'h0;
`DMEM10[i] = 8'h0;
`DMEM11[i] = 8'h0;
`DMEM12[i] = 8'h0;
`DMEM13[i] = 8'h0;
`DMEM14[i] = 8'h0;
`DMEM15[i] = 8'h0;
end
`endif
end
/**************************************************
* Tasks Definitions
**************************************************/
task print_imem;
input [11:0] saddr;
input [11:0] eaddr;
integer i;
begin
saddr = saddr>>3;
eaddr = eaddr>>3;
if (saddr <= eaddr)
begin
$display("\n");
for (i=saddr; i<=eaddr; i=i+1)
$display("IMEM[%3h]=%8h, IMEM[%3h]=%8h", i*8, (`IMEM[i]>>32)&32'hffffffff,(i*8)+4,`IMEM[i]&32'hffffffff);
$display("\n\n");
end
end
endtask
task print_dmem;
input [11:0] saddr;
input [11:0] eaddr;
integer i;
begin
saddr = saddr>>4;
eaddr = eaddr>>4;
if (saddr <= eaddr)
begin
$display("\n");
for (i=saddr; i<=eaddr; i=i+1)
$display("DMEM[%3h]=%16h", i*16,
{`DMEM15[i],`DMEM14[i],`DMEM13[i],`DMEM12[i],`DMEM11[i],`DMEM10[i],
`DMEM9[i], `DMEM8[i], `DMEM7[i], `DMEM6[i], `DMEM5[i], `DMEM4[i],
`DMEM3[i], `DMEM2[i], `DMEM1[i], `DMEM0[i]});
$display("\n\n");
end
end
endtask
task clean_imem;
integer i;
begin
for (i = 0; i<512; i=i+1) `IMEM[i] = 64'h0;
end
endtask
task test_report;
begin
$fwrite(fp,"\n\n");
$fwrite(fp,"##########################\n");
$fwrite(fp,"# RSP Regression Report\n");
$fwrite(fp,"# \n");
$fwrite(fp,"# Total Tests :%0d\n",total_tests);
$fwrite(fp,"# Passed :%0d\n",passed_tests);
$fwrite(fp,"# Failed :%0d\n",failed_tests);
$fwrite(fp,"##########################\n");
$fwrite(fp,"\n");
end
endtask
`ifdef REALITY_RSP_REGRESSION
task load_test_from_mbus;
input [1:0] test_type;
integer i, j;
reg [72:0] tmp;
reg [31:0] status;
begin
$display($time," START: Initializing RDRAM via MBUS.");
if (test_type==2'b11) begin //dma test
for (i=0; i<('h360); i= i+1) // 27K memory
begin
for (j=0; j<4; j=j+1)
begin
tmp = `rdram_0.core.core[(i*4)+j];
reality.r4200b_0.data[(j*2)] = {tmp[7:0], tmp[16:9],tmp[25:18],tmp[34:27]};
reality.r4200b_0.data[(j*2)+1] = {tmp[43:36], tmp[52:45],tmp[61:54],tmp[70:63]};
`rdram_0.core.core[(i*4)+j] = ~tmp;
end
reality.r4200b_0.write_block((i*32), 2);
end
$display("Done Loading RDRAM");
end
else begin //Non DMA
for (i=0; i<256; i= i+1)
begin
for (j=0; j<4; j=j+1)
begin
tmp = `rdram_0.core.core[(i*4)+j];
reality.r4200b_0.data[(j*2)] = {tmp[7:0], tmp[16:9],tmp[25:18],tmp[34:27]};
reality.r4200b_0.data[(j*2)+1] = {tmp[43:36], tmp[52:45],tmp[61:54],tmp[70:63]};
`rdram_0.core.core[(i*4)+j] = ~tmp;
end
reality.r4200b_0.write_block((i*32), 2);
end
end
$display($time," END: Initializing RDRAM via MBUS.");
load_test_from_rdram('hfff, 'hfff);
end
endtask
task load_test_from_rdram;
input [11:0] dmem_init_size; // size of initialized data - 1, in bytes
input [11:0] imem_init_size; // size of initialized data - 1, in bytes
integer i;
reg [31:0] status;
begin
if (dmem_init_size < 7) begin
$display($time," START: Initializing dmem from rdram");
reality.r4200b_0.sp_dma_read('h0 ,'h0,'h0,'h0, 7);
// in to dmem
end
else begin
$display($time," START: Initializing dmem from rdram");
reality.r4200b_0.sp_dma_read('h0 ,'h0,'h0,'h0, dmem_init_size);
// in to dmem
end
status = 32'hff;
