279 lines
8.9 KiB
Verilog
279 lines
8.9 KiB
Verilog
// ***************************************************************************
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// ***************************************************************************
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// Copyright 2014 - 2020 (c) Analog Devices, Inc. All rights reserved.
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//
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// In this HDL repository, there are many different and unique modules, consisting
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// of various HDL (Verilog or VHDL) components. The individual modules are
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// developed independently, and may be accompanied by separate and unique license
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// terms.
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//
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// The user should read each of these license terms, and understand the
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// freedoms and responsibilities that he or she has by using this source/core.
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//
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// This core is distributed in the hope that it will be useful, but WITHOUT ANY
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// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
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// A PARTICULAR PURPOSE.
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//
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// Redistribution and use of source or resulting binaries, with or without modification
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// of this file, are permitted under one of the following two license terms:
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//
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// 1. The GNU General Public License version 2 as published by the
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// Free Software Foundation, which can be found in the top level directory
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// of this repository (LICENSE_GPL2), and also online at:
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// <https://www.gnu.org/licenses/old-licenses/gpl-2.0.html>
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//
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// OR
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//
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// 2. An ADI specific BSD license, which can be found in the top level directory
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// of this repository (LICENSE_ADIBSD), and also on-line at:
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// https://github.com/analogdevicesinc/hdl/blob/master/LICENSE_ADIBSD
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// This will allow to generate bit files and not release the source code,
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// as long as it attaches to an ADI device.
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//
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// ***************************************************************************
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// ***************************************************************************
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`timescale 1ns/100ps
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module adrv9001_rx #(
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parameter CMOS_LVDS_N = 0,
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parameter FPGA_TECHNOLOGY = 0,
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parameter NUM_LANES = 3,
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parameter DRP_WIDTH = 5,
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parameter IODELAY_CTRL = 0,
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parameter USE_BUFG = 0,
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parameter IO_DELAY_GROUP = "dev_if_delay_group"
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) (
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// device interface
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input rx_dclk_in_n_NC,
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input rx_dclk_in_p_dclk_in,
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input rx_idata_in_n_idata0,
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input rx_idata_in_p_idata1,
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input rx_qdata_in_n_qdata2,
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input rx_qdata_in_p_qdata3,
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input rx_strobe_in_n_NC,
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input rx_strobe_in_p_strobe_in,
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// internal reset and clocks
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input adc_rst,
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output adc_clk,
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output adc_clk_div,
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output [7:0] adc_data_0,
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output [7:0] adc_data_1,
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output [7:0] adc_data_2,
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output [7:0] adc_data_3,
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output [7:0] adc_data_strobe,
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output adc_valid,
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output [31:0] adc_clk_ratio,
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// delay interface (for IDELAY macros)
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input up_clk,
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input [NUM_LANES-1:0] up_adc_dld,
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input [DRP_WIDTH*NUM_LANES-1:0] up_adc_dwdata,
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output [DRP_WIDTH*NUM_LANES-1:0] up_adc_drdata,
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input delay_clk,
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input delay_rst,
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output delay_locked,
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input mssi_sync,
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output ssi_sync_out,
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input ssi_sync_in,
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output ssi_rst
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);
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// Use always DDR mode
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localparam DDR_OR_SDR_N = 1;
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localparam SEVEN_SERIES = 1;
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localparam ULTRASCALE = 2;
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localparam ULTRASCALE_PLUS = 3;
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// internal wire
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wire clk_in_s;
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wire [NUM_LANES-1:0] serdes_in_p;
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wire [NUM_LANES-1:0] serdes_in_n;
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wire [NUM_LANES-1:0] data_s0;
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wire [NUM_LANES-1:0] data_s1;
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wire [NUM_LANES-1:0] data_s2;
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wire [NUM_LANES-1:0] data_s3;
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wire [NUM_LANES-1:0] data_s4;
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wire [NUM_LANES-1:0] data_s5;
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wire [NUM_LANES-1:0] data_s6;
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wire [NUM_LANES-1:0] data_s7;
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wire adc_clk_in_fast;
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// internal registers
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// data interface
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ad_serdes_in #(
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.CMOS_LVDS_N (CMOS_LVDS_N),
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.FPGA_TECHNOLOGY (FPGA_TECHNOLOGY),
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.IODELAY_CTRL (IODELAY_CTRL),
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.IODELAY_GROUP (IO_DELAY_GROUP),
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.DDR_OR_SDR_N (DDR_OR_SDR_N),
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.DATA_WIDTH (NUM_LANES),
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.DRP_WIDTH (DRP_WIDTH),
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.SERDES_FACTOR (8)
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) i_serdes (
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.rst (adc_rst|ssi_rst),
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.clk (adc_clk_in_fast),
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.div_clk (adc_clk_div),
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.loaden (1'b0),
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.phase (8'b0),
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.locked (1'b0),
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.data_s0 (data_s0),
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.data_s1 (data_s1),
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.data_s2 (data_s2),
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.data_s3 (data_s3),
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.data_s4 (data_s4),
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.data_s5 (data_s5),
