pluto_hdl_adi/library/axi_ad9467/axi_ad9467_if.v

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// ***************************************************************************
// ***************************************************************************
// Copyright 2014 - 2017 (c) Analog Devices, Inc. All rights reserved.
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//
// 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
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// 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.
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//
// 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:
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//
// 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.
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//
// ***************************************************************************
// ***************************************************************************
// This is the LVDS/DDR interface
`timescale 1ns/100ps
module axi_ad9467_if #(
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parameter FPGA_TECHNOLOGY = 0,
parameter IO_DELAY_GROUP = "dev_if_delay_group",
parameter DELAY_REFCLK_FREQUENCY = 200) (
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// adc interface (clk, data, over-range)
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input adc_clk_in_p,
input adc_clk_in_n,
input [ 7:0] adc_data_in_p,
input [ 7:0] adc_data_in_n,
input adc_or_in_p,
input adc_or_in_n,
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// interface outputs
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output adc_clk,
output reg [15:0] adc_data,
output reg adc_or,
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// processor interface
input adc_ddr_edgesel,
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// delay control signals
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input up_clk,
input [ 8:0] up_dld,
input [44:0] up_dwdata,
output [44:0] up_drdata,
input delay_clk,
input delay_rst,
output delay_locked);
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// internal registers
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reg [ 7:0] adc_data_p = 'd0;
reg [ 7:0] adc_data_n = 'd0;
reg [ 7:0] adc_data_p_d = 'd0;
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reg [ 7:0] adc_dmux_a = 'd0;
reg [ 7:0] adc_dmux_b = 'd0;
reg adc_or_p = 'd0;
reg adc_or_n = 'd0;
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// internal signals
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wire [ 7:0] adc_data_p_s;
wire [ 7:0] adc_data_n_s;
wire adc_or_p_s;
wire adc_or_n_s;
genvar l_inst;
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// sample select (p/n) swap
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always @(posedge adc_clk) begin
adc_data_p <= adc_data_p_s;
adc_data_n <= adc_data_n_s;
adc_data_p_d <= adc_data_p;
adc_dmux_a <= (adc_ddr_edgesel == 1'b1) ? adc_data_n : adc_data_p;
adc_dmux_b <= (adc_ddr_edgesel == 1'b1) ? adc_data_p_d : adc_data_n;
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adc_data[15] <= adc_dmux_b[7];
adc_data[14] <= adc_dmux_a[7];
adc_data[13] <= adc_dmux_b[6];
adc_data[12] <= adc_dmux_a[6];
adc_data[11] <= adc_dmux_b[5];
adc_data[10] <= adc_dmux_a[5];
adc_data[ 9] <= adc_dmux_b[4];
adc_data[ 8] <= adc_dmux_a[4];
adc_data[ 7] <= adc_dmux_b[3];
adc_data[ 6] <= adc_dmux_a[3];
adc_data[ 5] <= adc_dmux_b[2];
adc_data[ 4] <= adc_dmux_a[2];
adc_data[ 3] <= adc_dmux_b[1];
adc_data[ 2] <= adc_dmux_a[1];
adc_data[ 1] <= adc_dmux_b[0];
adc_data[ 0] <= adc_dmux_a[0];
adc_or_p <= adc_or_p_s;
adc_or_n <= adc_or_n_s;
if ((adc_or_p == 1'b1) || (adc_or_n == 1'b1)) begin
adc_or <= 1'b1;
end else begin
adc_or <= 1'b0;
end
end
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// data interface
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generate
for (l_inst = 0; l_inst <= 7; l_inst = l_inst + 1) begin : g_adc_if
ad_data_in #(
.FPGA_TECHNOLOGY (FPGA_TECHNOLOGY),
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.IODELAY_CTRL (0),
.IODELAY_GROUP (IO_DELAY_GROUP),
.REFCLK_FREQUENCY (DELAY_REFCLK_FREQUENCY))
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i_adc_data (
.rx_clk (adc_clk),
.rx_data_in_p (adc_data_in_p[l_inst]),
.rx_data_in_n (adc_data_in_n[l_inst]),
.rx_data_p (adc_data_p_s[l_inst]),
.rx_data_n (adc_data_n_s[l_inst]),
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.up_clk (up_clk),
.up_dld (up_dld[l_inst]),
.up_dwdata (up_dwdata[((l_inst*5)+4):(l_inst*5)]),
.up_drdata (up_drdata[((l_inst*5)+4):(l_inst*5)]),
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.delay_clk (delay_clk),
.delay_rst (delay_rst),
.delay_locked ());
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end
endgenerate
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// over-range interface
ad_data_in #(
.FPGA_TECHNOLOGY (FPGA_TECHNOLOGY),
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.IODELAY_CTRL (1),
.IODELAY_GROUP (IO_DELAY_GROUP),
.REFCLK_FREQUENCY (DELAY_REFCLK_FREQUENCY))
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i_adc_or (
.rx_clk (adc_clk),
.rx_data_in_p (adc_or_in_p),
.rx_data_in_n (adc_or_in_n),
.rx_data_p (adc_or_p_s),
.rx_data_n (adc_or_n_s),
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.up_clk (up_clk),
.up_dld (up_dld[8]),
.up_dwdata (up_dwdata[44:40]),
.up_drdata (up_drdata[44:40]),
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.delay_clk (delay_clk),
.delay_rst (delay_rst),
.delay_locked (delay_locked));
// clock
ad_data_clk
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i_adc_clk (
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.rst (1'b0),
.locked (),
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.clk_in_p (adc_clk_in_p),
.clk_in_n (adc_clk_in_n),
.clk (adc_clk));
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endmodule
// ***************************************************************************
// ***************************************************************************