while (status[3:2]!==0)
begin
repeat (200) @(posedge `CLK);
reality.r4200b_0.read_word('h404_0010, 3);
status = reality.r4200b_0.data[0];
end
$display($time," DONE: Initializing 0x%h bytes of dmem from rdram",
dmem_init_size+1);
$display($time," START: Initializing imem from rdram");
reality.r4200b_0.sp_dma_read('h1000,'h1000,'h0,'h0, imem_init_size); // in to imem
status = 32'hff;
while (status[3:2]!==0)
begin
repeat (200) @(posedge `CLK);
reality.r4200b_0.read_word('h404_0010, 3);
status = reality.r4200b_0.data[0];
end
$display($time," DONE: Initializing imem from rdram");
end
endtask
task dump_dmem_via_mbus;
integer i, j;
reg [72:0] tmp;
reg [31:0] low_word, high_word;
begin
$display($time," START: Reading out DMEM via MBUS");
for (i=0; i<512; i= i+1)
begin
reality.r4200b_0.read_word(('h400_0000+(i*8)), 3);
low_word = reality.r4200b_0.data[0];
reality.r4200b_0.read_word(('h400_0000+(i*8)+4), 3);
high_word = reality.r4200b_0.data[0];
tmp = `rdram_0.core.core[32'h600 + i];
if ({low_word,high_word} != tmp)
$display ("DMem mismatch at [%h]: Actual: %h %h , Expected: %h %h \n",
(i*8), low_word, high_word,tmp[63:32],tmp[31:0]);
end
$display("DONE: Reading DMEM via MBUS");
end
endtask
task dump_dmem_top_rdram;
input [1:0] dmem_dump_type;
integer i;
reg [31:0] status;
begin
if (dmem_dump_type == 'b00) begin // VU type
$display($time,"START: dumping dmem[0] in rdram");
reality.r4200b_0.sp_dma_write('h0 ,'h2000,'h0,'h0,'h007); // to rdram ('h2000/8 = 'h400) address
end
else if (dmem_dump_type == 'b01) begin // SU type
$display($time,"START: dumping end of dmem in rdram");
reality.r4200b_0.sp_dma_write('hf80 ,'h2000,'h0,'h0,'h07f); // to rdram ('h2000/8 = 'h400) address
end
else begin
$display($time,"START: dumping dmem in rdram"); // DMA type
reality.r4200b_0.sp_dma_write('h0 ,'h2000,'h0,'h0,'hfff); // to rdram ('h2000/8 = 'h400) address
end
status = 32'hff;
while (status[3:2]!==0)
begin
repeat (200) @(posedge `CLK);
reality.r4200b_0.read_word('h404_0010, 3);
status = reality.r4200b_0.data[0];
//$display("waitng for DMA to complete status=%h", status);
end
$display($time," DONE: dmem dump in rdram");
end
endtask
task read_dmemINrdram_via_mbus;
integer i,j;
reg [71:0] tmp;
reg [31:0] data [0:7];
begin
$display($time," START: reading dmem image from rdram via mbus");
for (i=0; i<128; i=i+1)
begin
reality.r4200b_0.read_block('h2000 + (i*32), 2);
tmp = `rdram_0.core.core[32'h400 + (i*4)];
data[0] = {tmp[7:0], tmp[16:9],tmp[25:18],tmp[34:27]};
data[1] = {tmp[43:36], tmp[52:45],tmp[61:54],tmp[70:63]};
tmp = `rdram_0.core.core[32'h400 + (i*4) + 1];
data[2] = {tmp[7:0], tmp[16:9],tmp[25:18],tmp[34:27]};
data[3] = {tmp[43:36], tmp[52:45],tmp[61:54],tmp[70:63]};
tmp = `rdram_0.core.core[32'h400 + (i*4) + 2];
data[4] = {tmp[7:0], tmp[16:9],tmp[25:18],tmp[34:27]};
data[5] = {tmp[43:36], tmp[52:45],tmp[61:54],tmp[70:63]};
tmp = `rdram_0.core.core[32'h400 + (i*4) + 3];
data[6] = {tmp[7:0], tmp[16:9],tmp[25:18],tmp[34:27]};
data[7] = {tmp[43:36], tmp[52:45],tmp[61:54],tmp[70:63]};
for (j=0; j<8; j=j+1)
if (reality.r4200b_0.data[j] !== data[j])
