pluto_hdl_adi/library/xilinx/common/ad_data_in.v

// ***************************************************************************
// ***************************************************************************
// 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 ad_data_in #(

  // parameters

  parameter   SINGLE_ENDED = 0,
  parameter   FPGA_TECHNOLOGY = 0,
  parameter   IODELAY_ENABLE = 1,
  parameter   IODELAY_CTRL = 0,
  parameter   IODELAY_GROUP = "dev_if_delay_group",
  parameter   REFCLK_FREQUENCY = 200) (

  // data interface

  input               rx_clk,
  input               rx_data_in_p,
  input               rx_data_in_n,
  output              rx_data_p,
  output              rx_data_n,

  // delay-data interface

  input               up_clk,
  input               up_dld,
  input       [ 4:0]  up_dwdata,
  output      [ 4:0]  up_drdata,

  // delay-cntrl interface

  input               delay_clk,
  input               delay_rst,
  output              delay_locked);

  // internal parameters

  localparam  NONE = -1;
  localparam  SEVEN_SERIES = 1;
  localparam  ULTRASCALE = 2;
  localparam  ULTRASCALE_PLUS = 3;

  localparam  IODELAY_CTRL_ENABLED = (IODELAY_ENABLE == 1) ? IODELAY_CTRL : 0;
  localparam  IODELAY_CTRL_SIM_DEVICE = (FPGA_TECHNOLOGY == ULTRASCALE_PLUS) ? "ULTRASCALE" :
    (FPGA_TECHNOLOGY == ULTRASCALE) ? "ULTRASCALE" : "7SERIES";

  localparam  IODELAY_FPGA_TECHNOLOGY = (IODELAY_ENABLE == 1) ? FPGA_TECHNOLOGY : NONE;
  localparam  IODELAY_SIM_DEVICE = (FPGA_TECHNOLOGY == ULTRASCALE_PLUS) ? "ULTRASCALE_PLUS" :
    (FPGA_TECHNOLOGY == ULTRASCALE) ? "ULTRASCALE" : "7SERIES";

  // internal signals

  wire                rx_data_ibuf_s;
  wire                rx_data_idelay_s;
  wire        [ 8:0]  up_drdata_s;

  // delay controller

  generate
  if (IODELAY_CTRL_ENABLED == 0) begin
  assign delay_locked = 1'b1;
  end else begin
  (* IODELAY_GROUP = IODELAY_GROUP *)
  IDELAYCTRL #(.SIM_DEVICE (IODELAY_CTRL_SIM_DEVICE)) i_delay_ctrl (
    .RST (delay_rst),
    .REFCLK (delay_clk),
    .RDY (delay_locked));
  end
  endgenerate

  // receive data interface, ibuf -> idelay -> iddr

  generate
  if (SINGLE_ENDED == 1) begin
  IBUF i_rx_data_ibuf (
    .I (rx_data_in_p),
    .O (rx_data_ibuf_s));
  end else begin
  IBUFDS i_rx_data_ibuf (
    .I (rx_data_in_p),
    .IB (rx_data_in_n),
    .O (rx_data_ibuf_s));
  end
  endgenerate

  // idelay

  generate
  if (IODELAY_FPGA_TECHNOLOGY == SEVEN_SERIES) begin
  (* IODELAY_GROUP = IODELAY_GROUP *)
  IDELAYE2 #(
    .CINVCTRL_SEL ("FALSE"),
    .DELAY_SRC ("IDATAIN"),
    .HIGH_PERFORMANCE_MODE ("FALSE"),
    .IDELAY_TYPE ("VAR_LOAD"),
    .IDELAY_VALUE (0),
    .REFCLK_FREQUENCY (REFCLK_FREQUENCY),
    .PIPE_SEL ("FALSE"),
    .SIGNAL_PATTERN ("DATA"))
  i_rx_data_idelay (
    .CE (1'b0),
    .INC (1'b0),
    .DATAIN (1'b0),
    .LDPIPEEN (1'b0),
    .CINVCTRL (1'b0),
    .REGRST (1'b0),
    .C (up_clk),
    .IDATAIN (rx_data_ibuf_s),
    .DATAOUT (rx_data_idelay_s),
    .LD (up_dld),
    .CNTVALUEIN (up_dwdata),
    .CNTVALUEOUT (up_drdata));
  end
  endgenerate

