493 lines
14 KiB
Verilog
493 lines
14 KiB
Verilog
// ***************************************************************************
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// ***************************************************************************
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// Copyright 2011(c) Analog Devices, Inc.
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without modification,
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// are permitted provided that the following conditions are met:
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// - Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// - Redistributions in binary form must reproduce the above copyright
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// notice, this list of conditions and the following disclaimer in
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// the documentation and/or other materials provided with the
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// distribution.
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// - Neither the name of Analog Devices, Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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// - The use of this software may or may not infringe the patent rights
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// of one or more patent holders. This license does not release you
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// from the requirement that you obtain separate licenses from these
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// patent holders to use this software.
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// - Use of the software either in source or binary form, must be run
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// on or directly connected to an Analog Devices Inc. component.
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//
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// THIS SOFTWARE IS PROVIDED BY ANALOG DEVICES "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES,
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// INCLUDING, BUT NOT LIMITED TO, NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A
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// PARTICULAR PURPOSE ARE DISCLAIMED.
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//
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// IN NO EVENT SHALL ANALOG DEVICES BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, INTELLECTUAL PROPERTY
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// RIGHTS, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
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// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// ***************************************************************************
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// ***************************************************************************
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// ***************************************************************************
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// ***************************************************************************
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`timescale 1ns/100ps
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module system_top (
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sys_rst,
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sys_clk_p,
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sys_clk_n,
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uart_sin,
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uart_sout,
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ddr3_addr,
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ddr3_ba,
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ddr3_cas_n,
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ddr3_ck_n,
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ddr3_ck_p,
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ddr3_cke,
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ddr3_cs_n,
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ddr3_dm,
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ddr3_dq,
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ddr3_dqs_n,
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ddr3_dqs_p,
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ddr3_odt,
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ddr3_ras_n,
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ddr3_reset_n,
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ddr3_we_n,
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sgmii_rxp,
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sgmii_rxn,
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sgmii_txp,
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sgmii_txn,
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phy_rstn,
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mgt_clk_p,
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mgt_clk_n,
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mdio_mdc,
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mdio_mdio,
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fan_pwm,
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linear_flash_addr,
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linear_flash_adv_ldn,
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linear_flash_ce_n,
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linear_flash_oen,
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linear_flash_wen,
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linear_flash_dq_io,
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gpio_lcd,
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gpio_led,
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gpio_sw,
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iic_rstn,
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iic_scl,
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iic_sda,
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hdmi_out_clk,
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hdmi_hsync,
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hdmi_vsync,
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hdmi_data_e,
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hdmi_data,
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spdif,
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rx_ref_clk_0_p,
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rx_ref_clk_0_n,
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rx_data_0_p,
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rx_data_0_n,
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rx_ref_clk_1_p,
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rx_ref_clk_1_n,
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rx_data_1_p,
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rx_data_1_n,
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rx_sysref_p,
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rx_sysref_n,
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rx_sync_0_p,
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rx_sync_0_n,
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rx_sync_1_p,
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rx_sync_1_n,
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spi_csn_0,
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spi_csn_1,
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spi_clk,
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spi_sdio,
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spi_dirn,
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trig_p,
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trig_n,
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vdither_p,
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vdither_n,
