FPGAExercise6code: Difference between revisions
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== Shift Register == | == Shift Register == | ||
<pre> | |||
//filename sr.v | //filename sr.v | ||
`include "timescale.v" | `include "timescale.v" | ||
| Line 30: | Line 22: | ||
always@(posedge clk) | always@(posedge clk) | ||
if(rst) | if(rst) | ||
Q_regs | Q_regs <= #TP 0; //This is a comment | ||
else | else | ||
Q_regs | Q_regs <= #TP {Q_regs[Ndepth-2:0],D}; | ||
endmodule | endmodule | ||
</pre> | |||
== Shift Register Testbench == | == Shift Register Testbench == | ||
<pre> | |||
// | // | ||
// filename sr_tb.v | // filename sr_tb.v | ||
| Line 144: | Line 136: | ||
endmodule | endmodule | ||
</pre> | |||
== Linear Feedback Shift Register == | == Linear Feedback Shift Register == | ||
<pre> | |||
module lfsr(Q, Q_regs, clk, rst); | module lfsr(Q, Q_regs, clk, rst); | ||
// x^5+x^3+1 | // x^5+x^3+1 | ||
| Line 159: | Line 151: | ||
always@(posedge clk) | always@(posedge clk) | ||
if(rst) | if(rst) | ||
Q_regs | Q_regs<= #Tp 5'b1; | ||
else | else | ||
Q_regs | Q_regs<= #Tp {Q_regs[3], Q_regs[2], Q_regs[1], Q_regs[0], Q_regs[4]^Q_regs[2]}; | ||
endmodule | endmodule | ||
</pre> | |||
== LFSR Testbench == | == LFSR Testbench == | ||
<pre> | |||
// | // | ||
// Exercise 6 | // Exercise 6 | ||
| Line 255: | Line 247: | ||
endmodule | endmodule | ||
</pre> | |||
== Timescale == | == Timescale == | ||
<pre> | |||
// | // | ||
// filename timescale.v | // filename timescale.v | ||
// | // | ||
`timescale 1ns / 10ps | `timescale 1ns / 10ps | ||
</pre> | |||
[[Category:FPGAWorkshop]] | [[Category:FPGAWorkshop]] | ||
Latest revision as of 06:24, 24 November 2010
Shift Register
//filename sr.v
`include "timescale.v"
module sr(D, Q, Q_regs, clk, rst);
parameter Ndepth=4;
parameter TP=1;
input D, clk, rst;
output Q;
output [Ndepth-1:0] Q_regs;
reg [Ndepth-1:0] Q_regs;
assign Q = Q_regs[Ndepth-1];
/* This is a comment block
Hi Elliot
This works fine! */
always@(posedge clk)
if(rst)
Q_regs <= #TP 0; //This is a comment
else
Q_regs <= #TP {Q_regs[Ndepth-2:0],D};
endmodule
Shift Register Testbench
//
// filename sr_tb.v
//
// Exercise 6
// FPGA Workshop - HacDC
// Group think
//
`include "timescale.v"
module sr_tb();
// Parameters
parameter CLKPERIOD = 20; // 50Mhz w/ 1ns time increments
parameter FINISHTIME = 1000;
// DUT INPUTS
reg D;
reg clk;
reg rst;
// DUT OUTPUTS
wire Q;
wire [3:0] Q_regs;
// Misc
reg finish;
// Event defitions
event reset;
// DUT Instantiation
// shift(.D(), .Q(), .Q_regs(), .clk(), .rst());
sr DUT(.D(D),
.Q(Q),
.Q_regs(Q_regs),
.clk(clk),
.rst(rst));
// --------
// Stimulus
// --------
// Clk Generation
always
#(CLKPERIOD/2) clk = ~clk;
// Initial Conditions
initial
begin
D = 0;
rst = 0;
clk = 1;
finish = 0;
// Wait to end the simulation
#FINISHTIME
$display("=============================");
$display("I'm done now!");
$display("Finished at time %5d", $time);
$finish;
end
// Inputs
initial
begin
#1 -> reset; //event calls like to occur after some
//period of time
wait(finish);
finish = 0;
repeat (5)
#CLKPERIOD;
D=1;
wait (Q);
#CLKPERIOD
D=1;
#CLKPERIOD
D=0;
#CLKPERIOD
D=1;
#CLKPERIOD
D=0;
repeat (5)
#CLKPERIOD;
$display("================");
$display("End of Stimulus");
$display("Finishing at time %5d", $time);
$finish;
end
// Event defitions
always @(reset)
begin
$display ("Resetting the Registers");
#(CLKPERIOD/2) rst = 1;
#CLKPERIOD rst = 0;
finish = 1;
end
// Monitor
initial
begin
$dumpfile ("waves.lxt");
$dumpvars(0,sr_tb);
end
endmodule
Linear Feedback Shift Register
module lfsr(Q, Q_regs, clk, rst);
// x^5+x^3+1
parameter N=5;
parameter Tp=1;
input clk, rst;
output Q;
output [N-1:0]
Q_regs; reg [N-1:0] Q_regs;
assign Q = Q_regs[0];
always@(posedge clk)
if(rst)
Q_regs<= #Tp 5'b1;
else
Q_regs<= #Tp {Q_regs[3], Q_regs[2], Q_regs[1], Q_regs[0], Q_regs[4]^Q_regs[2]};
endmodule
LFSR Testbench
//
// Exercise 6
// FPGA Workshop - HacDC
// Group think
//
`include "timescale.v"
module lfsr_tb();
// Parameters
parameter CLKPERIOD = 20; // 50Mhz w/ 1ns time increments
parameter FINISHTIME = 2*1000;
// DUT INPUTS
reg clk;
reg rst;
// DUT OUTPUTS
wire Q;
wire [4:0] Q_regs;
// Misc
reg finish;
// Event defitions
event reset;
// DUT Instantiation
// lfsr(.Q(), .Q_regs(), .clk(), .rst());
lfsr DUT(.Q(Q),
.Q_regs(Q_regs),
.clk(clk),
.rst(rst));
// --------
// Stimulus
// --------
// Clk Generation
always
#(CLKPERIOD/2) clk = ~clk;
// Initial Conditions
initial
begin
rst = 0;
clk = 1;
finish = 0;
// Wait to end the simulation
#FINISHTIME
$display("=============================");
$display("I'm done now!");
$display("Finished at time %5d", $time);
$finish;
end
// Inputs
initial
begin
#1 -> reset; //event calls like to occur after some
//period of time
wait(finish);
finish = 0;
repeat (62)
#CLKPERIOD;
$display("================");
$display("End of Stimulus");
$display("Finishing at time %5d", $time);
$finish;
end
// Event defitions
always @(reset)
begin
$display ("Resetting the Registers");
#(CLKPERIOD/2) rst = 1;
#CLKPERIOD rst = 0;
finish = 1;
end
// Monitor
initial
begin
$dumpfile ("waves.lxt");
$dumpvars(0,lfsr_tb);
end
endmodule
Timescale
// // filename timescale.v // `timescale 1ns / 10ps