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fast_counter_tb.sv
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fast_counter_tb.sv
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//------------------------------------------------------------------------------
// main_tb.sv
// Konstantin Pavlov, pavlovconst@gmail.com
//------------------------------------------------------------------------------
// INFO ------------------------------------------------------------------------
// Testbench for fast_counter.sv
// use this define to make some things differently in simulation
`define SIMULATION yes
`timescale 1ns / 1ps
module fast_counter_tb();
logic clk200;
initial begin
#0 clk200 = 1'b0;
forever
#2.5 clk200 = ~clk200;
end
// external device "asynchronous" clock
logic clk33;
initial begin
#0 clk33 = 1'b0;
forever
#15.151 clk33 = ~clk33;
end
logic rst;
initial begin
#0 rst = 1'b0;
#10.2 rst = 1'b1;
#5 rst = 1'b0;
//#10000;
forever begin
#9985 rst = ~rst;
#5 rst = ~rst;
end
end
logic nrst;
assign nrst = ~rst;
logic rst_once;
initial begin
#0 rst_once = 1'b0;
#10.2 rst_once = 1'b1;
#5 rst_once = 1'b0;
end
logic nrst_once;
assign nrst_once = ~rst_once;
logic [31:0] DerivedClocks;
clk_divider #(
.WIDTH( 32 )
) cd1 (
.clk( clk200 ),
.nrst( nrst_once ),
.ena( 1'b1 ),
.out( DerivedClocks[31:0] )
);
logic [31:0] E_DerivedClocks;
edge_detect ed1[31:0] (
.clk( {32{clk200}} ),
.nrst( {32{nrst_once}} ),
.in( DerivedClocks[31:0] ),
.rising( E_DerivedClocks[31:0] ),
.falling( ),
.both( )
);
logic [31:0] RandomNumber1;
c_rand rng1 (
.clk( clk200 ),
.rst( 1'b0 ),
.reseed( rst_once ),
.seed_val( DerivedClocks[31:0] ^ (DerivedClocks[31:0] << 1) ),
.out( RandomNumber1[15:0] )
);
c_rand rng2 (
.clk( clk200 ),
.rst( 1'b0 ),
.reseed( rst_once ),
.seed_val( DerivedClocks[31:0] ^ (DerivedClocks[31:0] << 2) ),
.out( RandomNumber1[31:16] )
);
logic start;
initial begin
#0 start = 1'b0;
#100 start = 1'b1;
#20 start = 1'b0;
end
// Module under test ==========================================================
logic inc = 1'b0;
logic dec = 1'b0;
logic set = 1'b0;
logic [7:0] seq_cntr = '0;
always_ff @(posedge clk200) begin
if( ~nrst_once ) begin
seq_cntr[7:0] <= '0;
end else begin
seq_cntr[7:0] <= seq_cntr[7:0] + 1'b1;
end
/* if( seq_cntr[7:0]>5 ) begin
inc = 1'b1;
end else begin
inc = 1'b0;
end*/
if( seq_cntr[7:0]>5 ) begin
dec = 1'b1;
end else begin
dec = 1'b0;
end
if( seq_cntr[7:0]==5 ) begin
set = 1'b1;
end else begin
set = 1'b0;
end
end
`define WIDTH 14
logic [`WIDTH-1:0] q;
fast_counter #(
.WIDTH( `WIDTH )
) fc (
.clk( clk200 ),
.nrst( nrst_once ),
.inc( inc ),
.dec( dec ),
.set( set ),
.set_val( RandomNumber1[`WIDTH-1:0] ),
.q( q[`WIDTH-1:0] ),
.q_is_zero( )
);
logic [`WIDTH-1:0] q_d1 = '0;
always_ff @(posedge clk200) begin
if( ~nrst_once ) begin
q_d1[`WIDTH-1:0] <= '0;
end else begin
q_d1[`WIDTH-1:0] <= q[`WIDTH-1:0];
end
end
logic success_dec;
assign success_dec = (q_d1[`WIDTH-1:0] == (q[`WIDTH-1:0]+1'b1));
logic success_inc;
assign success_inc = (q_d1[`WIDTH-1:0] == (q[`WIDTH-1:0]-1'b1));
endmodule