//////////////////////////////////////////////////////////////////////////////// // // // This file is placed into the Public Domain, for any use, without warranty. // // 2012 by Iztok Jeras // // // //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// // // // This testbench contains a bus source and a bus drain. The source creates // // address and data bus values, while the drain is the final destination of // // such pairs. All source and drain transfers are logged into memories, which // // are used at the end of simulation to check for data transfer correctness. // // Inside the RLT wrapper there is a multiplexer and a demultiplexer, they // // bus transfers into a 8bit data stream and back. Both stream input and // // output are exposed, they are connected together into a loopback. // // // // ----------- --------------------- // // | bso_mem | | wrap | // // ----------- | | // // ----------- | | ----------- | // // | bsi src | ------------> | -> | mux | -> | -> - sto // // ----------- | ----------- | \ // // | | | loopback // // ----------- | ----------- | / // // | bso drn | <------------ | <- | demux | <- | <- - sti // // ----------- | | ----------- | // // ----------- | | // // | bso_mem | | | // // ----------- --------------------- // // // // PROTOCOL: // // // // The 'vld' signal is driven by the source to indicate valid data is // // available, 'rdy' is used by the drain to indicate is is ready to accept // // valid data. A data transfer only happens if both 'vld' & 'rdy' are active. // // // //////////////////////////////////////////////////////////////////////////////// `timescale 1ns/1ps // include RTL files `include "t_sv_bus_mux_demux/sv_bus_mux_demux_def.sv" `include "t_sv_bus_mux_demux/sv_bus_mux_demux_demux.sv" `include "t_sv_bus_mux_demux/sv_bus_mux_demux_mux.sv" `include "t_sv_bus_mux_demux/sv_bus_mux_demux_wrap.sv" module t (/*AUTOARG*/ // Inputs clk ); input clk; parameter SIZ = 10; // system signals //logic clk = 1'b1; // clock logic rst = 1'b1; // reset integer rst_cnt = 0; // input bus logic bsi_vld; // valid (chip select) logic [31:0] bsi_adr; // address logic [31:0] bsi_dat; // data logic bsi_rdy; // ready (acknowledge) logic bsi_trn; // data transfer logic [31:0] bsi_mem [SIZ]; // output stream logic sto_vld; // valid (chip select) logic [7:0] sto_bus; // data bus logic sto_rdy; // ready (acknowledge) // input stream logic sti_vld; // valid (chip select) logic [7:0] sti_bus; // data bus logic sti_rdy; // ready (acknowledge) // output bus logic bso_vld; // valid (chip select) logic [31:0] bso_adr; // address logic [31:0] bso_dat; // data logic bso_rdy; // ready (acknowledge) logic bso_trn; // data transfer logic [31:0] bso_mem [SIZ]; integer bso_cnt = 0; //////////////////////////////////////////////////////////////////////////////// // clock and reset //////////////////////////////////////////////////////////////////////////////// // clock toggling //always #5 clk = ~clk; // reset is removed after a delay always @ (posedge clk) begin rst_cnt <= rst_cnt + 1; rst <= rst_cnt <= 3; end // reset is removed after a delay always @ (posedge clk) if (bso_cnt == SIZ) begin if (bsi_mem === bso_mem) begin $write("*-* All Finished *-*\n"); $finish(); end else begin $display ("FAILED"); $stop(); end end //////////////////////////////////////////////////////////////////////////////// // input data generator //////////////////////////////////////////////////////////////////////////////// // input data transfer assign bsi_trn = bsi_vld & bsi_rdy; // valid (for SIZ transfers) always @ (posedge clk, posedge rst) if (rst) bsi_vld = 1'b0; else bsi_vld = (bsi_adr < SIZ); // address (increments every transfer) always @ (posedge clk, posedge rst) if (rst) bsi_adr <= 32'h00000000; else if (bsi_trn) bsi_adr <= bsi_adr + 'd1; // data (new random value generated after every transfer) always @ (posedge clk, posedge rst) if (rst) bsi_dat <= 32'h00000000; else if (bsi_trn) bsi_dat <= $random(); // storing transferred data into memory for final check always @ (posedge clk) if (bsi_trn) bsi_mem [bsi_adr] <= bsi_dat; //////////////////////////////////////////////////////////////////////////////// // RTL instance //////////////////////////////////////////////////////////////////////////////// sv_bus_mux_demux_wrap wrap ( // system signals .clk (clk), .rst (rst), // input bus .bsi_vld (bsi_vld), .bsi_adr (bsi_adr), .bsi_dat (bsi_dat), .bsi_rdy (bsi_rdy), // output stream .sto_vld (sto_vld), .sto_bus (sto_bus), .sto_rdy (sto_rdy), // input stream .sti_vld (sti_vld), .sti_bus (sti_bus), .sti_rdy (sti_rdy), // output bus .bso_vld (bso_vld), .bso_adr (bso_adr), .bso_dat (bso_dat), .bso_rdy (bso_rdy) ); // stream output from mux is looped back into stream input for demux assign sti_vld = sto_vld; assign sti_bus = sto_bus; assign sto_rdy = sti_rdy; //////////////////////////////////////////////////////////////////////////////// // output data monitor //////////////////////////////////////////////////////////////////////////////// // input data transfer assign bso_trn = bso_vld & bso_rdy; // output transfer counter used to end the test always @ (posedge clk, posedge rst) if (rst) bso_cnt <= 0; else if (bso_trn) bso_cnt <= bso_cnt + 1; // storing transferred data into memory for final check always @ (posedge clk) if (bso_trn) bso_mem [bso_adr] <= bso_dat; // every output transfer against expected value stored in memory always @ (posedge clk) if (bso_trn && (bsi_mem [bso_adr] !== bso_dat)) $display ("@%08h i:%08h o:%08h", bso_adr, bsi_mem [bso_adr], bso_dat); // ready is active for SIZ transfers always @ (posedge clk, posedge rst) if (rst) bso_rdy = 1'b0; else bso_rdy = 1'b1; endmodule : sv_bus_mux_demux_tb