verilog/dv/striVe_mem/striVe_mem_tb.v - efabless/designs/strive - Git at Google

 /*
  *  StriVe - A full example SoC using PicoRV32 in SkyWater s8
  *
  *  Copyright (C) 2017  Clifford Wolf <clifford@clifford.at>
  *  Copyright (C) 2018  Tim Edwards <tim@efabless.com>
  *
  *  Permission to use, copy, modify, and/or distribute this software for any
  *  purpose with or without fee is hereby granted, provided that the above
  *  copyright notice and this permission notice appear in all copies.
  *
  *  THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
  *  WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
  *  MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
  *  ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
  *  WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
  *  ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
  *  OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
  *
  */

 `timescale 1 ns / 1 ps

 `include "striVe.v"
 `include "spiflash.v"

 module striVe_mem_tb;
 	reg XCLK;
 //	reg real VDD3V3;
 //	reg VDD3V3;
 	wire VDD3V3;
 	assign VDD3V3 = 1'b1;

 	reg XI;

 	reg real adc_h, adc_l;
 	reg real adc_0, adc_1;
 	reg real comp_n, comp_p;

 	// 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 #10 XCLK <= (XCLK === 1'b0);
 	always #220 XI <= (XI === 1'b0);

 	initial begin
 		XI = 0;
 		XCLK = 0;
 	end

 //	initial begin
 //		VDD3V3 = 1'b0;
 //		#150;
 //		VDD3V3 = 1'b1;
 //	end

 	initial begin
 		// Analog input pin values

 		adc_h = 0.0;
 		adc_l = 0.0;
 		adc_0 = 0.0;
 		adc_1 = 0.0;
 		comp_n = 0.0;
 		comp_p = 0.0;
 		#2000;
 		adc_h = 3.25;
 		adc_l = 0.05;
 		adc_0 = 1.0;
 		adc_1 = 1.5;
 		comp_n = 2.0;
 		comp_p = 2.5;
 	end

 	initial begin
 		$dumpfile("striVe_mem.vcd");
 		$dumpvars(0, striVe_mem_tb);

 		// Repeat cycles of 1000 XCLK edges as needed to complete testbench
 		repeat (30) begin
 			repeat (1000) @(posedge XCLK);
 			//$display("+1000 cycles");
 		end
 		$display("%c[1;31m",27);
 		$display ("Monitor: Timeout, Test MEM (RTL) Failed");
 		$display("%c[0m",27);
 		$finish;
 	end

 	wire [15:0] gpio;
 /*
 	reg [7:0] gpio_lo;
 	wire [7:0] gpio_hi;

 	assign gpio[7:0] = gpio_lo;
 	assign gpio_hi = gpio[15:8];
 */
 	wire flash_csb;
 	wire flash_clk;
 	wire flash_io0;
 	wire flash_io1;
 	wire flash_io2;
 	wire flash_io3;

 	reg SDI, CSB, SCK, RSTB;
 	wire SDO;

 	initial begin
 		CSB <= 1'b1;
 		SCK <= 1'b0;
 		SDI <= 1'b0;
 		RSTB <= 1'b0;

 		#1000;
 		RSTB <= 1'b1;	    // Release reset
 		#2000;
 		CSB <= 1'b0;	    // Apply CSB to start transmission
 	end

 	always @(gpio) begin
 		//#1 $display("GPIO state = %X ", gpio);
 		if(gpio == 16'hA040) begin
 			$display("Mem Test (word rw) started");
 		end
 		else if(gpio == 16'hAB40) begin
 			$display("%c[1;31m",27);
 			$display("Monitor: Test MEM (RTL) [word rw] failed");
 			$display("%c[0m",27);
 			$finish;
 		end
 		else if(gpio == 16'hAB41) begin
 			$display("Monitor: Test MEM (RTL) [word rw]  passed");
 		end
 		else if(gpio == 16'hA020) begin
 			$display("Mem Test (short rw) started");
 		end
 		else if(gpio == 16'hAB20) begin
 			$display("%c[1;31m",27);
 			$display("Monitor: Test MEM (RTL) [short rw] failed");
 			$display("%c[0m",27);
 			$finish;
 		end
 		else if(gpio == 16'hAB21) begin
 			$display("Monitor: Test MEM (RTL) [short rw]  passed");
 		end
 		else if(gpio == 16'hA010) begin
 			$display("Mem Test (byte rw) started");
 		end
 		else if(gpio == 16'hAB10) begin
 			$display("%c[1;31m",27);
 			$display("Monitor: Test MEM (RTL) [byte rw] failed");
 			$display("%c[0m",27);
 			$finish;
 		end
 		else if(gpio == 16'hAB11) begin
 			$display("Monitor: Test MEM (RTL) [byte rw] passed");
 			$finish;
 		end

