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pluto_hdl_adi/projects/ad9081_fmca_ebz/zcu102/system_top.v

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// ***************************************************************************
// ***************************************************************************
// 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 responsibilities 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/100ps
module system_top #(
parameter TX_JESD_L = 8,
parameter TX_NUM_LINKS = 1,
parameter RX_JESD_L = 8,
parameter RX_NUM_LINKS = 1
) (
input [12:0] gpio_bd_i,
output [ 7:0] gpio_bd_o,
// FMC HPC IOs
input [1:0] agc0,
input [1:0] agc1,
input [1:0] agc2,
input [1:0] agc3,
input clkin6_n,
input clkin6_p,
input clkin10_n,
input clkin10_p,
input fpga_refclk_in_n,
input fpga_refclk_in_p,
input [RX_JESD_L*RX_NUM_LINKS-1:0] rx_data_n,
input [RX_JESD_L*RX_NUM_LINKS-1:0] rx_data_p,
output [TX_JESD_L*TX_NUM_LINKS-1:0] tx_data_n,
output [TX_JESD_L*TX_NUM_LINKS-1:0] tx_data_p,
input [TX_NUM_LINKS-1:0] fpga_syncin_n,
input [TX_NUM_LINKS-1:0] fpga_syncin_p,
output [RX_NUM_LINKS-1:0] fpga_syncout_n,
output [RX_NUM_LINKS-1:0] fpga_syncout_p,
inout [10:0] gpio,
inout hmc_gpio1,
output hmc_sync,
input [1:0] irqb,
output rstb,
output [1:0] rxen,
output spi0_csb,
input spi0_miso,
output spi0_mosi,
output spi0_sclk,
output spi1_csb,
output spi1_sclk,
inout spi1_sdio,
input sysref2_n,
input sysref2_p,
output [1:0] txen
);
// internal signals
wire [94:0] gpio_i;
wire [94:0] gpio_o;
wire [94:0] gpio_t;
wire [ 2:0] spi0_csn;
wire [ 2:0] spi1_csn;
wire spi1_mosi;
wire spi1_miso;
wire ref_clk;
wire sysref;
wire [TX_NUM_LINKS-1:0] tx_syncin;
wire [RX_NUM_LINKS-1:0] rx_syncout;
wire [7:0] rx_data_p_loc;
wire [7:0] rx_data_n_loc;
wire [7:0] tx_data_p_loc;
wire [7:0] tx_data_n_loc;
wire clkin6;
wire clkin10;
wire tx_device_clk;
wire rx_device_clk;
assign iic_rstn = 1'b1;
// instantiations
IBUFDS_GTE4 i_ibufds_ref_clk (
.CEB (1'd0),
.I (fpga_refclk_in_p),
.IB (fpga_refclk_in_n),
.O (ref_clk),
.ODIV2 ());
IBUFDS i_ibufds_sysref (
.I (sysref2_p),
.IB (sysref2_n),
.O (sysref));
IBUFDS i_ibufds_tx_device_clk (
.I (clkin6_p),
.IB (clkin6_n),
.O (clkin6));
IBUFDS i_ibufds_rx_device_clk (
.I (clkin10_p),
.IB (clkin10_n),
.O (clkin10));
genvar i;
generate
for(i=0;i<TX_NUM_LINKS;i=i+1) begin : g_tx_buffers
IBUFDS i_ibufds_syncin (
.I (fpga_syncin_p[i]),
.IB (fpga_syncin_n[i]),
.O (tx_syncin[i]));
end
for(i=0;i<RX_NUM_LINKS;i=i+1) begin : g_rx_buffers
OBUFDS i_obufds_syncout (
.I (rx_syncout[i]),
.O (fpga_syncout_p[i]),
.OB (fpga_syncout_n[i]));
end
endgenerate
BUFG i_tx_device_clk (
.I (clkin6),
.O (tx_device_clk)
);
BUFG i_rx_device_clk (
.I (clkin10),
.O (rx_device_clk)
);
// spi
assign spi0_csb = spi0_csn[0];
assign spi1_csb = spi1_csn[0];
ad_3w_spi #(.NUM_OF_SLAVES(1)) i_spi (
.spi_csn (spi1_csn[0]),
.spi_clk (spi1_sclk),
.spi_mosi (spi1_mosi),
.spi_miso (spi1_miso),
.spi_sdio (spi1_sdio),
.spi_dir ());
// gpios
ad_iobuf #(.DATA_WIDTH(12)) i_iobuf (