  generate
  if ((IODELAY_FPGA_TECHNOLOGY == ULTRASCALE) || (IODELAY_FPGA_TECHNOLOGY == ULTRASCALE_PLUS)) begin
  assign up_drdata = up_drdata_s[8:4];
  (* IODELAY_GROUP = IODELAY_GROUP *)
  IDELAYE3 #(
    .SIM_DEVICE (IODELAY_SIM_DEVICE),
    .DELAY_SRC ("IDATAIN"),
    .DELAY_TYPE ("VAR_LOAD"),
    .REFCLK_FREQUENCY (REFCLK_FREQUENCY),
    .DELAY_FORMAT ("COUNT"))
  i_rx_data_idelay (
    .CASC_RETURN (1'b0),
    .CASC_IN (1'b0),
    .CASC_OUT (),
    .CE (1'b0),
    .CLK (up_clk),
    .INC (1'b0),
    .LOAD (up_dld),
    .CNTVALUEIN ({up_dwdata, 4'd0}),
    .CNTVALUEOUT (up_drdata_s),
    .DATAIN (1'b0),
    .IDATAIN (rx_data_ibuf_s),
    .DATAOUT (rx_data_idelay_s),
    .RST (1'b0),
    .EN_VTC (~up_dld));
  end
  endgenerate

  generate
  if (IODELAY_FPGA_TECHNOLOGY == NONE) begin
  assign rx_data_idelay_s = rx_data_ibuf_s;
	assign up_drdata = 5'd0;
  end
  endgenerate

  // iddr

  generate
  if ((FPGA_TECHNOLOGY == ULTRASCALE) || (FPGA_TECHNOLOGY == ULTRASCALE_PLUS)) begin
  IDDRE1 #(.DDR_CLK_EDGE ("SAME_EDGE")) i_rx_data_iddr (
    .R (1'b0),
    .C (rx_clk),
    .CB (~rx_clk),
    .D (rx_data_idelay_s),
    .Q1 (rx_data_p),
    .Q2 (rx_data_n));
  end
  endgenerate

  generate
  if (FPGA_TECHNOLOGY == SEVEN_SERIES) begin
  IDDR #(.DDR_CLK_EDGE ("SAME_EDGE")) i_rx_data_iddr (
    .CE (1'b1),
    .R (1'b0),
    .S (1'b0),
    .C (rx_clk),
    .D (rx_data_idelay_s),
    .Q1 (rx_data_p),
    .Q2 (rx_data_n));
  end
  endgenerate

endmodule

// ***************************************************************************
// ***************************************************************************
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`// ***************************************************************************`
			`// ***************************************************************************`
			`// 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`
license: Fix a spelling mistake 2018-03-14 14:45:47 +00:00			`// freedoms and responsibilities that he or she has by using this source/core.`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`//`
			`// 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 ad_data_in #(`

			`// parameters`

			`parameter SINGLE_ENDED = 0,`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`parameter FPGA_TECHNOLOGY = 0,`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`parameter IODELAY_ENABLE = 1,`
			`parameter IODELAY_CTRL = 0,`
iodelay: Expose the REFCLK_FREQUENCY parameter 2019-06-05 12:23:46 +00:00			`parameter IODELAY_GROUP = "dev_if_delay_group",`
			`parameter REFCLK_FREQUENCY = 200) (`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00
			`// data interface`

			`input rx_clk,`
			`input rx_data_in_p,`
			`input rx_data_in_n,`
			`output rx_data_p,`
			`output rx_data_n,`

			`// delay-data interface`

			`input up_clk,`
			`input up_dld,`
			`input [ 4:0] up_dwdata,`
			`output [ 4:0] up_drdata,`

