| //////////////////////////////////////////////////////////////////////////// |
| // 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 //// |
| //// http://www.opencores.org/cores/yifive/ //// |
| //// //// |
| //// Description //// |
| //// This is a standalone test bench to validate the //// |
| //// sspi interfaface through External WB i/F. //// |
| //// //// |
| //// To Do: //// |
| //// nothing //// |
| //// //// |
| //// Author(s): //// |
| //// - Dinesh Annayya, dinesha@opencores.org //// |
| //// //// |
| //// Revision : //// |
| //// 0.1 - 01 Oct 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 ps |
| |
| `include "sram_macros/sky130_sram_2kbyte_1rw1r_32x512_8.v" |
| `include "is62wvs1288.v" |
| |
| `define TB_GLBL user_sspi_tb |
| |
| module user_sspi_tb; |
| 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" |
| |
| |
| reg [1:0] spi_chip_no; |
| |
| |
| `ifdef WFDUMP |
| initial begin |
| $dumpfile("simx.vcd"); |
| $dumpvars(5, user_sspi_tb); |
| end |
| `endif |
| |
| initial begin |
| $dumpon; |
| init(); |
| |
| #200; // Wait for reset removal |
| repeat (10) @(posedge clock); |
| $display("Monitor: Standalone User Risc Boot Test Started"); |
| |
| // Remove Wb Reset |
| //wb_user_core_write(`ADDR_SPACE_WBHOST+`WBHOST_GLBL_CFG,'h1); |
| |
| // Enable SPI Multi Functional Ports |
| // wire cfg_spim_enb = cfg_multi_func_sel[10]; |
| // wire [3:0] cfg_spim_cs_enb = cfg_multi_func_sel[14:11]; |
| wb_user_core_write(`ADDR_SPACE_GLBL+`GLBL_CFG_MUTI_FUNC,'h7C00); |
| |
| repeat (2) @(posedge clock); |
| #1; |
| |
| // Remove the reset |
| // Remove WB and SPI/UART Reset, Keep CORE under Reset |
| wb_user_core_write(`ADDR_SPACE_GLBL+`GLBL_CFG_CFG0,'h01F); |
| |
| |
| test_fail = 0; |
| sspi_init(); |
| repeat (200) @(posedge clock); |
| wb_user_core_write(`ADDR_SPACE_WBHOST+`WBHOST_BANK_SEL,'h1000); // Change the Bank Sel 1000 |
| $display("############################################"); |
| $display(" Testing IS62/65WVS1288GALL SSRAM[0] Read/Write Access "); |
| $display("############################################"); |
| // SSPI Indirect RAM READ ACCESS- |
| // Byte Read Option |
| // <Instr:0x3> <Addr:24Bit Address> <Read Data Out> |
| spi_chip_no = 2'b00; // Select the Chip Select to zero |
| sspi_dw_read_check(8'h03,24'h0000,32'h03020100); |
| sspi_dw_read_check(8'h03,24'h0004,32'h07060504); |
| sspi_dw_read_check(8'h03,24'h0008,32'h0b0a0908); |
| sspi_dw_read_check(8'h03,24'h000C,32'h0f0e0d0c); |
| sspi_dw_read_check(8'h03,24'h0010,32'h13121110); |
| sspi_dw_read_check(8'h03,24'h0014,32'h17161514); |
| sspi_dw_read_check(8'h03,24'h0018,32'h1B1A1918); |
| sspi_dw_read_check(8'h03,24'h001C,32'h1F1E1D1C); |
| |
| sspi_dw_read_check(8'h03,24'h0040,32'h43424140); |
| sspi_dw_read_check(8'h03,24'h0044,32'h47464544); |
| sspi_dw_read_check(8'h03,24'h0048,32'h4B4A4948); |