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.data_s6 (data_s6),
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.data_s7 (data_s7),
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.data_in_p (serdes_in_p),
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.data_in_n (serdes_in_n),
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.up_clk (up_clk),
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.up_dld (up_adc_dld),
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.up_dwdata (up_adc_dwdata),
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.up_drdata (up_adc_drdata),
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.delay_clk (delay_clk),
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.delay_rst (delay_rst),
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.delay_locked (delay_locked));
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generate
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if (CMOS_LVDS_N == 0) begin
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IBUFGDS i_clk_in_ibuf (
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.I (rx_dclk_in_p_dclk_in),
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.IB (rx_dclk_in_n_NC),
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.O (clk_in_s));
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assign {adc_data_strobe[0],adc_data_1[0],adc_data_0[0]} = data_s0;
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assign {adc_data_strobe[1],adc_data_1[1],adc_data_0[1]} = data_s1;
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assign {adc_data_strobe[2],adc_data_1[2],adc_data_0[2]} = data_s2;
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assign {adc_data_strobe[3],adc_data_1[3],adc_data_0[3]} = data_s3;
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assign {adc_data_strobe[4],adc_data_1[4],adc_data_0[4]} = data_s4;
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assign {adc_data_strobe[5],adc_data_1[5],adc_data_0[5]} = data_s5;
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assign {adc_data_strobe[6],adc_data_1[6],adc_data_0[6]} = data_s6;
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assign {adc_data_strobe[7],adc_data_1[7],adc_data_0[7]} = data_s7;
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assign serdes_in_p = {rx_strobe_in_p_strobe_in,
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rx_qdata_in_p_qdata3,
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rx_idata_in_p_idata1};
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assign serdes_in_n = {rx_strobe_in_n_NC,
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rx_qdata_in_n_qdata2,
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rx_idata_in_n_idata0};
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end else begin
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IBUF i_clk_in_ibuf (
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.I (rx_dclk_in_p_dclk_in),
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.O (clk_in_s));
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assign {adc_data_strobe[0],adc_data_3[0],adc_data_2[0],adc_data_1[0],adc_data_0[0]} = data_s0;
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assign {adc_data_strobe[1],adc_data_3[1],adc_data_2[1],adc_data_1[1],adc_data_0[1]} = data_s1;
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assign {adc_data_strobe[2],adc_data_3[2],adc_data_2[2],adc_data_1[2],adc_data_0[2]} = data_s2;
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assign {adc_data_strobe[3],adc_data_3[3],adc_data_2[3],adc_data_1[3],adc_data_0[3]} = data_s3;
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assign {adc_data_strobe[4],adc_data_3[4],adc_data_2[4],adc_data_1[4],adc_data_0[4]} = data_s4;
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assign {adc_data_strobe[5],adc_data_3[5],adc_data_2[5],adc_data_1[5],adc_data_0[5]} = data_s5;
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assign {adc_data_strobe[6],adc_data_3[6],adc_data_2[6],adc_data_1[6],adc_data_0[6]} = data_s6;
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assign {adc_data_strobe[7],adc_data_3[7],adc_data_2[7],adc_data_1[7],adc_data_0[7]} = data_s7;
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assign serdes_in_p = {rx_strobe_in_p_strobe_in,
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rx_qdata_in_p_qdata3,
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rx_qdata_in_n_qdata2,
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rx_idata_in_p_idata1,
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rx_idata_in_n_idata0};
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assign serdes_in_n = 5'b0;
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end
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endgenerate
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generate
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if (FPGA_TECHNOLOGY == SEVEN_SERIES) begin
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BUFIO i_clk_buf (
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.I (clk_in_s),
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.O (adc_clk_in_fast));
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BUFR #(
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.BUFR_DIVIDE("4")
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) i_div_clk_buf (
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.CLR (mssi_sync),
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.CE (1'b1),
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.I (clk_in_s),
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.O (adc_clk_div_s));
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if (USE_BUFG == 1) begin
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BUFG I_bufg (
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.I (adc_clk_div_s),
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.O (adc_clk_div));
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end else begin
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assign adc_clk_div = adc_clk_div_s;
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end
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xpm_cdc_async_rst #(
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.DEST_SYNC_FF (10), // DECIMAL; range: 2-10
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.INIT_SYNC_FF ( 0), // DECIMAL; 0=disable simulation init values, 1=enable simulation init values
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.RST_ACTIVE_HIGH ( 1) // DECIMAL; 0=active low reset, 1=active high reset
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) rst_syncro (
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.src_arst (mssi_sync),
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.dest_clk (adc_clk_div),
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.dest_arst(ssi_rst));
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end else begin
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wire adc_clk_in;
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reg mssi_sync_d = 1'b0;
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reg mssi_sync_2d = 1'b0;
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reg mssi_sync_3d = 1'b0;
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reg mssi_sync_edge = 1'b0;
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always @(posedge adc_clk_in) begin
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mssi_sync_d <= mssi_sync;
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mssi_sync_2d <= mssi_sync_d;
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mssi_sync_3d <= mssi_sync_2d;
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mssi_sync_edge <= mssi_sync_2d & ~mssi_sync_3d;
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end
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assign ssi_sync_out = mssi_sync_edge;
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reg ssi_rst_pos;
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always @(posedge adc_clk_in) begin
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ssi_rst_pos <= ssi_sync_in;
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end
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assign adc_clk_in = clk_in_s;
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BUFGCE #(
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.CE_TYPE ("SYNC"),
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.IS_CE_INVERTED (1'b0),
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.IS_I_INVERTED (1'b0)
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) i_clk_buf_fast (
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.O (adc_clk_in_fast),
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.CE (1'b1),
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.I (adc_clk_in));
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BUFGCE_DIV #(
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.BUFGCE_DIVIDE (4),
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.IS_CE_INVERTED (1'b0),
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.IS_CLR_INVERTED (1'b0),
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.IS_I_INVERTED (1'b0)
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) i_div_clk_buf (
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.O (adc_clk_div),
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.CE (1'b1),
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.CLR (ssi_rst),
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.I (adc_clk_in));
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assign ssi_rst = ssi_rst_pos;
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end
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endgenerate
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assign adc_clk = adc_clk_in_fast;
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assign adc_valid = ~adc_rst;
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assign adc_clk_ratio = 4;
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endmodule
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