$display("ERROR: RDRAM READ DATA MISMATCH on Address = %h", ('h2000 + (i*32) + (j*4)),
"Expected = %h", data[j],
"Actual = %h", reality.r4200b_0.data[j]
);
end
$display($time," END: reading dmem image from rdram via mbus");
end
endtask
task compare_dmem_image;
input [1:0] dmem_dump_type;
integer i;
integer dmem_dump_start;
integer dump_size;
reg [63:0] data;
begin
if (dmem_dump_type == 'b00) begin dump_size = 1; dmem_dump_start = 0; end
else if (dmem_dump_type == 'b01) begin dump_size = 16; dmem_dump_start = 496; end
else begin dump_size = 512; dmem_dump_start = 0; end
for (i=0; i<dump_size; i=i+1)
begin
temp[71:0] = `rdram_0.core.core[32'h400 + i];
data = {temp[7:0], temp[16:9],temp[25:18],temp[34:27],
temp[43:36], temp[52:45],temp[61:54],temp[70:63]};
if (data !== `rdram_0.core.core[32'h600 + i + dmem_dump_start])
begin
$display("ERROR: DMEM dump in rdram missmatches with expected \n");
$display("DMEM Address(Dbl Word Alligned): %h , Actual: %h, Expected = %h \n",
dmem_dump_start+i, data, `rdram_0.core.core[32'h600 + i + dmem_dump_start]);
dmem_dump_error = 1;
end
end
end
endtask
`else
task write_pc;
input [11:0] pc;
begin
@(negedge `CLK);
rspWrap.cbus_command = 3'b010;
force `rsp_path.cbus_data = 32'h04080000; // pc address
@(negedge `CLK);
rspWrap.cbus_command = 3'b000;
force `rsp_path.cbus_data = pc;
@(negedge `CLK);
release `rsp_path.cbus_data;
end
endtask
task write_status;
input [6:0] data;
begin
@(posedge `CLK);
// clear Status for Halt, Broke
@(negedge `CLK);
rspWrap.cbus_command = 3'b010;
force `rsp_path.cbus_data = 32'h04040010; // status register address
@(negedge `CLK);
rspWrap.cbus_command = 3'b000;
force `rsp_path.cbus_data = data;
@(negedge `CLK);
release `rsp_path.cbus_data;
end
endtask
`endif
task init_su_reg;
reg [4:0] reg_num;
reg [31:0] data;
integer i;
begin
for (i = 0; i<31; i=i+1)
begin
reg_num = i + 1;
data = ireg_mem[i];
wait (`CLK === 1'b1);
force `SRpath.w = reg_num;
force `SRpath.bufb = data;
force `SRpath.wen = 1'b1;
wait (`CLK === 1'b0);
wait (`CLK === 1'b1);
release `SRpath.wen;
release `SRpath.w;
release `SRpath.bufb;
end
end
endtask
task init_vu_reg;
reg [127:0] tmp;
integer i;
begin
for (i = 0; i<32; i=i+1)
begin
tmp = vreg_mem[i];
`VRpath.memsl0hi[i] = tmp[127:120];
`VRpath.memsl0lo[i] = tmp[119:112];
`VRpath.memsl1hi[i] = tmp[111:104];
`VRpath.memsl1lo[i] = tmp[103:96];
`VRpath.memsl2hi[i] = tmp[95:88];
`VRpath.memsl2lo[i] = tmp[87:80];
`VRpath.memsl3hi[i] = tmp[79:72];
`VRpath.memsl3lo[i] = tmp[71:64];
`VRpath.memsl4hi[i] = tmp[63:56];
`VRpath.memsl4lo[i] = tmp[55:48];
`VRpath.memsl5hi[i] = tmp[47:40];
`VRpath.memsl5lo[i] = tmp[39:32];
`VRpath.memsl6hi[i] = tmp[31:24];
`VRpath.memsl6lo[i] = tmp[23:16];
`VRpath.memsl7hi[i] = tmp[15:8];
`VRpath.memsl7lo[i] = tmp[7:0];
end
end
endtask
task rundiag;
input [1:0] test_type;
input [255:0] test_name;
input [11:0] dmem_init_size;
input [11:0] imem_init_size;
input [1:0] dmem_dump_type;
integer i;
reg [127:0] tmp;
reg [31:0] status;
begin
dmem_dump_error = 0;
`ifdef REALITY_RSP_REGRESSION
// for (i=0; i<1024; i= i+1) $display("core_0[%d]=%h", i, `rdram_0.core.core[i]);