 	end

 	// wire real VDD1V8;
 	// wire real VSS;

 	// assign VSS = 0.0;
 	// assign VDD1V8 = 1.8;

 	wire VDD1V8;
 	wire VSS;

 	assign VSS = 1'b0;
 	assign VDD1V8 = 1'b1;

 	striVe uut (
 		.vdd	  (VDD3V3  ),
 		.vdd1v8	  (VDD1V8),
 		.vss	  (VSS),
 		.xi	  (XI),
 		.xclk	  (XCLK),
 		.SDI	  (SDI),
 		.SDO	  (SDO),
 		.CSB	  (CSB),
 		.SCK	  (SCK),
 		.ser_rx	  (1'b0),
 		.ser_tx	  (	    ),
 		.irq	  (1'b0	    ),
 		.gpio     (gpio),
 		.flash_csb(flash_csb),
 		.flash_clk(flash_clk),
 		.flash_io0(flash_io0),
 		.flash_io1(flash_io1),
 		.flash_io2(flash_io2),
 		.flash_io3(flash_io3),
 		.adc_high (adc_h),
 		.adc_low  (adc_l),
 		.adc0_in  (adc_0),
 		.adc1_in  (adc_1),
 		.RSTB	  (RSTB),
 		.comp_inp (comp_p),
 		.comp_inn (comp_n)
 	);

 	spiflash #(
 		.FILENAME("striVe_mem.hex")
 	) spiflash (
 		.csb(flash_csb),
 		.clk(flash_clk),
 		.io0(flash_io0),
 		.io1(flash_io1),
 		.io2(flash_io2),
 		.io3(flash_io3)
 	);

 endmodule
	/*
	* StriVe - A full example SoC using PicoRV32 in SkyWater s8
	*
	* Copyright (C) 2017 Clifford Wolf <clifford@clifford.at>
	* Copyright (C) 2018 Tim Edwards <tim@efabless.com>
	*
	* Permission to use, copy, modify, and/or distribute this software for any
	* purpose with or without fee is hereby granted, provided that the above
	* copyright notice and this permission notice appear in all copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
	* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
	* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
	* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
	* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
	* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
	* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
	*
	*/

	`timescale 1 ns / 1 ps

	`include "striVe.v"
	`include "spiflash.v"

	module striVe_mem_tb;
	reg XCLK;
	// reg real VDD3V3;
	// reg VDD3V3;
	wire VDD3V3;
	assign VDD3V3 = 1'b1;

	reg XI;

	reg real adc_h, adc_l;
	reg real adc_0, adc_1;
	reg real comp_n, comp_p;

	// 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 #10 XCLK <= (XCLK === 1'b0);
	always #220 XI <= (XI === 1'b0);

	initial begin
	XI = 0;
	XCLK = 0;
	end

	// initial begin
	// VDD3V3 = 1'b0;
	// #150;
	// VDD3V3 = 1'b1;
	// end

	initial begin
	// Analog input pin values

	adc_h = 0.0;
	adc_l = 0.0;
	adc_0 = 0.0;
	adc_1 = 0.0;
	comp_n = 0.0;
	comp_p = 0.0;
	#2000;
	adc_h = 3.25;
	adc_l = 0.05;
	adc_0 = 1.0;
	adc_1 = 1.5;
	comp_n = 2.0;
	comp_p = 2.5;
	end

	initial begin
	$dumpfile("striVe_mem.vcd");
	$dumpvars(0, striVe_mem_tb);

