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8bitworkshop/test/cli/verilog/t_clk_latchgate.v
2017-11-22 09:44:57 -05:00

179 lines
4.7 KiB
Verilog

// DESCRIPTION: Verilator: Verilog Test module
//
// This file ONLY is placed into the Public Domain, for any use,
// without warranty, 2010 by Wilson Snyder.
//
// --------------------------------------------------------
// Bug Description:
//
// Issue: The gated clock gclk_vld[0] toggles but dvld[0]
// input to the flop does not propagate to the output
// signal entry_vld[0] correctly. The value that propagates
// is the new value of dvld[0] not the one just before the
// posedge of gclk_vld[0].
// --------------------------------------------------------
// Define to see the bug with test failing with gated clock 'gclk_vld'
// Comment out the define to see the test passing with ungated clock 'clk'
`define GATED_CLK_TESTCASE 1
// A side effect of the problem is this warning, disabled by default
//verilator lint_on IMPERFECTSCH
// Test Bench
module t (/*AUTOARG*/
// Inputs
clk
);
input clk;
integer cyc=0;
reg [63:0] crc;
// Take CRC data and apply to testblock inputs
wire [7:0] dvld = crc[7:0];
wire [7:0] ff_en_e1 = crc[15:8];
/*AUTOWIRE*/
// Beginning of automatic wires (for undeclared instantiated-module outputs)
wire [7:0] entry_vld; // From test of Test.v
wire [7:0] ff_en_vld; // From test of Test.v
// End of automatics
Test test (/*AUTOINST*/
// Outputs
.ff_en_vld (ff_en_vld[7:0]),
.entry_vld (entry_vld[7:0]),
// Inputs
.clk (clk),
.dvld (dvld[7:0]),
.ff_en_e1 (ff_en_e1[7:0]));
reg err_code;
reg ffq_clk_active;
reg [7:0] prv_dvld;
initial begin
err_code = 0;
ffq_clk_active = 0;
end
always @ (posedge clk) begin
prv_dvld = test.dvld;
end
always @ (negedge test.ff_entry_dvld_0.clk) begin
ffq_clk_active = 1;
if (test.entry_vld[0] !== prv_dvld[0]) err_code = 1;
end
// Test loop
always @ (posedge clk) begin
`ifdef TEST_VERBOSE
$write("[%0t] cyc==%0d crc=%x ",$time, cyc, crc);
$display(" en=%b fen=%b d=%b ev=%b",
test.flop_en_vld[0], test.ff_en_vld[0],
test.dvld[0], test.entry_vld[0]);
`endif
cyc <= cyc + 1;
crc <= {crc[62:0], crc[63]^crc[2]^crc[0]};
if (cyc<3) begin
crc <= 64'h5aef0c8d_d70a4497;
end
else if (cyc==99) begin
$write("[%0t] cyc==%0d crc=%x\n",$time, cyc, crc);
if (ffq_clk_active == 0) begin
$display ("----");
$display ("%%Error: TESTCASE FAILED with no Clock arriving at FFQs");
$display ("----");
$stop;
end
else if (err_code) begin
$display ("----");
$display ("%%Error: TESTCASE FAILED with invalid propagation of 'd' to 'q' of FFQs");
$display ("----");
$stop;
end
else begin
$write("*-* All Finished *-*\n");
$finish;
end
end
end
endmodule
module llq (clk, d, q);
parameter WIDTH = 32;
input clk;
input [WIDTH-1:0] d;
output [WIDTH-1:0] q;
reg [WIDTH-1:0] qr;
/* verilator lint_off COMBDLY */
always @(clk or d)
if (clk == 1'b0)
qr <= d;
/* verilator lint_on COMBDLY */
assign q = qr;
endmodule
module ffq (clk, d, q);
parameter WIDTH = 32;
input clk;
input [WIDTH-1:0] d;
output [WIDTH-1:0] q;
reg [WIDTH-1:0] qr;
always @(posedge clk)
qr <= d;
assign q = qr;
endmodule
// DUT module
module Test (/*AUTOARG*/
// Outputs
ff_en_vld, entry_vld,
// Inputs
clk, dvld, ff_en_e1
);
input clk;
input [7:0] dvld;
input [7:0] ff_en_e1;
output [7:0] ff_en_vld;
output wire [7:0] entry_vld;
wire [7:0] gclk_vld;
wire [7:0] ff_en_vld /*verilator clock_enable*/;
reg [7:0] flop_en_vld;
always @(posedge clk) flop_en_vld <= ff_en_e1;
// clock gating
`ifdef GATED_CLK_TESTCASE
assign gclk_vld = {8{clk}} & ff_en_vld;
`else
assign gclk_vld = {8{clk}};
`endif
// latch for avoiding glitch on the clock gating control
llq #(8) dp_ff_en_vld (.clk(clk), .d(flop_en_vld), .q(ff_en_vld));
// flops that use the gated clock signal
ffq #(1) ff_entry_dvld_0 (.clk(gclk_vld[0]), .d(dvld[0]), .q(entry_vld[0]));
ffq #(1) ff_entry_dvld_1 (.clk(gclk_vld[1]), .d(dvld[1]), .q(entry_vld[1]));
ffq #(1) ff_entry_dvld_2 (.clk(gclk_vld[2]), .d(dvld[2]), .q(entry_vld[2]));
ffq #(1) ff_entry_dvld_3 (.clk(gclk_vld[3]), .d(dvld[3]), .q(entry_vld[3]));
ffq #(1) ff_entry_dvld_4 (.clk(gclk_vld[4]), .d(dvld[4]), .q(entry_vld[4]));
ffq #(1) ff_entry_dvld_5 (.clk(gclk_vld[5]), .d(dvld[5]), .q(entry_vld[5]));
ffq #(1) ff_entry_dvld_6 (.clk(gclk_vld[6]), .d(dvld[6]), .q(entry_vld[6]));
ffq #(1) ff_entry_dvld_7 (.clk(gclk_vld[7]), .d(dvld[7]), .q(entry_vld[7]));
endmodule