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pwr_good,
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dac_clk,
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dac_data,
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dac_sync_0,
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dac_sync_1,
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fd_1,
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irq_1,
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fd_0,
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irq_0,
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pwdn_1,
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rst_1,
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drst_1,
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arst_1,
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pwdn_0,
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rst_0,
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drst_0,
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arst_0);
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input sys_rst;
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input sys_clk_p;
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input sys_clk_n;
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input uart_sin;
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output uart_sout;
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output [ 13:0] ddr3_addr;
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output [ 2:0] ddr3_ba;
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output ddr3_cas_n;
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output [ 0:0] ddr3_ck_n;
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output [ 0:0] ddr3_ck_p;
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output [ 0:0] ddr3_cke;
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output [ 0:0] ddr3_cs_n;
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output [ 7:0] ddr3_dm;
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inout [ 63:0] ddr3_dq;
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inout [ 7:0] ddr3_dqs_n;
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inout [ 7:0] ddr3_dqs_p;
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output [ 0:0] ddr3_odt;
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output ddr3_ras_n;
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output ddr3_reset_n;
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output ddr3_we_n;
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input sgmii_rxp;
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input sgmii_rxn;
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output sgmii_txp;
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output sgmii_txn;
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output phy_rstn;
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input mgt_clk_p;
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input mgt_clk_n;
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output mdio_mdc;
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inout mdio_mdio;
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output fan_pwm;
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output [26:1] linear_flash_addr;
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output linear_flash_adv_ldn;
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output linear_flash_ce_n;
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output linear_flash_oen;
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output linear_flash_wen;
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inout [15:0] linear_flash_dq_io;
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output [ 6:0] gpio_lcd;
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output [ 7:0] gpio_led;
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input [ 12:0] gpio_sw;
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output iic_rstn;
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inout iic_scl;
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inout iic_sda;
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output hdmi_out_clk;
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output hdmi_hsync;
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output hdmi_vsync;
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output hdmi_data_e;
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output [ 35:0] hdmi_data;
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output spdif;
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input rx_ref_clk_0_p;
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input rx_ref_clk_0_n;
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input [ 7:0] rx_data_0_p;
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input [ 7:0] rx_data_0_n;
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input rx_ref_clk_1_p;
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input rx_ref_clk_1_n;
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input [ 7:0] rx_data_1_p;
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input [ 7:0] rx_data_1_n;
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output rx_sysref_p;
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output rx_sysref_n;
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output rx_sync_0_p;
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output rx_sync_0_n;
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output rx_sync_1_p;
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output rx_sync_1_n;
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output spi_csn_0;
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output spi_csn_1;
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output spi_clk;
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inout spi_sdio;
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output spi_dirn;
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output dac_clk;
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output dac_data;
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output dac_sync_0;
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output dac_sync_1;
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input trig_p;
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input trig_n;
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output vdither_p;
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output vdither_n;
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inout pwr_good;
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inout fd_1;
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inout irq_1;
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inout fd_0;
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inout irq_0;
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inout pwdn_1;
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inout rst_1;
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inout drst_1;
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inout arst_1;
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inout pwdn_0;
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inout rst_0;
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inout drst_0;
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inout arst_0;
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// internal registers
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reg adc_wr = 'd0;
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reg [511:0] adc_wdata = 'd0;
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// internal signals
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wire [ 18:0] gpio_i;
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wire [ 18:0] gpio_o;
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wire [ 18:0] gpio_t;