	// Repeat cycles of 1000 XCLK edges as needed to complete testbench
	repeat (30) begin
	repeat (1000) @(posedge XCLK);
	//$display("+1000 cycles");
	end
	$display("%c[1;31m",27);
	$display ("Monitor: Timeout, Test MEM (RTL) Failed");
	$display("%c[0m",27);
	$finish;
	end

	wire [15:0] gpio;
	/*
	reg [7:0] gpio_lo;
	wire [7:0] gpio_hi;

	assign gpio[7:0] = gpio_lo;
	assign gpio_hi = gpio[15:8];
	*/
	wire flash_csb;
	wire flash_clk;
	wire flash_io0;
	wire flash_io1;
	wire flash_io2;
	wire flash_io3;

	reg SDI, CSB, SCK, RSTB;
	wire SDO;

	initial begin
	CSB <= 1'b1;
	SCK <= 1'b0;
	SDI <= 1'b0;
	RSTB <= 1'b0;

	#1000;
	RSTB <= 1'b1; // Release reset
	#2000;
	CSB <= 1'b0; // Apply CSB to start transmission
	end

	always @(gpio) begin
	//#1 $display("GPIO state = %X ", gpio);
	if(gpio == 16'hA040) begin
	$display("Mem Test (word rw) started");
	end
	else if(gpio == 16'hAB40) begin
	$display("%c[1;31m",27);
	$display("Monitor: Test MEM (RTL) [word rw] failed");
	$display("%c[0m",27);
	$finish;
	end
	else if(gpio == 16'hAB41) begin
	$display("Monitor: Test MEM (RTL) [word rw] passed");
	end
	else if(gpio == 16'hA020) begin
	$display("Mem Test (short rw) started");
	end
	else if(gpio == 16'hAB20) begin
	$display("%c[1;31m",27);
	$display("Monitor: Test MEM (RTL) [short rw] failed");
	$display("%c[0m",27);
	$finish;
	end
	else if(gpio == 16'hAB21) begin
	$display("Monitor: Test MEM (RTL) [short rw] passed");
	end
	else if(gpio == 16'hA010) begin
	$display("Mem Test (byte rw) started");
	end
	else if(gpio == 16'hAB10) begin
	$display("%c[1;31m",27);
	$display("Monitor: Test MEM (RTL) [byte rw] failed");
	$display("%c[0m",27);
	$finish;
	end
	else if(gpio == 16'hAB11) begin
	$display("Monitor: Test MEM (RTL) [byte rw] passed");
	$finish;
	end

	end

	// wire real VDD1V8;
	// wire real VSS;

	// assign VSS = 0.0;
	// assign VDD1V8 = 1.8;

	wire VDD1V8;
	wire VSS;

	assign VSS = 1'b0;
	assign VDD1V8 = 1'b1;

	striVe uut (
	.vdd (VDD3V3 ),
	.vdd1v8 (VDD1V8),
	.vss (VSS),
	.xi (XI),
	.xclk (XCLK),
	.SDI (SDI),
	.SDO (SDO),
	.CSB (CSB),
	.SCK (SCK),
	.ser_rx (1'b0),
	.ser_tx ( ),
	.irq (1'b0 ),
	.gpio (gpio),
	.flash_csb(flash_csb),
	.flash_clk(flash_clk),
	.flash_io0(flash_io0),
	.flash_io1(flash_io1),
	.flash_io2(flash_io2),
	.flash_io3(flash_io3),
	.adc_high (adc_h),
	.adc_low (adc_l),
	.adc0_in (adc_0),
	.adc1_in (adc_1),
	.RSTB (RSTB),
	.comp_inp (comp_p),
	.comp_inn (comp_n)
	);

	spiflash #(
	.FILENAME("striVe_mem.hex")
	) spiflash (
	.csb(flash_csb),
	.clk(flash_clk),
	.io0(flash_io0),
	.io1(flash_io1),
	.io2(flash_io2),
	.io3(flash_io3)
	);

	endmodule