.dio_t (gpio_t[43:32]),
.dio_i (gpio_o[43:32]),
.dio_o (gpio_i[43:32]),
.dio_p ({hmc_gpio1, // 43
gpio[10:0]})); // 42-32
assign gpio_i[44] = agc0[0];
assign gpio_i[45] = agc0[1];
assign gpio_i[46] = agc1[0];
assign gpio_i[47] = agc1[1];
assign gpio_i[48] = agc2[0];
assign gpio_i[49] = agc2[1];
assign gpio_i[50] = agc3[0];
assign gpio_i[51] = agc3[1];
assign gpio_i[52] = irqb[0];
assign gpio_i[53] = irqb[1];
assign hmc_sync = gpio_o[54];
assign rstb = gpio_o[55];
assign rxen[0] = gpio_o[56];
assign rxen[1] = gpio_o[57];
assign txen[0] = gpio_o[58];
assign txen[1] = gpio_o[59];
assign dac_fifo_bypass = gpio_o[60];
/* Board GPIOS. Buttons, LEDs, etc... */
assign gpio_i[20: 8] = gpio_bd_i;
assign gpio_bd_o = gpio_o[7:0];
// Unused GPIOs
assign gpio_i[94:54] = gpio_o[94:54];
assign gpio_i[31:21] = gpio_o[31:21];
assign gpio_i[7:0] = gpio_o[7:0];
system_wrapper i_system_wrapper (
.gpio_i (gpio_i),
.gpio_o (gpio_o),
.gpio_t (gpio_t),
.spi0_csn (spi0_csn),
.spi0_miso (spi0_miso),
.spi0_mosi (spi0_mosi),
.spi0_sclk (spi0_sclk),
.spi1_csn (spi1_csn),
.spi1_miso (spi1_miso),
.spi1_mosi (spi1_mosi),
.spi1_sclk (spi1_sclk),
// FMC HPC
.rx_data_0_n (rx_data_n_loc[0]),
.rx_data_0_p (rx_data_p_loc[0]),
.rx_data_1_n (rx_data_n_loc[1]),
.rx_data_1_p (rx_data_p_loc[1]),
.rx_data_2_n (rx_data_n_loc[2]),
.rx_data_2_p (rx_data_p_loc[2]),
.rx_data_3_n (rx_data_n_loc[3]),
.rx_data_3_p (rx_data_p_loc[3]),
.rx_data_4_n (rx_data_n_loc[4]),
.rx_data_4_p (rx_data_p_loc[4]),
.rx_data_5_n (rx_data_n_loc[5]),
.rx_data_5_p (rx_data_p_loc[5]),
.rx_data_6_n (rx_data_n_loc[6]),
.rx_data_6_p (rx_data_p_loc[6]),
.rx_data_7_n (rx_data_n_loc[7]),
.rx_data_7_p (rx_data_p_loc[7]),
.tx_data_0_n (tx_data_n_loc[0]),
.tx_data_0_p (tx_data_p_loc[0]),
.tx_data_1_n (tx_data_n_loc[1]),
.tx_data_1_p (tx_data_p_loc[1]),
.tx_data_2_n (tx_data_n_loc[2]),
.tx_data_2_p (tx_data_p_loc[2]),
.tx_data_3_n (tx_data_n_loc[3]),
.tx_data_3_p (tx_data_p_loc[3]),
.tx_data_4_n (tx_data_n_loc[4]),
.tx_data_4_p (tx_data_p_loc[4]),
.tx_data_5_n (tx_data_n_loc[5]),
.tx_data_5_p (tx_data_p_loc[5]),
.tx_data_6_n (tx_data_n_loc[6]),
.tx_data_6_p (tx_data_p_loc[6]),
.tx_data_7_n (tx_data_n_loc[7]),
.tx_data_7_p (tx_data_p_loc[7]),
.ref_clk_q0 (ref_clk),
.ref_clk_q1 (ref_clk),
.rx_device_clk (rx_device_clk),
.tx_device_clk (tx_device_clk),
.rx_sync_0 (rx_syncout),
.tx_sync_0 (tx_syncin),
.rx_sysref_0 (sysref),
.tx_sysref_0 (sysref),
.dac_fifo_bypass (dac_fifo_bypass)
);
assign rx_data_p_loc[RX_JESD_L*RX_NUM_LINKS-1:0] = rx_data_p[RX_JESD_L*RX_NUM_LINKS-1:0];
assign rx_data_n_loc[RX_JESD_L*RX_NUM_LINKS-1:0] = rx_data_n[RX_JESD_L*RX_NUM_LINKS-1:0];
assign tx_data_p[TX_JESD_L*TX_NUM_LINKS-1:0] = tx_data_p_loc[TX_JESD_L*TX_NUM_LINKS-1:0];
assign tx_data_n[TX_JESD_L*TX_NUM_LINKS-1:0] = tx_data_n_loc[TX_JESD_L*TX_NUM_LINKS-1:0];
endmodule
// ***************************************************************************
// ***************************************************************************
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