verilog/dv/user_i2cm/user_i2cm_tb.v - third_party/shuttle/sky130/mpw-006/slot-004 - Git at Google

 ////////////////////////////////////////////////////////////////////////////
 // SPDX-FileCopyrightText:  2021 , Dinesh Annayya
 //
 // 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
 // SPDX-FileContributor: Modified by Dinesh Annayya <dinesha@opencores.org>
 //////////////////////////////////////////////////////////////////////
 ////                                                              ////
 ////  Standalone User validation Test bench                       ////
 ////                                                              ////
 ////  This file is part of the YIFive cores project               ////
 ////  https://github.com/dineshannayya/yifive_r0.git              ////
 ////                                                              ////
 ////  Description                                                 ////
 ////   This is a standalone test bench to validate the            ////
 ////   i2c Master .                                               ////
 ////                                                              ////
 ////  To Do:                                                      ////
 ////    nothing                                                   ////
 ////                                                              ////
 ////  Author(s):                                                  ////
 ////      - Dinesh Annayya, dinesha@opencores.org                 ////
 ////                                                              ////
 ////  Revision :                                                  ////
 ////    0.1 - 16th Feb 2021, Dinesh A                             ////
 ////                                                              ////
 //////////////////////////////////////////////////////////////////////
 ////                                                              ////
 //// Copyright (C) 2000 Authors and OPENCORES.ORG                 ////
 ////                                                              ////
 //// This source file may be used and distributed without         ////
 //// restriction provided that this copyright statement is not    ////
 //// removed from the file and that any derivative work contains  ////
 //// the original copyright notice and the associated disclaimer. ////
 ////                                                              ////
 //// This source file is free software; you can redistribute it   ////
 //// and/or modify it under the terms of the GNU Lesser General   ////
 //// Public License as published by the Free Software Foundation; ////
 //// either version 2.1 of the License, or (at your option) any   ////
 //// later version.                                               ////
 ////                                                              ////
 //// This source is distributed in the hope that it will be       ////
 //// useful, but WITHOUT ANY WARRANTY; without even the implied   ////
 //// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR      ////
 //// PURPOSE.  See the GNU Lesser General Public License for more ////
 //// details.                                                     ////
 ////                                                              ////
 //// You should have received a copy of the GNU Lesser General    ////
 //// Public License along with this source; if not, download it   ////
 //// from http://www.opencores.org/lgpl.shtml                     ////
 ////                                                              ////
 //////////////////////////////////////////////////////////////////////

 `default_nettype wire

 `timescale 1 ns / 1 ns

 `include "sram_macros/sky130_sram_2kbyte_1rw1r_32x512_8.v"
 `include "i2c_slave_model.v"

 module tb_top;
 parameter real CLK1_PERIOD  = 20; // 50Mhz
 parameter real CLK2_PERIOD = 2.5;
 parameter real IPLL_PERIOD = 5.008;
 parameter real XTAL_PERIOD = 6;

 `include "user_tasks.sv"


 //----------------------------------
 // Uart Configuration
 // ---------------------------------

 integer i,j;


 	`ifdef WFDUMP
 	   initial begin
 	   	$dumpfile("simx.vcd");
 	   	$dumpvars(0, tb_top);
 	   end
        `endif

 initial
 begin
    test_fail = 0;
    init();

    #200; // Wait for reset removal
    repeat (10) @(posedge clock);
    $display("############################################");
    $display("   Testing I2CM Read/Write Access           ");
    $display("############################################");


    repeat (10) @(posedge clock);
    #1;
    // Enable I2M Block & WB Reset and Enable I2CM Mux Select
    wb_user_core_write(`ADDR_SPACE_WBHOST+`WBHOST_GLBL_CFG,'h01);

    // Enable I2C Multi Functional Ports
    wb_user_core_write(`ADDR_SPACE_GLBL+`GLBL_CFG_MUTI_FUNC,'h8000);

    // Remove i2m reset
    wb_user_core_write(`ADDR_SPACE_GLBL+`GLBL_CFG_CFG0,'h010);

    repeat (100) @(posedge clock);

     @(posedge  clock);
     $display("---------- Initialize I2C Master ----------");

     //Wrire Prescale registers
      wb_user_core_write(`ADDR_SPACE_I2CM+(8'h0<<2),8'hC7);
      wb_user_core_write(`ADDR_SPACE_I2CM+(8'h1<<2),8'h00);
     // Core Enable
      wb_user_core_write(`ADDR_SPACE_I2CM+(8'h2<<2),8'h80);