			`// delay-cntrl interface`

			`input delay_clk,`
			`input delay_rst,`
			`output delay_locked);`

			`// internal parameters`

			`localparam NONE = -1;`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`localparam SEVEN_SERIES = 1;`
			`localparam ULTRASCALE = 2;`
			`localparam ULTRASCALE_PLUS = 3;`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00
			`localparam IODELAY_CTRL_ENABLED = (IODELAY_ENABLE == 1) ? IODELAY_CTRL : 0;`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`localparam IODELAY_CTRL_SIM_DEVICE = (FPGA_TECHNOLOGY == ULTRASCALE_PLUS) ? "ULTRASCALE" :`
			`(FPGA_TECHNOLOGY == ULTRASCALE) ? "ULTRASCALE" : "7SERIES";`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`localparam IODELAY_FPGA_TECHNOLOGY = (IODELAY_ENABLE == 1) ? FPGA_TECHNOLOGY : NONE;`
			`localparam IODELAY_SIM_DEVICE = (FPGA_TECHNOLOGY == ULTRASCALE_PLUS) ? "ULTRASCALE_PLUS" :`
			`(FPGA_TECHNOLOGY == ULTRASCALE) ? "ULTRASCALE" : "7SERIES";`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00
			`// internal signals`

			`wire rx_data_ibuf_s;`
			`wire rx_data_idelay_s;`
			`wire [ 8:0] up_drdata_s;`

			`// delay controller`

			`generate`
			`if (IODELAY_CTRL_ENABLED == 0) begin`
			`assign delay_locked = 1'b1;`
			`end else begin`
library/xilinx/common- add iodelay group 2017-07-25 14:22:52 +00:00			`(* IODELAY_GROUP = IODELAY_GROUP *)`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`IDELAYCTRL #(.SIM_DEVICE (IODELAY_CTRL_SIM_DEVICE)) i_delay_ctrl (`
			`.RST (delay_rst),`
			`.REFCLK (delay_clk),`
			`.RDY (delay_locked));`
			`end`
			`endgenerate`

			`// receive data interface, ibuf -> idelay -> iddr`

			`generate`
			`if (SINGLE_ENDED == 1) begin`
			`IBUF i_rx_data_ibuf (`
			`.I (rx_data_in_p),`
			`.O (rx_data_ibuf_s));`
			`end else begin`
			`IBUFDS i_rx_data_ibuf (`
			`.I (rx_data_in_p),`
			`.IB (rx_data_in_n),`
			`.O (rx_data_ibuf_s));`
			`end`
			`endgenerate`

			`// idelay`

			`generate`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`if (IODELAY_FPGA_TECHNOLOGY == SEVEN_SERIES) begin`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`(* IODELAY_GROUP = IODELAY_GROUP *)`
			`IDELAYE2 #(`
			`.CINVCTRL_SEL ("FALSE"),`
			`.DELAY_SRC ("IDATAIN"),`
			`.HIGH_PERFORMANCE_MODE ("FALSE"),`
			`.IDELAY_TYPE ("VAR_LOAD"),`
			`.IDELAY_VALUE (0),`
iodelay: Expose the REFCLK_FREQUENCY parameter 2019-06-05 12:23:46 +00:00			`.REFCLK_FREQUENCY (REFCLK_FREQUENCY),`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`.PIPE_SEL ("FALSE"),`
			`.SIGNAL_PATTERN ("DATA"))`
			`i_rx_data_idelay (`
			`.CE (1'b0),`
			`.INC (1'b0),`
			`.DATAIN (1'b0),`
			`.LDPIPEEN (1'b0),`
			`.CINVCTRL (1'b0),`
			`.REGRST (1'b0),`
			`.C (up_clk),`
			`.IDATAIN (rx_data_ibuf_s),`
			`.DATAOUT (rx_data_idelay_s),`
			`.LD (up_dld),`
			`.CNTVALUEIN (up_dwdata),`
			`.CNTVALUEOUT (up_drdata));`
			`end`
			`endgenerate`

