pluto_hdl_adi/projects/fmcomms2/common/prcfg.v

176 lines
6.7 KiB
Verilog

// ***************************************************************************
// ***************************************************************************
// Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved.
//
// In this HDL repository, there are many different and unique modules, consisting
// of various HDL (Verilog or VHDL) components. The individual modules are
// developed independently, and may be accompanied by separate and unique license
// terms.
//
// The user should read each of these license terms, and understand the
// freedoms and responsabilities that he or she has by using this source/core.
//
// This core 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.
//
// Redistribution and use of source or resulting binaries, with or without modification
// of this file, are permitted under one of the following two license terms:
//
// 1. The GNU General Public License version 2 as published by the
// Free Software Foundation, which can be found in the top level directory
// of this repository (LICENSE_GPL2), and also online at:
// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
//
// OR
//
// 2. An ADI specific BSD license, which can be found in the top level directory
// of this repository (LICENSE_ADIBSD), and also on-line at:
// https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
// This will allow to generate bit files and not release the source code,
// as long as it attaches to an ADI device.
//
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/1ns
module prcfg (
input clk,
// gpio
input [31:0] dac_gpio_input,
output [31:0] dac_gpio_output,
input [31:0] adc_gpio_input,
output [31:0] adc_gpio_output,
// tx side
input dma_dac_i0_enable,
output [15:0] dma_dac_i0_data,
input dma_dac_i0_valid,
input dma_dac_q0_enable,
output [15:0] dma_dac_q0_data,
input dma_dac_q0_valid,
input dma_dac_i1_enable,
output [15:0] dma_dac_i1_data,
input dma_dac_i1_valid,
input dma_dac_q1_enable,
output [15:0] dma_dac_q1_data,
input dma_dac_q1_valid,
output core_dac_i0_enable,
input [15:0] core_dac_i0_data,
output core_dac_i0_valid,
output core_dac_q0_enable,
input [15:0] core_dac_q0_data,
output core_dac_q0_valid,
output core_dac_i1_enable,
input [15:0] core_dac_i1_data,
output core_dac_i1_valid,
output core_dac_q1_enable,
input [15:0] core_dac_q1_data,
output core_dac_q1_valid,
// rx side
input dma_adc_i0_enable,
input [15:0] dma_adc_i0_data,
input dma_adc_i0_valid,
input dma_adc_q0_enable,
input [15:0] dma_adc_q0_data,
input dma_adc_q0_valid,
input dma_adc_i1_enable,
input [15:0] dma_adc_i1_data,
input dma_adc_i1_valid,
input dma_adc_q1_enable,
input [15:0] dma_adc_q1_data,
input dma_adc_q1_valid,
output core_adc_i0_enable,
output [15:0] core_adc_i0_data,
output core_adc_i0_valid,
output core_adc_q0_enable,
output [15:0] core_adc_q0_data,
output core_adc_q0_valid,
output core_adc_i1_enable,
output [15:0] core_adc_i1_data,
output core_adc_i1_valid,
output core_adc_q1_enable,
output [15:0] core_adc_q1_data,
output core_adc_q1_valid);
// fmcomms2 configuration
localparam NUM_OF_CHANNELS = 4;
localparam ADC_ENABLE = 1;
localparam DAC_ENABLE = 1;
// default top
prcfg_top # (
.NUM_CHANNEL (NUM_OF_CHANNELS),
.ADC_EN (ADC_ENABLE),
.DAC_EN (DAC_ENABLE))
i_prcfg_top (
.clk (clk),
.dac_gpio_input (dac_gpio_input),
.dac_gpio_output (dac_gpio_output),
.adc_gpio_input (adc_gpio_input),
.adc_gpio_output (adc_gpio_output),
.dma_dac_0_enable (dma_dac_i0_enable),
.dma_dac_0_data (dma_dac_i0_data),
.dma_dac_0_valid (dma_dac_i0_valid),
.dma_dac_1_enable (dma_dac_q0_enable),
.dma_dac_1_data (dma_dac_q0_data),
.dma_dac_1_valid (dma_dac_q0_valid),
.dma_dac_2_enable (dma_dac_i1_enable),
.dma_dac_2_data (dma_dac_i1_data),
.dma_dac_2_valid (dma_dac_i1_valid),
.dma_dac_3_enable (dma_dac_q1_enable),
.dma_dac_3_data (dma_dac_q1_data),
.dma_dac_3_valid (dma_dac_q1_valid),
.core_dac_0_enable (core_dac_i0_enable),
.core_dac_0_data (core_dac_i0_data),
.core_dac_0_valid (core_dac_i0_valid),
.core_dac_1_enable (core_dac_q0_enable),
.core_dac_1_data (core_dac_q0_data),
.core_dac_1_valid (core_dac_q0_valid),
.core_dac_2_enable (core_dac_i1_enable),
.core_dac_2_data (core_dac_i1_data),
.core_dac_2_valid (core_dac_i1_valid),
.core_dac_3_enable (core_dac_q1_enable),
.core_dac_3_data (core_dac_q1_data),
.core_dac_3_valid (core_dac_q1_valid),
.dma_adc_0_enable (dma_adc_i0_enable),
.dma_adc_0_data (dma_adc_i0_data),
.dma_adc_0_valid (dma_adc_i0_valid),
.dma_adc_1_enable (dma_adc_q0_enable),
.dma_adc_1_data (dma_adc_q0_data),
.dma_adc_1_valid (dma_adc_q0_valid),
.dma_adc_2_enable (dma_adc_i1_enable),
.dma_adc_2_data (dma_adc_i1_data),
.dma_adc_2_valid (dma_adc_i1_valid),
.dma_adc_3_enable (dma_adc_q1_enable),
.dma_adc_3_data (dma_adc_q1_data),
.dma_adc_3_valid (dma_adc_q1_valid),
.core_adc_0_enable (core_adc_i0_enable),
.core_adc_0_data (core_adc_i0_data),
.core_adc_0_valid (core_adc_i0_valid),
.core_adc_1_enable (core_adc_q0_enable),
.core_adc_1_data (core_adc_q0_data),
.core_adc_1_valid (core_adc_q0_valid),
.core_adc_2_enable (core_adc_i1_enable),
.core_adc_2_data (core_adc_i1_data),
.core_adc_2_valid (core_adc_i1_valid),
.core_adc_3_enable (core_adc_q1_enable),
.core_adc_3_data (core_adc_q1_data),
.core_adc_3_valid (core_adc_q1_valid));
endmodule
// ***************************************************************************
// ***************************************************************************