| sspi_dw_read_check(8'h03,24'h004C,32'h4F4E4D4C); |
| |
| sspi_dw_read_check(8'h03,24'h00a0,32'ha3a2a1a0); |
| sspi_dw_read_check(8'h03,24'h00a4,32'ha7a6a5a4); |
| sspi_dw_read_check(8'h03,24'h00a8,32'habaaa9a8); |
| sspi_dw_read_check(8'h03,24'h00aC,32'hafaeadac); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h11111111); |
| sspi_dw_read_check(8'h03,24'h0204,32'h22222222); |
| sspi_dw_read_check(8'h03,24'h0208,32'h33333333); |
| sspi_dw_read_check(8'h03,24'h020C,32'h44444444); |
| |
| // SPI Write |
| sspi_dw_write(8'h02,24'h0000,32'h00112233); |
| sspi_dw_write(8'h02,24'h0004,32'h44556677); |
| sspi_dw_write(8'h02,24'h0008,32'h8899AABB); |
| sspi_dw_write(8'h02,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_write(8'h02,24'h0200,32'h11223344); |
| sspi_dw_write(8'h02,24'h0204,32'h55667788); |
| sspi_dw_write(8'h02,24'h0208,32'h99AABBCC); |
| sspi_dw_write(8'h02,24'h020C,32'hDDEEFF00); |
| |
| // SPI Read Check |
| sspi_dw_read_check(8'h03,24'h0000,32'h00112233); |
| sspi_dw_read_check(8'h03,24'h0004,32'h44556677); |
| sspi_dw_read_check(8'h03,24'h0008,32'h8899AABB); |
| sspi_dw_read_check(8'h03,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h11223344); |
| sspi_dw_read_check(8'h03,24'h0204,32'h55667788); |
| sspi_dw_read_check(8'h03,24'h0208,32'h99AABBCC); |
| sspi_dw_read_check(8'h03,24'h020C,32'hDDEEFF00); |
| |
| $display("############################################"); |
| $display(" Testing IS62/65WVS1288GALL SSRAM[1] Read/Write Access "); |
| $display("############################################"); |
| // SSPI Indirect RAM READ ACCESS- |
| // Byte Read Option |
| // <Instr:0x3> <Addr:24Bit Address> <Read Data Out> |
| spi_chip_no = 2'b01; // Select the Chip Select to zero |
| sspi_dw_read_check(8'h03,24'h0000,32'h13121110); |
| sspi_dw_read_check(8'h03,24'h0004,32'h17161514); |
| sspi_dw_read_check(8'h03,24'h0008,32'h1B1A1918); |
| sspi_dw_read_check(8'h03,24'h000C,32'h1F1E1D1C); |
| |
| sspi_dw_read_check(8'h03,24'h0010,32'h23222120); |
| sspi_dw_read_check(8'h03,24'h0014,32'h27262524); |
| sspi_dw_read_check(8'h03,24'h0018,32'h2B2A2928); |
| sspi_dw_read_check(8'h03,24'h001C,32'h2F2E2D2C); |
| |
| sspi_dw_read_check(8'h03,24'h0020,32'h33323130); |
| sspi_dw_read_check(8'h03,24'h0024,32'h37363534); |
| sspi_dw_read_check(8'h03,24'h0028,32'h3B3A3938); |
| sspi_dw_read_check(8'h03,24'h002C,32'h3F3E3D3C); |
| |
| sspi_dw_read_check(8'h03,24'h0030,32'h43424140); |
| sspi_dw_read_check(8'h03,24'h0034,32'h47464544); |
| sspi_dw_read_check(8'h03,24'h0038,32'h4B4A4948); |
| sspi_dw_read_check(8'h03,24'h003C,32'h4F4E4D4C); |
| |
| sspi_dw_read_check(8'h03,24'h00a0,32'hb3b2b1b0); |
| sspi_dw_read_check(8'h03,24'h00a4,32'hb7b6b5b4); |
| sspi_dw_read_check(8'h03,24'h00a8,32'hbbbab9b8); |
| sspi_dw_read_check(8'h03,24'h00aC,32'hbfbebdbc); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h22222222); |
