module TB(input clk); parameter ADDRESS_WIDTH = 10; parameter ADDRESS_WIDTH_A = ADDRESS_WIDTH; parameter ADDRESS_WIDTH_B = ADDRESS_WIDTH; parameter DATA_WIDTH = 36; parameter DATA_WIDTH_A = DATA_WIDTH; parameter DATA_WIDTH_B = DATA_WIDTH; parameter VECTORLEN = 16; parameter SHIFT_VAL = 0; localparam MAX_WIDTH = 36; reg rce_a_testvector [VECTORLEN-1:0]; reg [ADDRESS_WIDTH_A-1:0] ra_a_testvector [VECTORLEN-1:0]; reg [MAX_WIDTH-1:0] rq_a_expected [VECTORLEN-1:0]; reg wce_a_testvector [VECTORLEN-1:0]; reg [ADDRESS_WIDTH_A-1:0] wa_a_testvector [VECTORLEN-1:0]; reg [DATA_WIDTH_A-1:0] wd_a_testvector [VECTORLEN-1:0]; reg rce_b_testvector [VECTORLEN-1:0]; reg [ADDRESS_WIDTH_B-1:0] ra_b_testvector [VECTORLEN-1:0]; reg [MAX_WIDTH-1:0] rq_b_expected [VECTORLEN-1:0]; reg wce_b_testvector [VECTORLEN-1:0]; reg [ADDRESS_WIDTH_B-1:0] wa_b_testvector [VECTORLEN-1:0]; reg [DATA_WIDTH_B-1:0] wd_b_testvector [VECTORLEN-1:0]; reg [$clog2(VECTORLEN)-1:0] i = 0; integer j; initial begin for (j = 0; j < VECTORLEN; j = j + 1) begin rce_a_testvector[j] = 1'b0; ra_a_testvector[j] = 10'h0; wce_a_testvector[j] = 1'b0; wa_a_testvector[j] = 10'h0; rce_b_testvector[j] = 1'b0; ra_b_testvector[j] = 10'h0; wce_b_testvector[j] = 1'b0; wa_b_testvector[j] = 10'h0; end `MEM_TEST_VECTOR end wire rce_a = rce_a_testvector[i]; wire [ADDRESS_WIDTH_A-1:0] ra_a = ra_a_testvector[i]; wire [MAX_WIDTH-1:0] rq_a_e = rq_a_expected[i]; wire [DATA_WIDTH_A-1:0] rq_a; wire wce_a = wce_a_testvector[i]; wire [ADDRESS_WIDTH_A-1:0] wa_a = wa_a_testvector[i]; wire [DATA_WIDTH_A-1:0] wd_a = wd_a_testvector[i]; wire rce_b = rce_b_testvector[i]; wire [ADDRESS_WIDTH_B-1:0] ra_b = ra_b_testvector[i]; wire [MAX_WIDTH-1:0] rq_b_e = rq_b_expected[i]; wire [DATA_WIDTH_B-1:0] rq_b; wire wce_b = wce_b_testvector[i]; wire [ADDRESS_WIDTH_B-1:0] wa_b = wa_b_testvector[i]; wire [DATA_WIDTH_B-1:0] wd_b = wd_b_testvector[i]; `UUT_SUBMODULE always @(posedge clk) begin if (i < VECTORLEN-1) begin if (i > 0) begin if($past(rce_a)) assert(rq_a == rq_a_e); if($past(rce_b)) assert(rq_b == rq_b_e); end i <= i + 1; end end endmodule