pluto_hdl_adi/library/xilinx/axi_xcvrlb/axi_xcvrlb_1.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 responsabilities 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.
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//
// ***************************************************************************
// ***************************************************************************
`timescale 1ns/1ps
module axi_xcvrlb_1 (
// transceiver interface
input ref_clk,
input rx_p,
input rx_n,
output tx_p,
output tx_n,
// processor interface
input up_rstn,
input up_clk,
input up_resetn,
output up_status);
// internal registers
reg [ 3:0] rx_kcount = 'd0;
reg rx_calign = 'd0;
reg [31:0] rx_data = 'd0;
reg [31:0] rx_pn_data = 'd0;
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reg tx_charisk = 'd0;
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reg [31:0] tx_data = 'd0;
reg [31:0] tx_pn_data = 'd0;
reg [ 3:0] up_pll_rst_cnt = 'd0;
reg [ 3:0] up_rst_cnt = 'd0;
reg [ 6:0] up_user_ready_cnt = 'd0;
reg up_status_int = 'd1;
// internal signals
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wire clk;
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wire rx_status_s;
wire [31:0] rx_pn_data_s;
wire rx_pn_oos_s;
wire rx_pn_err_s;
wire [ 3:0] rx_charisk_s;
wire [ 7:0] rx_error_s;
wire [31:0] rx_data_s;
wire up_pll_rst_s;
wire up_rst_s;
wire up_user_ready_s;
wire up_pll_locked_s;
wire up_rst_done_s;
wire up_pn_oos_s;
wire up_pn_err_s;
wire up_rx_pll_locked_s;
wire up_rx_rst_done_s;
wire up_tx_pll_locked_s;
wire up_tx_rst_done_s;
// pn31 function
function [31:0] pn31;
input [31:0] din;
reg [31:0] dout;
begin
dout[31] = din[31] ^ din[28];
dout[30] = din[30] ^ din[27];
dout[29] = din[29] ^ din[26];
dout[28] = din[28] ^ din[25];
dout[27] = din[27] ^ din[24];
dout[26] = din[26] ^ din[23];
dout[25] = din[25] ^ din[22];
dout[24] = din[24] ^ din[21];
dout[23] = din[23] ^ din[20];
dout[22] = din[22] ^ din[19];
dout[21] = din[21] ^ din[18];
dout[20] = din[20] ^ din[17];
dout[19] = din[19] ^ din[16];
dout[18] = din[18] ^ din[15];
dout[17] = din[17] ^ din[14];
dout[16] = din[16] ^ din[13];
dout[15] = din[15] ^ din[12];
dout[14] = din[14] ^ din[11];
dout[13] = din[13] ^ din[10];
dout[12] = din[12] ^ din[ 9];
dout[11] = din[11] ^ din[ 8];
dout[10] = din[10] ^ din[ 7];
dout[ 9] = din[ 9] ^ din[ 6];
dout[ 8] = din[ 8] ^ din[ 5];
dout[ 7] = din[ 7] ^ din[ 4];
dout[ 6] = din[ 6] ^ din[ 3];
dout[ 5] = din[ 5] ^ din[ 2];
dout[ 4] = din[ 4] ^ din[ 1];
dout[ 3] = din[ 3] ^ din[ 0];
dout[ 2] = din[ 2] ^ din[31] ^ din[28];
dout[ 1] = din[ 1] ^ din[30] ^ din[27];
dout[ 0] = din[ 0] ^ din[29] ^ din[26];
pn31 = dout;
end
endfunction
// receive
assign rx_status_s = ~(| rx_error_s);
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assign rx_pn_data_s = (rx_pn_oos_s == 1'b1) ? rx_data : rx_pn_data;
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always @(posedge clk) begin
if (rx_status_s == 1'b0) begin
rx_kcount <= 4'd0;
rx_calign <= 1'd1;
end else if ((rx_charisk_s == 4'hf) && (rx_data_s == {4{8'hbc}})) begin
rx_kcount <= rx_kcount + 1'b1;
if (rx_kcount == 4'hf) begin
rx_calign <= 1'd0;
end
end
end
always @(posedge clk) begin
if (rx_status_s == 1'b1) begin
rx_data[31:24] = rx_data_s[ 7: 0];
rx_data[23:16] = rx_data_s[15: 8];
rx_data[15: 8] = rx_data_s[23:16];
rx_data[ 7: 0] = rx_data_s[31:24];
end else begin
rx_data[31:24] = 8'hff;
rx_data[23:16] = 8'hff;
rx_data[15: 8] = 8'hff;
rx_data[ 7: 0] = 8'hff;
end
rx_pn_data <= pn31(rx_pn_data_s);
end
// transmit
always @(posedge clk) begin
if (rx_calign == 1'b0) begin
tx_charisk <= 1'd0;
tx_data[31:24] <= tx_pn_data[ 7: 0];
tx_data[23:16] <= tx_pn_data[15: 8];
tx_data[15: 8] <= tx_pn_data[23:16];
tx_data[ 7: 0] <= tx_pn_data[31:24];
tx_pn_data <= pn31(tx_pn_data);
end else begin
tx_charisk <= 1'd1;
tx_data[31:24] <= 8'hbc;
tx_data[23:16] <= 8'hbc;
tx_data[15: 8] <= 8'hbc;
tx_data[ 7: 0] <= 8'hbc;
tx_pn_data <= {32{1'b1}};
end
end
