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https://github.com/fpganinja/taxi.git
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203 lines
6.3 KiB
Systemverilog
203 lines
6.3 KiB
Systemverilog
// SPDX-License-Identifier: CERN-OHL-S-2.0
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/*
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Copyright (c) 2018-2025 FPGA Ninja, LLC
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Authors:
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- Alex Forencich
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*/
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`resetall
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`timescale 1ns / 1ps
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`default_nettype none
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/*
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* 10G Ethernet PHY TX IF
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*/
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module taxi_eth_phy_10g_tx_if #
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(
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parameter DATA_W = 64,
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parameter HDR_W = 2,
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parameter logic GBX_IF_EN = 1'b0,
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parameter logic BIT_REVERSE = 1'b0,
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parameter logic SCRAMBLER_DISABLE = 1'b0,
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parameter logic PRBS31_EN = 1'b0,
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parameter SERDES_PIPELINE = 0
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)
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(
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input wire logic clk,
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input wire logic rst,
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/*
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* 10GBASE-R encoded interface
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*/
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input wire logic [DATA_W-1:0] encoded_tx_data,
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input wire logic encoded_tx_data_valid = 1'b1,
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input wire logic [HDR_W-1:0] encoded_tx_hdr,
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input wire logic encoded_tx_hdr_valid = 1'b1,
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output wire logic tx_gbx_req_start,
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output wire logic tx_gbx_req_stall,
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input wire logic tx_gbx_start = 1'b0,
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/*
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* SERDES interface
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*/
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output wire logic [DATA_W-1:0] serdes_tx_data,
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output wire logic serdes_tx_data_valid,
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output wire logic [HDR_W-1:0] serdes_tx_hdr,
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output wire logic serdes_tx_hdr_valid,
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input wire logic serdes_tx_gbx_req_start = 1'b0,
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input wire logic serdes_tx_gbx_req_stall = 1'b0,
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output wire logic serdes_tx_gbx_start,
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/*
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* Configuration
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*/
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input wire logic cfg_tx_prbs31_enable
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);
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// check configuration
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if (DATA_W != 64)
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$fatal(0, "Error: Interface width must be 64");
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if (HDR_W != 2)
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$fatal(0, "Error: HDR_W must be 2");
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assign tx_gbx_req_start = GBX_IF_EN ? serdes_tx_gbx_req_start : '0;
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assign tx_gbx_req_stall = GBX_IF_EN ? serdes_tx_gbx_req_stall : '0;
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logic [57:0] scrambler_state_reg = '1;
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wire [57:0] scrambler_state;
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wire [DATA_W-1:0] scrambled_data;
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logic [30:0] prbs31_state_reg = '1;
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wire [30:0] prbs31_state;
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wire [DATA_W+HDR_W-1:0] prbs31_data;
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logic [DATA_W-1:0] serdes_tx_data_reg = '0;
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logic serdes_tx_data_valid_reg = 1'b0;
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logic [HDR_W-1:0] serdes_tx_hdr_reg = '0;
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logic serdes_tx_hdr_valid_reg = 1'b0;
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logic serdes_tx_gbx_start_reg = 1'b0;
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wire [DATA_W-1:0] serdes_tx_data_int;
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wire [HDR_W-1:0] serdes_tx_hdr_int;
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if (BIT_REVERSE) begin
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for (genvar n = 0; n < DATA_W; n = n + 1) begin
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assign serdes_tx_data_int[n] = serdes_tx_data_reg[DATA_W-n-1];
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end
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for (genvar n = 0; n < HDR_W; n = n + 1) begin
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assign serdes_tx_hdr_int[n] = serdes_tx_hdr_reg[HDR_W-n-1];
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end
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end else begin
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assign serdes_tx_data_int = serdes_tx_data_reg;
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assign serdes_tx_hdr_int = serdes_tx_hdr_reg;
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end
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if (SERDES_PIPELINE > 0) begin
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(* srl_style = "register" *)
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reg [DATA_W-1:0] serdes_tx_data_pipe_reg[SERDES_PIPELINE-1:0];
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(* srl_style = "register" *)
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reg serdes_tx_data_valid_pipe_reg[SERDES_PIPELINE-1:0];
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(* srl_style = "register" *)
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reg [HDR_W-1:0] serdes_tx_hdr_pipe_reg[SERDES_PIPELINE-1:0];
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(* srl_style = "register" *)
