`timescale 1ns/1ns module rx_frontend_tb(); reg clk, rst; initial rst = 1; initial #1000 rst = 0; initial clk = 0; always #5 clk = ~clk; initial $dumpfile("rx_frontend_tb.vcd"); initial $dumpvars(0,rx_frontend_tb); reg [15:0] adc_in; wire [23:0] adc_out; always @(posedge clk) begin if(adc_in[15]) $write("-%d,",-adc_in); else $write("%d,",adc_in); if(adc_out[23]) $write("-%d\n",-adc_out); else $write("%d\n",adc_out); end rx_frontend #(.BASE(0), .IQCOMP_EN(1)) rx_frontend (.clk(clk),.rst(rst), .set_stb(0),.set_addr(0),.set_data(0), .adc_a(adc_in), .adc_ovf_a(0), .adc_b(0), .adc_ovf_b(0), .i_out(adc_out),.q_out(), .run(), .debug()); always @(posedge clk) if(rst) adc_in <= 0; else adc_in <= adc_in + 4; //adc_in <= (($random % 473) + 23)/4; endmodule // rx_frontend_tb