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wire rx_ref_clk_0;
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wire rx_ref_clk_1;
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wire rx_sysref;
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wire rx_sync_0;
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wire rx_sync_1;
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wire spi_clk;
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wire spi_miso;
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wire spi_mosi;
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wire [ 31:0] mb_intrs;
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wire adc_clk;
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wire adc_valid_0;
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wire adc_enable_0;
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wire [255:0] adc_data_0;
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wire adc_valid_1;
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wire adc_enable_1;
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wire [255:0] adc_data_1;
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// interleaving
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always @(posedge adc_clk) begin
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adc_wr <= adc_enable_0 & adc_enable_1;
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adc_wdata[((16*31)+15):(16*31)] <= adc_data_1[((16*15)+15):(16*15)];
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adc_wdata[((16*30)+15):(16*30)] <= adc_data_0[((16*15)+15):(16*15)];
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adc_wdata[((16*29)+15):(16*29)] <= adc_data_1[((16*14)+15):(16*14)];
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adc_wdata[((16*28)+15):(16*28)] <= adc_data_0[((16*14)+15):(16*14)];
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adc_wdata[((16*27)+15):(16*27)] <= adc_data_1[((16*13)+15):(16*13)];
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adc_wdata[((16*26)+15):(16*26)] <= adc_data_0[((16*13)+15):(16*13)];
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adc_wdata[((16*25)+15):(16*25)] <= adc_data_1[((16*12)+15):(16*12)];
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adc_wdata[((16*24)+15):(16*24)] <= adc_data_0[((16*12)+15):(16*12)];
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adc_wdata[((16*23)+15):(16*23)] <= adc_data_1[((16*11)+15):(16*11)];
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adc_wdata[((16*22)+15):(16*22)] <= adc_data_0[((16*11)+15):(16*11)];
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adc_wdata[((16*21)+15):(16*21)] <= adc_data_1[((16*10)+15):(16*10)];
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adc_wdata[((16*20)+15):(16*20)] <= adc_data_0[((16*10)+15):(16*10)];
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adc_wdata[((16*19)+15):(16*19)] <= adc_data_1[((16* 9)+15):(16* 9)];
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adc_wdata[((16*18)+15):(16*18)] <= adc_data_0[((16* 9)+15):(16* 9)];
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adc_wdata[((16*17)+15):(16*17)] <= adc_data_1[((16* 8)+15):(16* 8)];
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adc_wdata[((16*16)+15):(16*16)] <= adc_data_0[((16* 8)+15):(16* 8)];
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adc_wdata[((16*15)+15):(16*15)] <= adc_data_1[((16* 7)+15):(16* 7)];
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adc_wdata[((16*14)+15):(16*14)] <= adc_data_0[((16* 7)+15):(16* 7)];
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adc_wdata[((16*13)+15):(16*13)] <= adc_data_1[((16* 6)+15):(16* 6)];
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adc_wdata[((16*12)+15):(16*12)] <= adc_data_0[((16* 6)+15):(16* 6)];
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adc_wdata[((16*11)+15):(16*11)] <= adc_data_1[((16* 5)+15):(16* 5)];
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adc_wdata[((16*10)+15):(16*10)] <= adc_data_0[((16* 5)+15):(16* 5)];
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adc_wdata[((16* 9)+15):(16* 9)] <= adc_data_1[((16* 4)+15):(16* 4)];
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adc_wdata[((16* 8)+15):(16* 8)] <= adc_data_0[((16* 4)+15):(16* 4)];
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adc_wdata[((16* 7)+15):(16* 7)] <= adc_data_1[((16* 3)+15):(16* 3)];
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adc_wdata[((16* 6)+15):(16* 6)] <= adc_data_0[((16* 3)+15):(16* 3)];
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adc_wdata[((16* 5)+15):(16* 5)] <= adc_data_1[((16* 2)+15):(16* 2)];
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adc_wdata[((16* 4)+15):(16* 4)] <= adc_data_0[((16* 2)+15):(16* 2)];
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adc_wdata[((16* 3)+15):(16* 3)] <= adc_data_1[((16* 1)+15):(16* 1)];
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adc_wdata[((16* 2)+15):(16* 2)] <= adc_data_0[((16* 1)+15):(16* 1)];
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adc_wdata[((16* 1)+15):(16* 1)] <= adc_data_1[((16* 0)+15):(16* 0)];
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adc_wdata[((16* 0)+15):(16* 0)] <= adc_data_0[((16* 0)+15):(16* 0)];
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end
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// instantiations
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IBUFDS_GTE2 i_ibufds_rx_ref_clk_0 (
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.CEB (1'd0),
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.I (rx_ref_clk_0_p),
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.IB (rx_ref_clk_0_n),
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.O (rx_ref_clk_0),
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.ODIV2 ());
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IBUFDS_GTE2 i_ibufds_rx_ref_clk_1 (
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.CEB (1'd0),
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.I (rx_ref_clk_1_p),
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.IB (rx_ref_clk_1_n),
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.O (rx_ref_clk_1),
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.ODIV2 ());
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OBUFDS i_obufds_rx_sysref (
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.I (rx_sysref),
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.O (rx_sysref_p),
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.OB (rx_sysref_n));
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OBUFDS i_obufds_rx_sync_0 (
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.I (rx_sync_0),
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.O (rx_sync_0_p),
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.OB (rx_sync_0_n));
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OBUFDS i_obufds_rx_sync_1 (
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.I (rx_sync_1),
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.O (rx_sync_1_p),
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.OB (rx_sync_1_n));
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IBUFDS i_ibufds_trig (
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.I (trig_p),
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.IB (trig_n),
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.O (gpio_i[14]));
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OBUFDS i_obufds_vdither (
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.I (gpio_o[13]),
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.O (vdither_p),
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.OB (vdither_n));
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ad_iobuf #(.DATA_WIDTH(13)) i_iobuf (
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.dt (gpio_t[12:0]),
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.di (gpio_o[12:0]),
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.do (gpio_i[12:0]),