| sspi_dw_read_check(8'h03,24'h0204,32'h33333333); |
| sspi_dw_read_check(8'h03,24'h0208,32'h44444444); |
| sspi_dw_read_check(8'h03,24'h020C,32'h55555555); |
| |
| // SPI Write |
| sspi_dw_write(8'h02,24'h0000,32'h00112233); |
| sspi_dw_write(8'h02,24'h0004,32'h44556677); |
| sspi_dw_write(8'h02,24'h0008,32'h8899AABB); |
| sspi_dw_write(8'h02,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_write(8'h02,24'h0200,32'h11223344); |
| sspi_dw_write(8'h02,24'h0204,32'h55667788); |
| sspi_dw_write(8'h02,24'h0208,32'h99AABBCC); |
| sspi_dw_write(8'h02,24'h020C,32'hDDEEFF00); |
| |
| // SPI Read Check |
| sspi_dw_read_check(8'h03,24'h0000,32'h00112233); |
| sspi_dw_read_check(8'h03,24'h0004,32'h44556677); |
| sspi_dw_read_check(8'h03,24'h0008,32'h8899AABB); |
| sspi_dw_read_check(8'h03,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h11223344); |
| sspi_dw_read_check(8'h03,24'h0204,32'h55667788); |
| sspi_dw_read_check(8'h03,24'h0208,32'h99AABBCC); |
| sspi_dw_read_check(8'h03,24'h020C,32'hDDEEFF00); |
| |
| $display("############################################"); |
| $display(" Testing IS62/65WVS1288GALL SSRAM[2] Read/Write Access "); |
| $display("############################################"); |
| // SSPI Indirect RAM READ ACCESS- |
| // Byte Read Option |
| // <Instr:0x3> <Addr:24Bit Address> <Read Data Out> |
| spi_chip_no = 2'b10; // Select the Chip Select to zero |
| sspi_dw_read_check(8'h03,24'h0000,32'h23222120); |
| sspi_dw_read_check(8'h03,24'h0004,32'h27262524); |
| sspi_dw_read_check(8'h03,24'h0008,32'h2b2a2928); |
| sspi_dw_read_check(8'h03,24'h000C,32'h2f2e2d2c); |
| |
| sspi_dw_read_check(8'h03,24'h0010,32'h33323130); |
| sspi_dw_read_check(8'h03,24'h0014,32'h37363534); |
| sspi_dw_read_check(8'h03,24'h0018,32'h3B3A3938); |
| sspi_dw_read_check(8'h03,24'h001C,32'h3F3E3D3C); |
| |
| sspi_dw_read_check(8'h03,24'h0020,32'h43424140); |
| sspi_dw_read_check(8'h03,24'h0024,32'h47464544); |
| sspi_dw_read_check(8'h03,24'h0028,32'h4B4A4948); |
| sspi_dw_read_check(8'h03,24'h002C,32'h4F4E4D4C); |
| |
| sspi_dw_read_check(8'h03,24'h0030,32'h53525150); |
| sspi_dw_read_check(8'h03,24'h0034,32'h57565554); |
| sspi_dw_read_check(8'h03,24'h0038,32'h5B5A5958); |
| sspi_dw_read_check(8'h03,24'h003C,32'h5F5E5D5C); |
| |
| sspi_dw_read_check(8'h03,24'h0040,32'h63626160); |
| sspi_dw_read_check(8'h03,24'h0044,32'h67666564); |
| sspi_dw_read_check(8'h03,24'h0048,32'h6B6A6968); |
| sspi_dw_read_check(8'h03,24'h004C,32'h6F6E6D6C); |
| |
| sspi_dw_read_check(8'h03,24'h00a0,32'hc3c2c1c0); |
| sspi_dw_read_check(8'h03,24'h00a4,32'hc7c6c5c4); |
| sspi_dw_read_check(8'h03,24'h00a8,32'hcbcac9c8); |
| sspi_dw_read_check(8'h03,24'h00aC,32'hcfcecdcc); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h33333333); |
| sspi_dw_read_check(8'h03,24'h0204,32'h44444444); |
| sspi_dw_read_check(8'h03,24'h0208,32'h55555555); |
