//-------------------------------------------------------------------------------- // SimWrapper.v // Konstantin Pavlov, pavlovconst@gmail.com //-------------------------------------------------------------------------------- // INFO -------------------------------------------------------------------------------- // // `timescale 1ns / 1ps module SimWrapper(); reg clk200; initial begin #0 clk200 = 1; forever #2.5 clk200 = ~clk200; end reg rst; initial begin #10.2 rst = 1; #5 rst = 0; //#10000; forever begin #9985 rst = ~rst; #5 rst = ~rst; end end wire nrst = ~rst; reg rst_once; initial begin // initializing non-X data before PLL starts #10.2 rst_once = 1; #5 rst_once = 0; end initial begin #510.2 rst_once = 1; // PLL starts at 500ns, clock appears, so doing the reset for modules #5 rst_once = 0; end wire nrst_once = ~rst_once; wire [31:0] DerivedClocks; ClkDivider CD1 ( .clk(clk200), .nrst(nrst_once), .out(DerivedClocks[31:0])); defparam CD1.WIDTH = 32; wire [31:0] E_DerivedClocks; EdgeDetect ED1 ( .clk(clk200), .nrst(nrst_once), .in(DerivedClocks[31:0]), .rising(E_DerivedClocks[31:0]), .falling(), .both() ); defparam ED1.WIDTH = 32; wire [15:0] RandomNumber1; c_rand RNG1 ( .clk(clk200), .rst(rst_once), .reseed(1'b0), .seed_val(DerivedClocks[31:0]), .out(RandomNumber1[15:0])); reg start; initial begin #100.2 start = 1; #5 start = 0; end reg [7:0] tx_sample_cntr = 0; always @ (posedge clk200) begin if (tx_sample_cntr[7:0] == 0) begin tx_sample_cntr[7:0] <= (173-1); end else begin tx_sample_cntr[7:0] <= tx_sample_cntr[7:0] - 1; end end wire tx_do_sample = (tx_sample_cntr[7:0] == 0); wire txd_pin; wire txbusy_pin; UartTxExtreme UT1 ( .clk(clk200), .tx_do_sample(tx_do_sample), .tx_data(RandomNumber1[7:0]), .tx_start(start), .tx_busy(txbusy_pin), .txd(txd_pin) ); UartRxExtreme UR1 ( .clk(clk200), .rx_data(), .rx_busy(), .rx_done(), .rxd(txd_pin) ); endmodule