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module testbench(
input clk, mem_ready_0, mem_ready_1,
input [31:0] mem_rdata
);
// set this to 1 to test generation of counterexamples
localparam ENABLE_COUNTERS = 0;
reg resetn = 0;
always @(posedge clk) resetn <= 1;
(* keep *) wire trap_0, trace_valid_0, mem_valid_0, mem_instr_0;
(* keep *) wire [3:0] mem_wstrb_0;
(* keep *) wire [31:0] mem_addr_0, mem_wdata_0, mem_rdata_0;
(* keep *) wire [35:0] trace_data_0;
(* keep *) wire trap_1, trace_valid_1, mem_valid_1, mem_instr_1;
(* keep *) wire [3:0] mem_wstrb_1;
(* keep *) wire [31:0] mem_addr_1, mem_wdata_1, mem_rdata_1;
(* keep *) wire [35:0] trace_data_1;
reg [31:0] last_mem_rdata;
assign mem_rdata_0 = mem_rdata;
assign mem_rdata_1 = mem_rdata;
wire mem_xfer_0 = resetn && mem_valid_0 && mem_ready_0;
wire mem_xfer_1 = resetn && mem_valid_1 && mem_ready_1;
reg [1:0] cmp_mem_state = 0;
reg [31:0] cmp_mem_addr;
reg [31:0] cmp_mem_wdata;
reg [3:0] cmp_mem_wstrb;
always @* begin
if (mem_valid_0 == 0)
assume(!mem_ready_0 == 0);
if (mem_valid_1 == 0)
assume(mem_ready_1 == 0);
end
always @(posedge clk) begin
if (cmp_mem_state)
assume(last_mem_rdata == mem_rdata);
last_mem_rdata <= mem_rdata;
end
always @(posedge clk) begin
case (cmp_mem_state)
2'b 00: begin
case ({mem_xfer_1, mem_xfer_0})
2'b 11: begin
assert(mem_addr_0 == mem_addr_1);
assert(mem_wstrb_0 == mem_wstrb_1);
if (mem_wstrb_0[3]) assert(mem_wdata_0[31:24] == mem_wdata_1[31:24]);
if (mem_wstrb_0[2]) assert(mem_wdata_0[23:16] == mem_wdata_1[23:16]);
if (mem_wstrb_0[1]) assert(mem_wdata_0[15: 8] == mem_wdata_1[15: 8]);
if (mem_wstrb_0[0]) assert(mem_wdata_0[ 7: 0] == mem_wdata_1[ 7: 0]);
end
2'b 01: begin
cmp_mem_state <= 2'b 01;
cmp_mem_addr <= mem_addr_0;
cmp_mem_wdata <= mem_wdata_0;
cmp_mem_wstrb <= mem_wstrb_0;
end
2'b 10: begin
cmp_mem_state <= 2'b 10;
cmp_mem_addr <= mem_addr_1;
cmp_mem_wdata <= mem_wdata_1;
cmp_mem_wstrb <= mem_wstrb_1;
end
endcase
end
2'b 01: begin
assume(!mem_xfer_0);
if (mem_xfer_1) begin
cmp_mem_state <= 2'b 00;
assert(cmp_mem_addr == mem_addr_1);
assert(cmp_mem_wstrb == mem_wstrb_1);
if (cmp_mem_wstrb[3]) assert(cmp_mem_wdata[31:24] == mem_wdata_1[31:24]);
if (cmp_mem_wstrb[2]) assert(cmp_mem_wdata[23:16] == mem_wdata_1[23:16]);
if (cmp_mem_wstrb[1]) assert(cmp_mem_wdata[15: 8] == mem_wdata_1[15: 8]);
if (cmp_mem_wstrb[0]) assert(cmp_mem_wdata[ 7: 0] == mem_wdata_1[ 7: 0]);
end
end
2'b 10: begin
assume(!mem_xfer_1);
if (mem_xfer_0) begin
cmp_mem_state <= 2'b 00;
assert(cmp_mem_addr == mem_addr_0);
assert(cmp_mem_wstrb == mem_wstrb_0);
if (cmp_mem_wstrb[3]) assert(cmp_mem_wdata[31:24] == mem_wdata_0[31:24]);
if (cmp_mem_wstrb[2]) assert(cmp_mem_wdata[23:16] == mem_wdata_0[23:16]);
if (cmp_mem_wstrb[1]) assert(cmp_mem_wdata[15: 8] == mem_wdata_0[15: 8]);
if (cmp_mem_wstrb[0]) assert(cmp_mem_wdata[ 7: 0] == mem_wdata_0[ 7: 0]);
end
end
endcase
end
reg [1:0] cmp_trace_state = 0;
reg [35:0] cmp_trace_data;
always @(posedge clk) begin
if (resetn) begin
case (cmp_trace_state)
2'b 00: begin
case ({trace_valid_1, trace_valid_0})
2'b 11: begin
assert(trace_data_0 == trace_data_1);
end
2'b 01: begin
cmp_trace_state <= 2'b 01;
cmp_trace_data <= trace_data_0;
end
2'b 10: begin
cmp_trace_state <= 2'b 10;
cmp_trace_data <= trace_data_1;
end
endcase
end
2'b 01: begin
assume(!trace_valid_0);
if (trace_valid_1) begin
cmp_trace_state <= 2'b 00;
assert(cmp_trace_data == trace_data_1);
end
end
2'b 10: begin
assume(!trace_valid_1);
if (trace_valid_0) begin
cmp_trace_state <= 2'b 00;
assert(cmp_trace_data == trace_data_0);
end
end
endcase
end
end
picorv32 #(
// do not change this settings
.ENABLE_COUNTERS(ENABLE_COUNTERS),
.ENABLE_TRACE(1),
// change this settings as you like
.ENABLE_REGS_DUALPORT(1),
.TWO_STAGE_SHIFT(0),
.BARREL_SHIFTER(0),
.TWO_CYCLE_COMPARE(0),
.TWO_CYCLE_ALU(0),
.COMPRESSED_ISA(1),
.ENABLE_MUL(0),
.ENABLE_DIV(0)
) cpu_0 (
.clk (clk ),
.resetn (resetn ),
.trap (trap_0 ),
.mem_valid (mem_valid_0 ),
.mem_instr (mem_instr_0 ),
.mem_ready (mem_ready_0 ),
.mem_addr (mem_addr_0 ),
.mem_wdata (mem_wdata_0 ),
.mem_wstrb (mem_wstrb_0 ),
.mem_rdata (mem_rdata_0 ),
.trace_valid (trace_valid_0),
.trace_data (trace_data_0 )
);
picorv32 #(
// do not change this settings
.ENABLE_COUNTERS(ENABLE_COUNTERS),
.ENABLE_TRACE(1),
// change this settings as you like
.ENABLE_REGS_DUALPORT(1),
.TWO_STAGE_SHIFT(1),
.BARREL_SHIFTER(0),
.TWO_CYCLE_COMPARE(0),
.TWO_CYCLE_ALU(0),
.COMPRESSED_ISA(1),
.ENABLE_MUL(0),
.ENABLE_DIV(0)
) cpu_1 (
.clk (clk ),
.resetn (resetn ),
.trap (trap_1 ),
.mem_valid (mem_valid_1 ),
.mem_instr (mem_instr_1 ),
.mem_ready (mem_ready_1 ),
.mem_addr (mem_addr_1 ),
.mem_wdata (mem_wdata_1 ),
.mem_wstrb (mem_wstrb_1 ),
.mem_rdata (mem_rdata_1 ),
.trace_valid (trace_valid_1),
.trace_data (trace_data_1 )
);
endmodule
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