| sspi_dw_read_check(8'h03,24'h020C,32'h66666666); |
| |
| // SPI Write |
| sspi_dw_write(8'h02,24'h0000,32'h00112233); |
| sspi_dw_write(8'h02,24'h0004,32'h44556677); |
| sspi_dw_write(8'h02,24'h0008,32'h8899AABB); |
| sspi_dw_write(8'h02,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_write(8'h02,24'h0200,32'h11223344); |
| sspi_dw_write(8'h02,24'h0204,32'h55667788); |
| sspi_dw_write(8'h02,24'h0208,32'h99AABBCC); |
| sspi_dw_write(8'h02,24'h020C,32'hDDEEFF00); |
| |
| // SPI Read Check |
| sspi_dw_read_check(8'h03,24'h0000,32'h00112233); |
| sspi_dw_read_check(8'h03,24'h0004,32'h44556677); |
| sspi_dw_read_check(8'h03,24'h0008,32'h8899AABB); |
| sspi_dw_read_check(8'h03,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h11223344); |
| sspi_dw_read_check(8'h03,24'h0204,32'h55667788); |
| sspi_dw_read_check(8'h03,24'h0208,32'h99AABBCC); |
| sspi_dw_read_check(8'h03,24'h020C,32'hDDEEFF00); |
| |
| $display("############################################"); |
| $display(" Testing IS62/65WVS1288GALL SSRAM[3] Read/Write Access "); |
| $display("############################################"); |
| // SSPI Indirect RAM READ ACCESS- |
| // Byte Read Option |
| // <Instr:0x3> <Addr:24Bit Address> <Read Data Out> |
| spi_chip_no = 2'b11; // Select the Chip Select to zero |
| sspi_dw_read_check(8'h03,24'h0000,32'h33323130); |
| sspi_dw_read_check(8'h03,24'h0004,32'h37363534); |
| sspi_dw_read_check(8'h03,24'h0008,32'h3b3a3938); |
| sspi_dw_read_check(8'h03,24'h000C,32'h3f3e3d3c); |
| |
| sspi_dw_read_check(8'h03,24'h0010,32'h43424140); |
| sspi_dw_read_check(8'h03,24'h0014,32'h47464544); |
| sspi_dw_read_check(8'h03,24'h0018,32'h4B4A4948); |
| sspi_dw_read_check(8'h03,24'h001C,32'h4F4E4D4C); |
| |
| sspi_dw_read_check(8'h03,24'h0020,32'h53525150); |
| sspi_dw_read_check(8'h03,24'h0024,32'h57565554); |
| sspi_dw_read_check(8'h03,24'h0028,32'h5B5A5958); |
| sspi_dw_read_check(8'h03,24'h002C,32'h5F5E5D5C); |
| |
| sspi_dw_read_check(8'h03,24'h00a0,32'hd3d2d1d0); |
| sspi_dw_read_check(8'h03,24'h00a4,32'hd7d6d5d4); |
| sspi_dw_read_check(8'h03,24'h00a8,32'hdbdad9d8); |
| sspi_dw_read_check(8'h03,24'h00aC,32'hdfdedddc); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h44444444); |
| sspi_dw_read_check(8'h03,24'h0204,32'h55555555); |
| sspi_dw_read_check(8'h03,24'h0208,32'h66666666); |
| sspi_dw_read_check(8'h03,24'h020C,32'h77777777); |
| |
| // SPI Write |
| sspi_dw_write(8'h02,24'h0000,32'h00112233); |
| sspi_dw_write(8'h02,24'h0004,32'h44556677); |
| sspi_dw_write(8'h02,24'h0008,32'h8899AABB); |
| sspi_dw_write(8'h02,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_write(8'h02,24'h0200,32'h11223344); |
| sspi_dw_write(8'h02,24'h0204,32'h55667788); |
| sspi_dw_write(8'h02,24'h0208,32'h99AABBCC); |
| sspi_dw_write(8'h02,24'h020C,32'hDDEEFF00); |
| |
| // SPI Read Check |
| sspi_dw_read_check(8'h03,24'h0000,32'h00112233); |
