// tb_mlkem_kg_2e_xsim.v - Stage 2e: verify t_hat = e_hat + sum_j A[i][j]*s_hat[j]. // After ST_M, slots T0,T1 must hold that_0,that_1. // Golden: kg_c000_that.hex (2 polys x 256 = 512 lines, mod-q). `timescale 1ns/1ps module tb_mlkem_kg_2e_xsim; reg clk=0, rst_n=0, start_i=0; reg [255:0] d_i, z_i=0; wire busy_o, done_o; reg [3:0] dbg_slot_i=0; reg [7:0] dbg_idx_i=0; wire [11:0] dbg_coeff_o; wire [255:0] dbg_rho_o, dbg_sigma_o; mlkem_top #(.K(2)) dut ( .clk(clk), .rst_n(rst_n), .d_i(d_i), .z_i(z_i), .start_i(start_i), .busy_o(busy_o), .done_o(done_o), .dbg_slot_i(dbg_slot_i), .dbg_idx_i(dbg_idx_i), .dbg_coeff_o(dbg_coeff_o), .dbg_rho_o(dbg_rho_o), .dbg_sigma_o(dbg_sigma_o) ); always #5 clk = ~clk; localparam [255:0] D_LIT = 256'h2426f1941779574d3f1b163bd57f7e173e229e630ec7f7073bdf365137c4bb6d; reg [11:0] gold [0:511]; reg [3:0] slot_of [0:1]; // T0,T1 integer c, p, idx, errors, gi; initial begin $readmemh("sync_rtl/top/TB/vectors/kg_c000_that.hex", gold); slot_of[0]=4'd8; slot_of[1]=4'd9; d_i = D_LIT; rst_n=0; repeat(4) @(posedge clk); rst_n=1; @(posedge clk); start_i=1; @(posedge clk); start_i=0; c=0; while(!done_o && c<400000) begin @(posedge clk); c=c+1; end if(!done_o) begin $display("FAIL: timeout after %0d cyc", c); $finish; end $display("=== Stage 2e: t_hat = e_hat + sum A o s_hat === done in %0d cyc", c); errors = 0; for (p = 0; p < 2; p = p + 1) begin for (idx = 0; idx < 256; idx = idx + 1) begin dbg_slot_i = slot_of[p]; dbg_idx_i = idx[7:0]; @(posedge clk); @(posedge clk); gi = p*256 + idx; if (dbg_coeff_o !== gold[gi]) begin if (errors < 8) $display(" MISMATCH slot%0d[%0d]: got=%03x exp=%03x", slot_of[p], idx, dbg_coeff_o, gold[gi]); errors = errors + 1; end end end if (errors == 0) $display("ALL TESTS PASSED (512/512 t_hat coeffs)"); else $display("TESTS FAILED: %0d mismatches", errors); $finish; end initial begin #20000000; $display("FAIL: global timeout"); $finish; end endmodule