total_tests = total_tests + 1;
if (MBUS) load_test_from_mbus(test_type);
else load_test_from_rdram(dmem_init_size, imem_init_size);
$display("clearing PC");
reality.r4200b_0.write_word('h408_0000, 3, 32'h0); //clear pc
$display("clearing halt,break");
reality.r4200b_0.write_word('h404_0010, 3, (single_step<<6) | 32'h5); //clear halt,break
if (single_step) `tr.SingleStep = 1;
$display("Starting Test");
@(posedge `CLK);
`tr.di_monitor_on = 1;
if (ctrace) `tr.test_on = 1;
if (single_step)
begin
`tr.EOT = 0;
while (!`tr.EOT)
begin
status = 0;
reality.r4200b_0.read_word('h404_0010, 3);
status = reality.r4200b_0.data[0];
`tr.EOT = TimeOut | `tr.trError | `tr.SingleStepError |
(status[1] & `tr.break_inst_seen);
if (!`tr.EOT & status[1])
reality.r4200b_0.write_word('h404_0010, 3, 32'h5); //clear halt,break
end
end
else
begin
status = 0;
while (!status[1] && TimeOut==0 && `tr.trError==0)
begin
reality.r4200b_0.read_word('h404_0010, 3);
repeat (50) @(posedge `CLK);
status = reality.r4200b_0.data[0];
end
end
if (!status[1]) // if break != 0
begin
$display("Setting Halt");
reality.r4200b_0.write_word('h404_0010, 3, 32'h2); //set halt
end
`else
if (random_dma_mode)
begin
$fwrite(rsp_random_dma.fp,"\ntime=%d,***** test %0s starts *****\n", $time, test_name);
`tr.eval_dmem_wr_flag(rsp_random_dma.dmem_wr_flag);
//$display("dmem_wr_flag = %h",rsp_random_dma.dmem_wr_flag);
end
if (test_type==2'b10)
begin
`tr.random = 1;
init_su_reg;
init_vu_reg;
end
else
`tr.random = 0;
for (i = 0; i<256; i=i+1)
begin
temp = mem[i];
`DMEM15[i] = temp[127:120];
`DMEM14[i] = temp[119:112];
`DMEM13[i] = temp[111:104];
`DMEM12[i] = temp[103:96];
`DMEM11[i] = temp[95:88];
`DMEM10[i] = temp[87:80];
`DMEM9[i] = temp[79:72];
`DMEM8[i] = temp[71:64];
`DMEM7[i] = temp[63:56];
`DMEM6[i] = temp[55:48];
`DMEM5[i] = temp[47:40];
`DMEM4[i] = temp[39:32];
`DMEM3[i] = temp[31:24];
`DMEM2[i] = temp[23:16];
`DMEM1[i] = temp[15:8];
`DMEM0[i] = temp[7:0];
end
total_tests = total_tests + 1;
if (single_step)
begin
`tr.SingleStep = 1;
write_status(7'h40); //Set single Step
end
else
`tr.SingleStep = 0;
@(posedge `CLK);
`tr.di_monitor_on = 1;
if (ctrace) `tr.test_on = 1;
write_pc(12'h0); //clear PC
write_status(6'h5); //clear Broke, Halt
wait (`Halt === 1'b0);
wait (`Break === 1'b0);
if (random_dma_mode) rsp_random_dma.random_dma_on = 1;
if (single_step)
begin
`tr.EOT = 0;
while (!`tr.EOT)
begin
wait (`Break===1'b1 |
TimeOut |
`tr.trError |
`tr.RandomDone |
`tr.SingleStepError
);
`tr.EOT = TimeOut | `tr.trError | `tr.RandomDone | `tr.SingleStepError |
(`Break==1'b1 & `tr.break_inst_seen);
if (!`tr.EOT) begin
write_status(6'h5); //clear Broke, Halt;
wait (`Halt === 1'b0);
wait (`Break === 1'b0);
end
end
end
else
wait (`Break===1'b1 |
TimeOut |
`tr.trError |
`tr.RandomDone
);
if (`Break===1'b0)
write_status(6'h2);
else
@(posedge `CLK);
`endif
@(posedge `CLK);
@(posedge `CLK);
@(posedge `CLK); `tr.test_on = 0; `tr.di_monitor_on = 0;
`ifdef REALITY_RSP_REGRESSION
`else
if (random_dma_mode)
begin
rsp_random_dma.random_dma_on = 0;
@(posedge `CLK);