| sspi_dw_read_check(8'h03,24'h0004,32'h44556677); |
| sspi_dw_read_check(8'h03,24'h0008,32'h8899AABB); |
| sspi_dw_read_check(8'h03,24'h000C,32'hCCDDEEFF); |
| |
| sspi_dw_read_check(8'h03,24'h0200,32'h11223344); |
| sspi_dw_read_check(8'h03,24'h0204,32'h55667788); |
| sspi_dw_read_check(8'h03,24'h0208,32'h99AABBCC); |
| sspi_dw_read_check(8'h03,24'h020C,32'hDDEEFF00); |
| repeat (100) @(posedge clock); |
| // $display("+1000 cycles"); |
| |
| 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("###################################################"); |
| $finish; |
| end |
| |
| // SSPI Slave I/F |
| assign io_in[5] = 1'b1; // RESET |
| |
| |
| `ifndef GL // Drive Power for Hold Fix Buf |
| // All standard cell need power hook-up for functionality work |
| initial begin |
| |
| end |
| `endif |
| |
| //------------------------------------------------------ |
| // Integrate the Serial flash with quad support to |
| // user core using the gpio pads |
| // ---------------------------------------------------- |
| wire flash_io1; |
| wire flash_clk = (io_oeb[21] == 1'b0) ? io_out[21] : 1'b0; |
| tri #1 flash_io0 = (io_oeb[20] == 1'b0) ? io_out[20] : 1'b0; |
| assign io_in[19] = (io_oeb[19] == 1'b1) ? flash_io1 : 1'b0; |
| |
| tri #1 flash_io2 = 1'b1; |
| tri #1 flash_io3 = 1'b1; |
| |
| |
| wire spiram_csb0 = (io_oeb[18] == 1'b0) ? io_out[18] : 1'b0; |
| is62wvs1288 #(.mem_file_name("flash0.hex")) |
| u_sfram_0 ( |
| // Data Inputs/Outputs |
| .io0 (flash_io0), |
| .io1 (flash_io1), |
| // Controls |
| .clk (flash_clk), |
| .csb (spiram_csb0), |
| .io2 (flash_io2), |
| .io3 (flash_io3) |
| ); |
| |
| wire spiram_csb1 = (io_oeb[17] == 1'b0) ? io_out[17] : 1'b0; |
| is62wvs1288 #(.mem_file_name("flash1.hex")) |
| u_sfram_1 ( |
| // Data Inputs/Outputs |
| .io0 (flash_io0), |
| .io1 (flash_io1), |
| // Controls |
| .clk (flash_clk), |
| .csb (spiram_csb1), |
| .io2 (flash_io2), |
| .io3 (flash_io3) |
| ); |
| |
| wire spiram_csb2 = (io_oeb[14] == 1'b0) ? io_out[14] : 1'b0; |
| is62wvs1288 #(.mem_file_name("flash2.hex")) |
| u_sfram_2 ( |
| // Data Inputs/Outputs |
| .io0 (flash_io0), |
| .io1 (flash_io1), |
| // Controls |
| .clk (flash_clk), |
| .csb (spiram_csb2), |
| .io2 (flash_io2), |
| .io3 (flash_io3) |
| ); |
| |
| wire spiram_csb3 = (io_oeb[13] == 1'b0) ? io_out[13] : 1'b0; |
| is62wvs1288 #(.mem_file_name("flash3.hex")) |
| u_sfram_3 ( |
| // Data Inputs/Outputs |
| .io0 (flash_io0), |
| .io1 (flash_io1), |
| // Controls |
| .clk (flash_clk), |
| .csb (spiram_csb3), |
| .io2 (flash_io2), |
| .io3 (flash_io3) |
| ); |
| |
| //---------------------------------------------------- |
| // Task |
| // -------------------------------------------------- |
| task test_err; |
| begin |
| test_fail = 1; |
| end |
| endtask |
| |
| `include "sspi_task.v" |
| endmodule |
| `default_nettype wire |