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reg serdes_tx_hdr_valid_pipe_reg[SERDES_PIPELINE-1:0];
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(* srl_style = "register" *)
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reg serdes_tx_gbx_start_pipe_reg[SERDES_PIPELINE-1:0];
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for (genvar n = 0; n < SERDES_PIPELINE; n = n + 1) begin
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initial begin
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serdes_tx_data_pipe_reg[n] = '0;
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serdes_tx_data_valid_pipe_reg[n] = '0;
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serdes_tx_hdr_pipe_reg[n] = '0;
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serdes_tx_hdr_valid_pipe_reg[n] = '0;
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serdes_tx_gbx_start_pipe_reg[n] = '0;
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end
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always @(posedge clk) begin
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serdes_tx_data_pipe_reg[n] <= n == 0 ? serdes_tx_data_int : serdes_tx_data_pipe_reg[n-1];
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serdes_tx_data_valid_pipe_reg[n] <= n == 0 ? serdes_tx_data_valid_reg : serdes_tx_data_valid_pipe_reg[n-1];
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serdes_tx_hdr_pipe_reg[n] <= n == 0 ? serdes_tx_hdr_int : serdes_tx_hdr_pipe_reg[n-1];
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serdes_tx_hdr_valid_pipe_reg[n] <= n == 0 ? serdes_tx_hdr_valid_reg : serdes_tx_hdr_valid_pipe_reg[n-1];
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serdes_tx_gbx_start_pipe_reg[n] <= n == 0 ? serdes_tx_gbx_start_reg : serdes_tx_gbx_start_pipe_reg[n-1];
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end
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end
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assign serdes_tx_data = serdes_tx_data_pipe_reg[SERDES_PIPELINE-1];
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assign serdes_tx_data_valid = GBX_IF_EN ? serdes_tx_data_valid_pipe_reg[SERDES_PIPELINE-1] : 1'b1;
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assign serdes_tx_hdr = serdes_tx_hdr_pipe_reg[SERDES_PIPELINE-1];
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assign serdes_tx_hdr_valid = GBX_IF_EN ? serdes_tx_hdr_valid_pipe_reg[SERDES_PIPELINE-1] : 1'b1;
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assign serdes_tx_gbx_start = GBX_IF_EN ? serdes_tx_gbx_start_pipe_reg[SERDES_PIPELINE-1] : 1'b0;
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end else begin
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assign serdes_tx_data = serdes_tx_data_int;
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assign serdes_tx_data_valid = GBX_IF_EN ? serdes_tx_data_valid_reg : 1'b1;
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assign serdes_tx_hdr = serdes_tx_hdr_int;
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assign serdes_tx_hdr_valid = GBX_IF_EN ? serdes_tx_hdr_valid_reg : 1'b1;
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assign serdes_tx_gbx_start = GBX_IF_EN ? serdes_tx_gbx_start_reg : 1'b0;
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end
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taxi_lfsr #(
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.LFSR_W(58),
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.LFSR_POLY(58'h8000000001),
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.LFSR_GALOIS(0),
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.LFSR_FEED_FORWARD(0),
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.REVERSE(1),
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.DATA_W(DATA_W),
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.DATA_IN_EN(1'b1),
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.DATA_OUT_EN(1'b1)
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)
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scrambler_inst (
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.data_in(encoded_tx_data),
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.state_in(scrambler_state_reg),
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.data_out(scrambled_data),
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.state_out(scrambler_state)
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);
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always_ff @(posedge clk) begin
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if (!GBX_IF_EN || encoded_tx_data_valid) begin
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scrambler_state_reg <= scrambler_state;
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end
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end
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taxi_lfsr #(
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.LFSR_W(31),
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.LFSR_POLY(31'h10000001),
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.LFSR_GALOIS(0),
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.LFSR_FEED_FORWARD(0),
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.REVERSE(1),
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.DATA_W(DATA_W+HDR_W),
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.DATA_IN_EN(1'b0),
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.DATA_OUT_EN(1'b1)
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)
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prbs31_gen_inst (
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.data_in('0),
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.state_in(prbs31_state_reg),
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.data_out(prbs31_data),
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.state_out(prbs31_state)
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);
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always_ff @(posedge clk) begin
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if (PRBS31_EN && cfg_tx_prbs31_enable) begin
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if (!GBX_IF_EN || encoded_tx_data_valid) begin
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prbs31_state_reg <= prbs31_state;
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end
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serdes_tx_data_reg <= ~prbs31_data[DATA_W+HDR_W-1:HDR_W];
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serdes_tx_hdr_reg <= ~prbs31_data[HDR_W-1:0];
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end else begin
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serdes_tx_data_reg <= SCRAMBLER_DISABLE ? encoded_tx_data : scrambled_data;
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serdes_tx_hdr_reg <= encoded_tx_hdr;
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end
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serdes_tx_data_valid_reg <= encoded_tx_data_valid;
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serdes_tx_hdr_valid_reg <= encoded_tx_hdr_valid;
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serdes_tx_gbx_start_reg <= tx_gbx_start;
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end
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endmodule
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`resetall
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