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.dio ({ pwr_good, // 12
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fd_1, // 11
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irq_1, // 10
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fd_0, // 9
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irq_0, // 8
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pwdn_1, // 7
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rst_1, // 6
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drst_1, // 5
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arst_1, // 4
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pwdn_0, // 3
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rst_0, // 2
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drst_0, // 1
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arst_0})); // 0
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ad9625x2_fmc_spi i_ad9625x2_fmc_spi (
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.spi_csn_0 (spi_csn_0),
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.spi_csn_1 (spi_csn_1),
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.spi_clk (spi_clk),
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.spi_mosi (spi_mosi),
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.spi_miso (spi_miso),
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.spi_sdio (spi_sdio),
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.spi_dirn (spi_dirn));
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assign dac_clk = spi_clk;
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assign dac_data = spi_mosi;
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assign fan_pwm = 1'b1;
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system_wrapper i_system_wrapper (
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.ad9625_dma_intr (mb_intrs[13]),
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.ad9625_gpio_intr (mb_intrs[12]),
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.ad9625_spi_intr (mb_intrs[11]),
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.adc_clk (adc_clk),
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.adc_data_0 (adc_data_0),
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.adc_data_1 (adc_data_1),
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.adc_enable_0 (adc_enable_0),
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.adc_enable_1 (adc_enable_1),
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.adc_valid_0 (adc_valid_0),
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.adc_valid_1 (adc_valid_1),
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.adc_wdata (adc_wdata),
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.adc_wr (adc_wr),
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.ddr3_addr (ddr3_addr),
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.ddr3_ba (ddr3_ba),
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.ddr3_cas_n (ddr3_cas_n),
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.ddr3_ck_n (ddr3_ck_n),
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.ddr3_ck_p (ddr3_ck_p),
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.ddr3_cke (ddr3_cke),
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.ddr3_cs_n (ddr3_cs_n),
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.ddr3_dm (ddr3_dm),
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.ddr3_dq (ddr3_dq),
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.ddr3_dqs_n (ddr3_dqs_n),
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.ddr3_dqs_p (ddr3_dqs_p),
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.ddr3_odt (ddr3_odt),
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.ddr3_ras_n (ddr3_ras_n),
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.ddr3_reset_n (ddr3_reset_n),
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.ddr3_we_n (ddr3_we_n),
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.linear_flash_addr (linear_flash_addr),
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.linear_flash_adv_ldn (linear_flash_adv_ldn),
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.linear_flash_ce_n (linear_flash_ce_n),
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.linear_flash_oen (linear_flash_oen),
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.linear_flash_wen (linear_flash_wen),
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.linear_flash_dq_io(linear_flash_dq_io),
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.gpio_ad9625_i (gpio_i),
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.gpio_ad9625_o (gpio_o),
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.gpio_ad9625_t (gpio_t),
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.gpio_lcd_tri_o (gpio_lcd),
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.gpio_led_tri_o (gpio_led),
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.gpio_sw_tri_i (gpio_sw),
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.hdmi_data (hdmi_data),
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.hdmi_data_e (hdmi_data_e),
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.hdmi_hsync (hdmi_hsync),
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.hdmi_out_clk (hdmi_out_clk),
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.hdmi_vsync (hdmi_vsync),
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.iic_main_scl_io (iic_scl),
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.iic_main_sda_io (iic_sda),
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.iic_rstn (iic_rstn),
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.mb_intr_10 (mb_intrs[10]),
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.mb_intr_11 (mb_intrs[11]),
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.mb_intr_12 (mb_intrs[12]),
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.mb_intr_13 (mb_intrs[13]),
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.mb_intr_14 (mb_intrs[14]),
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.mb_intr_15 (mb_intrs[15]),
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.mb_intr_16 (mb_intrs[16]),
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.mb_intr_17 (mb_intrs[17]),
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.mb_intr_18 (mb_intrs[18]),
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.mb_intr_19 (mb_intrs[19]),
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.mb_intr_20 (mb_intrs[20]),
|
|
.mb_intr_21 (mb_intrs[21]),
|
|
.mb_intr_22 (mb_intrs[22]),
|
|
.mb_intr_23 (mb_intrs[23]),
|
|
.mb_intr_24 (mb_intrs[24]),
|
|
.mb_intr_25 (mb_intrs[25]),
|
|
.mb_intr_26 (mb_intrs[26]),
|
|
.mb_intr_27 (mb_intrs[27]),
|
|
.mb_intr_28 (mb_intrs[28]),
|
|
.mb_intr_29 (mb_intrs[29]),
|
|
.mb_intr_30 (mb_intrs[30]),
|
|
.mb_intr_31 (mb_intrs[31]),
|
|
.mdio_mdc (mdio_mdc),
|
|
.mdio_mdio_io (mdio_mdio),
|
|
.mgt_clk_clk_n (mgt_clk_n),
|
|
.mgt_clk_clk_p (mgt_clk_p),
|
|
.phy_rstn (phy_rstn),
|
|
.phy_sd (1'b1),
|
|
.rx_data_0_n (rx_data_0_n),
|
|
.rx_data_0_p (rx_data_0_p),
|
|
.rx_data_1_n (rx_data_1_n),
|
|
.rx_data_1_p (rx_data_1_p),
|
|
.rx_ref_clk_0 (rx_ref_clk_0),
|
|
.rx_ref_clk_1 (rx_ref_clk_1),
|
|
.rx_sync_0 (rx_sync_0),
|
|
.rx_sync_1 (rx_sync_1),
|
|
.rx_sysref (rx_sysref),
|
|
.sgmii_rxn (sgmii_rxn),
|
|
.sgmii_rxp (sgmii_rxp),
|
|
.sgmii_txn (sgmii_txn),
|
|
.sgmii_txp (sgmii_txp),
|
|
.spdif (spdif),
|
|
.spi_clk_i (1'b0),
|
|
.spi_clk_o (spi_clk),
|
|
.spi_csn_i (4'b1111),
|
|
.spi_csn_o ({dac_sync_1, dac_sync_0, spi_csn_1, spi_csn_0}),
|
|
.spi_sdi_i (spi_miso),
|
|
.spi_sdo_i (1'b0),
|
|
.spi_sdo_o (spi_mosi),
|
|
.sys_clk_n (sys_clk_n),
|
|
.sys_clk_p (sys_clk_p),
|
|
.sys_rst (sys_rst),
|
|
.uart_sin (uart_sin),
|
|
.uart_sout (uart_sout));
|
|
|
|
endmodule
|
|
|
|
// ***************************************************************************
|
|
// ***************************************************************************
|