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// SPDX-FileCopyrightText: 2020 Efabless Corporation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// SPDX-License-Identifier: Apache-2.0
`default_nettype none
`timescale 1 ns / 1 ps
`include "uprj_netlists.v"
`include "caravel_netlists.v"
`include "spiflash.v"
module wb_to_sram_tb;
reg clock;
reg RSTB;
reg CSB;
reg power1, power2;
reg power3, power4;
wire gpio;
wire [37:0] mprj_io;
wire [15:0] checkbits;
assign checkbits = mprj_io[31:16];
//assign mprj_io[3] = (CSB == 1'b1) ? 1'b1 : 1'bz;
assign mprj_io[7:0] = 8'b0000_0110;
// External clock is used by default. Make this artificially fast for the
// simulation. Normally this would be a slow clock and the digital PLL
// would be the fast clock.
always #12.5 clock <= (clock === 1'b0);
initial begin
clock = 0;
end
initial begin
$dumpfile("wb_to_sram.vcd");
$dumpvars(0, wb_to_sram_tb.uut.mprj);
// Repeat cycles of 1000 clock edges as needed to complete testbench
repeat (300) begin
repeat (1000) @(posedge clock);
$display("+1000 cycles");
end
$display("%c[1;31m",27);
`ifdef GL
$display ("Monitor: Timeout, Test Mega-Project WB Port (GL) Failed");
`else
$display ("Monitor: Timeout, Test Mega-Project WB Port (RTL) Failed");
`endif
$display("%c[0m",27);
$finish;
end
initial begin
wait(checkbits == 16'h AB60);
$display("Monitor: MPRJ-Logic WB Started");
wait(checkbits == 16'h AB61);
`ifdef GL
$display("Monitor: Mega-Project WB (GL) Passed");
`else
$display("Monitor: Mega-Project WB (RTL) Passed");
`endif
$finish;
end
initial begin
wait(checkbits == 16'h AB60);
//$display("Monitor: MPRJ-Logic WB Started");
wait(checkbits == 16'h AB62);
`ifdef GL
$display("Monitor: Mega-Project WB (GL) reading back Failed");
`else
$display("Monitor: Mega-Project WB (RTL) reading back Failed");
`endif
$finish;
end
initial begin
RSTB <= 1'b0;
CSB <= 1'b1; // Force CSB high
#2000;
RSTB <= 1'b1; // Release reset
#170000;
CSB = 1'b0; // CSB can be released
end
initial begin // Power-up sequence
power1 <= 1'b0;
power2 <= 1'b0;
power3 <= 1'b0;
power4 <= 1'b0;
#100;
power1 <= 1'b1;
#100;
power2 <= 1'b1;
#100;
power3 <= 1'b1;
#100;
power4 <= 1'b1;
end
always @(mprj_io) begin
#1 $display("MPRJ-IO state = %b ", mprj_io[7:0]);
end
wire flash_csb;
wire flash_clk;
wire flash_io0;
wire flash_io1;
wire VDD3V3 = power1;
wire VDD1V8 = power2;
wire USER_VDD3V3 = power3;
wire USER_VDD1V8 = power4;
wire VSS = 1'b0;
wire wclock =clock;
caravel uut (
.vddio (VDD3V3),
.vssio (VSS),
.vdda (VDD3V3),
.vssa (VSS),
.vccd (VDD1V8),
.vssd (VSS),
.vdda1 (USER_VDD3V3),
.vdda2 (USER_VDD3V3),
.vssa1 (VSS),
.vssa2 (VSS),
.vccd1 (USER_VDD1V8),
.vccd2 (USER_VDD1V8),
.vssd1 (VSS),
.vssd2 (VSS),
.clock (wclock),
.gpio (gpio),
.mprj_io (mprj_io),
.flash_csb(flash_csb),
.flash_clk(flash_clk),
.flash_io0(flash_io0),
.flash_io1(flash_io1),
.resetb (RSTB)
);
spiflash #(
.FILENAME("wb_to_sram.hex")
) spiflash (
.csb(flash_csb),
.clk(flash_clk),
.io0(flash_io0),
.io1(flash_io1),
.io2(), // not used
.io3() // not used
);
endmodule
`default_nettype wire