     // Writing Data

     $display("---------- Writing Data ----------");
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h20); // Slave Addr + WR
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h90);
     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h66);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10);

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

    /* Byte1: 12 */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h12);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10); // No Stop + Write

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

    /* Byte1: 34 */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h34);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10); // No Stop + Write

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

    /* Byte1: 56 */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h56);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10); // No Stop + Write

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

    /* Byte1: 78 */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h78);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h50); // Stop + Write

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     //Reading Data

     //Wrire Address
     $display("---------- Writing Data ----------");
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h20);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h90);
     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h66);
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h50);

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     //Generate Read
     $display("---------- Writing Data ----------");
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h21); // Slave Addr + RD
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h90);
     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     /* BYTE-1 : 0x12  */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h20);  // RD + ACK

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     //Compare received data
     wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3<<2),8'h12);

     /* BYTE-2 : 0x34  */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h20);  // RD + ACK

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     //Compare received data
     wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3<<2),8'h34);

     /* BYTE-3 : 0x56  */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4 <<2),8'h20);  // RD + ACK

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

     //Compare received data
     wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3<<2),8'h56);

     /* BYTE-4 : 0x78  */
     wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h68);  // STOP + RD + NACK

     read_data[1] = 1'b1;
     while(read_data[1]==1)
       wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4 <<2),read_data);

     //Compare received data
     wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3 <<2),8'h78);

     repeat(100)@(posedge clock);


      $display("###################################################");
      if(test_fail == 0) begin
         `ifdef GL
             $display("Monitor: %m (GL) Passed");
         `else
             $display("Monitor: %m (RTL) Passed");
         `endif
      end else begin
          `ifdef GL
              $display("Monitor: %m (GL) Failed");
          `else
              $display("Monitor: %m (RTL) Failed");
          `endif
       end
      $display("###################################################");
      #100
      $finish;
 end

 // SSPI Slave I/F
 assign io_in[5]  = 1'b1; // RESET


 //---------------------------
 // I2C
 // --------------------------
 tri scl,sda;

 assign sda  =  (io_oeb[26] == 1'b0) ? io_out[26] : 1'bz;
 assign scl   = (io_oeb[27] == 1'b0) ? io_out[27]: 1'bz;
 assign io_in[26]  =  sda;
 assign io_in[27]  =  scl;

 pullup p1(scl); // pullup scl line
 pullup p2(sda); // pullup sda line


 i2c_slave_model u_i2c_slave (
 	.scl   (scl),
 	.sda   (sda)
        );


 endmodule
 `default_nettype wire
	////////////////////////////////////////////////////////////////////////////
	// SPDX-FileCopyrightText: 2021 , Dinesh Annayya
	//
	// 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
	// SPDX-FileContributor: Modified by Dinesh Annayya <dinesha@opencores.org>
	//////////////////////////////////////////////////////////////////////
	//// ////
	//// Standalone User validation Test bench ////
	//// ////
	//// This file is part of the YIFive cores project ////
	//// https://github.com/dineshannayya/yifive_r0.git ////
	//// ////
	//// Description ////
	//// This is a standalone test bench to validate the ////
	//// i2c Master . ////
	//// ////
	//// To Do: ////
	//// nothing ////
	//// ////
	//// Author(s): ////
	//// - Dinesh Annayya, dinesha@opencores.org ////
	//// ////
	//// Revision : ////
	//// 0.1 - 16th Feb 2021, Dinesh A ////
	//// ////
	//////////////////////////////////////////////////////////////////////
	//// ////
	//// Copyright (C) 2000 Authors and OPENCORES.ORG ////
	//// ////
	//// This source file may be used and distributed without ////
	//// restriction provided that this copyright statement is not ////
	//// removed from the file and that any derivative work contains ////
	//// the original copyright notice and the associated disclaimer. ////
	//// ////
	//// This source file is free software; you can redistribute it ////
	//// and/or modify it under the terms of the GNU Lesser General ////
	//// Public License as published by the Free Software Foundation; ////
	//// either version 2.1 of the License, or (at your option) any ////
	//// later version. ////
	//// ////
	//// This source is distributed in the hope that it will be ////
	//// useful, but WITHOUT ANY WARRANTY; without even the implied ////
	//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ////
	//// PURPOSE. See the GNU Lesser General Public License for more ////
	//// details. ////
	//// ////
	//// You should have received a copy of the GNU Lesser General ////
	//// Public License along with this source; if not, download it ////
	//// from http://www.opencores.org/lgpl.shtml ////
	//// ////
	//////////////////////////////////////////////////////////////////////