			`generate`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`if ((IODELAY_FPGA_TECHNOLOGY == ULTRASCALE) \|\| (IODELAY_FPGA_TECHNOLOGY == ULTRASCALE_PLUS)) begin`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`assign up_drdata = up_drdata_s[8:4];`
			`(* IODELAY_GROUP = IODELAY_GROUP *)`
			`IDELAYE3 #(`
			`.SIM_DEVICE (IODELAY_SIM_DEVICE),`
			`.DELAY_SRC ("IDATAIN"),`
			`.DELAY_TYPE ("VAR_LOAD"),`
iodelay: Expose the REFCLK_FREQUENCY parameter 2019-06-05 12:23:46 +00:00			`.REFCLK_FREQUENCY (REFCLK_FREQUENCY),`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`.DELAY_FORMAT ("COUNT"))`
			`i_rx_data_idelay (`
			`.CASC_RETURN (1'b0),`
			`.CASC_IN (1'b0),`
			`.CASC_OUT (),`
			`.CE (1'b0),`
			`.CLK (up_clk),`
			`.INC (1'b0),`
			`.LOAD (up_dld),`
			`.CNTVALUEIN ({up_dwdata, 4'd0}),`
			`.CNTVALUEOUT (up_drdata_s),`
			`.DATAIN (1'b0),`
			`.IDATAIN (rx_data_ibuf_s),`
			`.DATAOUT (rx_data_idelay_s),`
			`.RST (1'b0),`
			`.EN_VTC (~up_dld));`
			`end`
			`endgenerate`

			`generate`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`if (IODELAY_FPGA_TECHNOLOGY == NONE) begin`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`assign rx_data_idelay_s = rx_data_ibuf_s;`
			`assign up_drdata = 5'd0;`
			`end`
			`endgenerate`

			`// iddr`

			`generate`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`if ((FPGA_TECHNOLOGY == ULTRASCALE) \|\| (FPGA_TECHNOLOGY == ULTRASCALE_PLUS)) begin`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`IDDRE1 #(.DDR_CLK_EDGE ("SAME_EDGE")) i_rx_data_iddr (`
			`.R (1'b0),`
			`.C (rx_clk),`
			`.CB (~rx_clk),`
			`.D (rx_data_idelay_s),`
			`.Q1 (rx_data_p),`
			`.Q2 (rx_data_n));`
			`end`
			`endgenerate`

			`generate`
Add FPGA info parameters flow Common basic steps: - Include/create infrastructure: * Intel: - require quartus::device package - set_module_property VALIDATION_CALLBACK info_param_validate * Xilinx - add bd.tcl, containing init{} procedure. The init procedure will be called when the IP will be instantiated into the block design. - add to the xilinx_blockdiagram file group the bd.tcl and common_bd.tcl - create GUI files - add parameters in _ip.tcl and _hw.tcl (adi_add_auto_fpga_spec_params) - add/propagate the info parameters through the IP verilog files axi_clkgen util_adxcvr ad_ip_jesd204_tpl_adc ad_ip_jesd204_tpl_dac axi_ad5766 axi_ad6676 axi_ad9122 axi_ad9144 axi_ad9152 axi_ad9162 axi_ad9250 axi_ad9265 axi_ad9680 axi_ad9361 axi_ad9371 axi_adrv9009 axi_ad9739a axi_ad9434 axi_ad9467 axi_ad9684 axi_ad9963 axi_ad9625 axi_ad9671 axi_hdmi_tx axi_fmcadc5_sync 2019-01-11 08:54:16 +00:00			`if (FPGA_TECHNOLOGY == SEVEN_SERIES) begin`
library/xilinx- lvds/cmos integration 2017-07-24 20:25:24 +00:00			`IDDR #(.DDR_CLK_EDGE ("SAME_EDGE")) i_rx_data_iddr (`
			`.CE (1'b1),`
			`.R (1'b0),`
			`.S (1'b0),`
			`.C (rx_clk),`
			`.D (rx_data_idelay_s),`
			`.Q1 (rx_data_p),`
			`.Q2 (rx_data_n));`
			`end`
			`endgenerate`

			`endmodule`

			`// ***************************************************************************`
			`// ***************************************************************************`