// reset & init
assign up_status = up_status_int;
assign up_pll_rst_s = up_pll_rst_cnt[3];
assign up_rst_s = up_rst_cnt[3];
assign up_user_ready_s = up_user_ready_cnt[6];
assign up_pll_locked_s = up_rx_pll_locked_s & up_tx_pll_locked_s;
assign up_rst_done_s = up_rx_rst_done_s & up_tx_rst_done_s;
always @(negedge up_rstn or posedge up_clk) begin
if (up_rstn == 0) begin
up_pll_rst_cnt <= 4'h8;
up_rst_cnt <= 4'h8;
up_user_ready_cnt <= 7'h00;
up_status_int <= 1'b1;
end else begin
if (up_resetn == 1'b0) begin
up_pll_rst_cnt <= 4'h8;
end else if (up_pll_rst_cnt[3] == 1'b1) begin
up_pll_rst_cnt <= up_pll_rst_cnt + 1'b1;
end
if ((up_resetn == 1'b0) || (up_pll_rst_cnt[3] == 1'b1) ||
(up_pll_locked_s == 1'b0)) begin
up_rst_cnt <= 4'h8;
end else if (up_rst_cnt[3] == 1'b1) begin
up_rst_cnt <= up_rst_cnt + 1'b1;
end
if ((up_resetn == 1'b0) || (up_rst_cnt[3] == 1'b1)) begin
up_user_ready_cnt <= 7'h00;
end else if (up_user_ready_cnt[6] == 1'b0) begin
up_user_ready_cnt <= up_user_ready_cnt + 1'b1;
end
if ((up_resetn == 1'b0) || (up_rst_done_s == 1'b0)) begin
up_status_int <= 1'b1;
end else begin
up_status_int <= up_pn_oos_s | up_pn_err_s;
end
end
end
// instantiations
ad_pnmon #(.DATA_WIDTH(32)) i_pnmon (
.adc_clk (clk),
.adc_valid_in (1'b1),
.adc_data_in (rx_data),
.adc_data_pn (rx_pn_data),
.adc_pn_oos (rx_pn_oos_s),
.adc_pn_err (rx_pn_err_s));
up_xfer_status #(.DATA_WIDTH(2)) i_xfer_status (
.up_rstn (up_rstn),
.up_clk (up_clk),
.up_data_status ({up_pn_err_s, up_pn_oos_s}),
.d_rst (1'b0),
.d_clk (clk),
.d_data_status ({rx_pn_err_s, rx_pn_oos_s}));
util_adxcvr_xch #(
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.XCVR_TYPE (0),
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.CPLL_FBDIV (2),
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.CPLL_FBDIV_4_5 (5),
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.TX_OUT_DIV (1),
.TX_CLK25_DIV (10),
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.RX_OUT_DIV (1),
.RX_CLK25_DIV (10),
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.RX_DFE_LPM_CFG (16'h0904),
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.RX_PMA_CFG ('h00018480),
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.RX_CDR_CFG ('h03000023ff10200020))
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i_xch (
.qpll2ch_clk (1'b0),
.qpll2ch_ref_clk (1'b0),
.qpll2ch_locked (1'b1),
.cpll_ref_clk (ref_clk),
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.up_cpll_rst (up_pll_rst_s),
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.rx_p (rx_p),
.rx_n (rx_n),
.rx_out_clk (clk),
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.rx_clk (clk),
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.rx_charisk (rx_charisk_s),
.rx_disperr (rx_error_s[3:0]),
.rx_notintable (rx_error_s[7:4]),
.rx_data (rx_data_s),
.rx_calign (rx_calign),
.tx_p (tx_p),
.tx_n (tx_n),
.tx_out_clk (),
.tx_clk (clk),
.tx_charisk ({4{tx_charisk}}),
.tx_data (tx_data),
.up_rstn (up_rstn),
.up_clk (up_clk),
.up_es_enb (1'd0),
.up_es_addr (12'd0),
.up_es_wr (1'd0),
.up_es_wdata (16'd0),
.up_es_rdata (),
.up_es_ready (),
.up_rx_pll_locked (up_rx_pll_locked_s),
.up_rx_rst (up_rst_s),
.up_rx_user_ready (up_user_ready_s),
.up_rx_rst_done (up_rx_rst_done_s),
.up_rx_lpm_dfe_n (1'd0),
.up_rx_rate (3'd0),
.up_rx_sys_clk_sel (2'd0),
.up_rx_out_clk_sel (3'd2),
.up_rx_enb (1'd0),
.up_rx_addr (12'd0),
.up_rx_wr (1'd0),
.up_rx_wdata (16'd0),
.up_rx_rdata (),
.up_rx_ready (),
.up_tx_pll_locked (up_tx_pll_locked_s),
.up_tx_rst (up_rst_s),
.up_tx_user_ready (up_user_ready_s),
.up_tx_rst_done (up_tx_rst_done_s),
.up_tx_lpm_dfe_n (1'd0),
.up_tx_rate (3'd0),
.up_tx_sys_clk_sel (2'd0),
.up_tx_out_clk_sel (3'd2),
.up_tx_enb (1'd0),
.up_tx_addr (12'd0),
.up_tx_wr (1'd0),
.up_tx_wdata (16'd0),
.up_tx_rdata (),
.up_tx_ready ());
endmodule
// ***************************************************************************
// ***************************************************************************