	`default_nettype wire

	`timescale 1 ns / 1 ns

	`include "sram_macros/sky130_sram_2kbyte_1rw1r_32x512_8.v"
	`include "i2c_slave_model.v"

	module tb_top;
	parameter real CLK1_PERIOD = 20; // 50Mhz
	parameter real CLK2_PERIOD = 2.5;
	parameter real IPLL_PERIOD = 5.008;
	parameter real XTAL_PERIOD = 6;

	`include "user_tasks.sv"


	//----------------------------------
	// Uart Configuration
	// ---------------------------------

	integer i,j;


	`ifdef WFDUMP
	initial begin
	$dumpfile("simx.vcd");
	$dumpvars(0, tb_top);
	end
	`endif

	initial
	begin
	test_fail = 0;
	init();

	#200; // Wait for reset removal
	repeat (10) @(posedge clock);
	$display("############################################");
	$display(" Testing I2CM Read/Write Access ");
	$display("############################################");


	repeat (10) @(posedge clock);
	#1;
	// Enable I2M Block & WB Reset and Enable I2CM Mux Select
	wb_user_core_write(`ADDR_SPACE_WBHOST+`WBHOST_GLBL_CFG,'h01);

	// Enable I2C Multi Functional Ports
	wb_user_core_write(`ADDR_SPACE_GLBL+`GLBL_CFG_MUTI_FUNC,'h8000);

	// Remove i2m reset
	wb_user_core_write(`ADDR_SPACE_GLBL+`GLBL_CFG_CFG0,'h010);

	repeat (100) @(posedge clock);

	@(posedge clock);
	$display("---------- Initialize I2C Master ----------");

	//Wrire Prescale registers
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h0<<2),8'hC7);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h1<<2),8'h00);
	// Core Enable
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h2<<2),8'h80);

	// Writing Data

	$display("---------- Writing Data ----------");
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h20); // Slave Addr + WR
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h90);
	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h66);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10);

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	/* Byte1: 12 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h12);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10); // No Stop + Write

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	/* Byte1: 34 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h34);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10); // No Stop + Write

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	/* Byte1: 56 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h56);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h10); // No Stop + Write

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	/* Byte1: 78 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h78);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h50); // Stop + Write

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	//Reading Data

	//Wrire Address
	$display("---------- Writing Data ----------");
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h20);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h90);
	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h66);
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h50);

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	//Generate Read
	$display("---------- Writing Data ----------");
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h3<<2),8'h21); // Slave Addr + RD
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h90);
	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	/* BYTE-1 : 0x12 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h20); // RD + ACK

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	//Compare received data
	wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3<<2),8'h12);

	/* BYTE-2 : 0x34 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h20); // RD + ACK

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	//Compare received data
	wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3<<2),8'h34);

	/* BYTE-3 : 0x56 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4 <<2),8'h20); // RD + ACK

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4<<2),read_data);

	//Compare received data
	wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3<<2),8'h56);

	/* BYTE-4 : 0x78 */
	wb_user_core_write(`ADDR_SPACE_I2CM+(8'h4<<2),8'h68); // STOP + RD + NACK

	read_data[1] = 1'b1;
	while(read_data[1]==1)
	wb_user_core_read(`ADDR_SPACE_I2CM+(8'h4 <<2),read_data);

	//Compare received data
	wb_user_core_read_cmp(`ADDR_SPACE_I2CM+(8'h3 <<2),8'h78);

	repeat(100)@(posedge clock);



	$display("###################################################");
	if(test_fail == 0) begin
	`ifdef GL
	$display("Monitor: %m (GL) Passed");
	`else
	$display("Monitor: %m (RTL) Passed");
	`endif
	end else begin
	`ifdef GL
	$display("Monitor: %m (GL) Failed");
	`else
	$display("Monitor: %m (RTL) Failed");
	`endif
	end
	$display("###################################################");
	#100
	$finish;
	end

	// SSPI Slave I/F
	assign io_in[5] = 1'b1; // RESET


	//---------------------------
	// I2C
	// --------------------------
	tri scl,sda;

	assign sda = (io_oeb[26] == 1'b0) ? io_out[26] : 1'bz;
	assign scl = (io_oeb[27] == 1'b0) ? io_out[27]: 1'bz;
	assign io_in[26] = sda;
	assign io_in[27] = scl;

	pullup p1(scl); // pullup scl line
	pullup p2(sda); // pullup sda line


	i2c_slave_model u_i2c_slave (
	.scl (scl),
	.sda (sda)
	);



	endmodule
	`default_nettype wire