wait (rsp_random_dma.in_the_loop == 0);
$fwrite(rsp_random_dma.fp,"\ntime=%d, ******* test %0s ends ********\n", $time, test_name);
end
`endif
@(posedge `CLK);
@(posedge `CLK);
`ifdef REALITY_RSP_REGRESSION
if (!test_type[1])
begin
dump_dmem_top_rdram(dmem_dump_type);
compare_dmem_image(dmem_dump_type);
if (MBUS) read_dmemINrdram_via_mbus;
end
//else if (test_type == 2'b11 && MBUS)
else if (test_type == 2'b11)
begin
$display($time," START: Reading first 32 words DMEM words via MBUS");
for (i=0; i<32; i= i+1)
begin
reality.r4200b_0.read_word(('h400_0000+(i*4)), 3);
$display(" Word[%2d] = %h",i,reality.r4200b_0.data[0]);
end
$display("DONE: Reading first 32 words DMEM words via MBUS");
end
`endif
temp[31:0] = `r1;
if (test_type==2'b00) $fwrite(fp,"(VU test): ");
else if (test_type==2'b01) $fwrite(fp,"(SU test): ");
else if (test_type==2'b10) $fwrite(fp,"(Random test): ");
else $fwrite(fp,"(DMA test): ");
if (TimeOut)
begin
$fwrite(fp,"%0s \t FAILED... \t **TIME_OUT** \t\t Time=%0d \n",test_name,$time);
failed_tests = failed_tests + 1;
end
else
if (`tr.SingleStepError)
begin
$fwrite(fp,"%0s \t FAILED... \t **Single Step Error** \t\t Time=%0d \n",test_name,$time);
failed_tests = failed_tests + 1;
end
else
if (`tr.trError || `tr.trError_eot)
begin
$fwrite(fp,"%0s \t FAILED... \t **TRACE_ERROR** \t\t Time=%0d \n",test_name,$time);
failed_tests = failed_tests + 1;
end
else
if (`Halt==0)
begin
$fwrite(fp,"%0s \t FAILED... \t **Halt is not SET** \t\t Time=%0d \n",test_name,$time);
failed_tests = failed_tests + 1;
end
else
if (dmem_dump_error)
begin
$fwrite(fp,"%0s \t FAILED... \t **DMEM dump image missmatch** \t\t Time=%0d \n",test_name,$time);
failed_tests = failed_tests + 1;
end
else
if ( test_type==2'b00 && `r31 === 32'hdeadbeef) // VU tests
begin
$fwrite(fp,"%0s \t FAILED... \t TestNum = %d \t\t Time=%0d \n",test_name,`r30,$time);
failed_tests = failed_tests + 1;
end
else
if (test_type[0] && (temp & 32'hff00ffff)===32'h0) // SU tests
begin
$fwrite(fp,"%0s \t FAILED... \t TestNum=%d \t\t Time=%0d \n",test_name,temp[24:16],$time);
failed_tests = failed_tests + 1;
end
else
if ( test_type==2'b00 && `r31 !== 32'hfeed0000) // VU tests
begin
$fwrite(fp,"%0s \t FAILED... \t **Bizzare** \t R31=%h \tTime=%0d \n",test_name,`r31,$time);
failed_tests = failed_tests + 1;
end
else
if (test_type[0] && (temp[31:0] !== 32'hfeed0000 && temp[31:0] !== 32'hfeed) ) // SU tests
begin
$fwrite(fp,"%0s \t FAILED... \t **Bizzare** \t R1=%d \t Time=%0d \n",test_name,temp[15:0],$time);
failed_tests = failed_tests + 1;
end
else
begin
$fwrite(fp,"%0s \t Passed.. \t Total_Cycles=%d \t\t Time=%0d \n", test_name,cycle_count_save,$time);
//$display("%0s \t Passed.. (SU_inst=%d, VU_inst=%d, Dual_Issued_inst=%d)\n",
// test_name,`tr.su_inst_cnt,`tr.vu_inst_cnt,`tr.di_inst_cnt);
passed_tests = passed_tests + 1;
end
TimeOut = 0;
`tr.SingleStep = 0;
@(posedge `CLK);
`ifdef REALITY_RSP_REGRESSION
`else
if (eod_rst)
begin
rspWrap.reset_l = 0;
@(posedge `CLK);
@(posedge `CLK);
@(posedge `CLK);
rspWrap.reset_l = 1;
@(posedge `CLK);
@(posedge `CLK);
end
`endif
end
endtask