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395 lines
17 KiB
Verilog
395 lines
17 KiB
Verilog
/*
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Copyright (c) 2014-2018 Alex Forencich
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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*/
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// Language: Verilog 2001
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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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* IP multiplexer
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*/
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module ip_mux #
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(
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parameter S_COUNT = 4,
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parameter DATA_WIDTH = 8,
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parameter KEEP_ENABLE = (DATA_WIDTH>8),
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parameter KEEP_WIDTH = (DATA_WIDTH/8),
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parameter ID_ENABLE = 0,
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parameter ID_WIDTH = 8,
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parameter DEST_ENABLE = 0,
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parameter DEST_WIDTH = 8,
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parameter USER_ENABLE = 1,
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parameter USER_WIDTH = 1
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)
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(
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input wire clk,
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input wire rst,
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/*
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* IP frame inputs
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*/
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input wire [S_COUNT-1:0] s_ip_hdr_valid,
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output wire [S_COUNT-1:0] s_ip_hdr_ready,
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input wire [S_COUNT*48-1:0] s_eth_dest_mac,
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input wire [S_COUNT*48-1:0] s_eth_src_mac,
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input wire [S_COUNT*16-1:0] s_eth_type,
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input wire [S_COUNT*4-1:0] s_ip_version,
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input wire [S_COUNT*4-1:0] s_ip_ihl,
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input wire [S_COUNT*6-1:0] s_ip_dscp,
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input wire [S_COUNT*2-1:0] s_ip_ecn,
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input wire [S_COUNT*16-1:0] s_ip_length,
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input wire [S_COUNT*16-1:0] s_ip_identification,
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input wire [S_COUNT*3-1:0] s_ip_flags,
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input wire [S_COUNT*13-1:0] s_ip_fragment_offset,
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input wire [S_COUNT*8-1:0] s_ip_ttl,
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input wire [S_COUNT*8-1:0] s_ip_protocol,
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input wire [S_COUNT*16-1:0] s_ip_header_checksum,
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input wire [S_COUNT*32-1:0] s_ip_source_ip,
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input wire [S_COUNT*32-1:0] s_ip_dest_ip,
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input wire [S_COUNT*DATA_WIDTH-1:0] s_ip_payload_axis_tdata,
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input wire [S_COUNT*KEEP_WIDTH-1:0] s_ip_payload_axis_tkeep,
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input wire [S_COUNT-1:0] s_ip_payload_axis_tvalid,
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output wire [S_COUNT-1:0] s_ip_payload_axis_tready,
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input wire [S_COUNT-1:0] s_ip_payload_axis_tlast,
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input wire [S_COUNT*ID_WIDTH-1:0] s_ip_payload_axis_tid,
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input wire [S_COUNT*DEST_WIDTH-1:0] s_ip_payload_axis_tdest,
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input wire [S_COUNT*USER_WIDTH-1:0] s_ip_payload_axis_tuser,
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/*
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* IP frame output
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*/
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output wire m_ip_hdr_valid,
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input wire m_ip_hdr_ready,
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output wire [47:0] m_eth_dest_mac,
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output wire [47:0] m_eth_src_mac,
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output wire [15:0] m_eth_type,
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output wire [3:0] m_ip_version,
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output wire [3:0] m_ip_ihl,
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output wire [5:0] m_ip_dscp,
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output wire [1:0] m_ip_ecn,
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output wire [15:0] m_ip_length,
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output wire [15:0] m_ip_identification,
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output wire [2:0] m_ip_flags,
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output wire [12:0] m_ip_fragment_offset,
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output wire [7:0] m_ip_ttl,
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output wire [7:0] m_ip_protocol,
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output wire [15:0] m_ip_header_checksum,
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output wire [31:0] m_ip_source_ip,
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output wire [31:0] m_ip_dest_ip,
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output wire [DATA_WIDTH-1:0] m_ip_payload_axis_tdata,
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output wire [KEEP_WIDTH-1:0] m_ip_payload_axis_tkeep,
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output wire m_ip_payload_axis_tvalid,
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input wire m_ip_payload_axis_tready,
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output wire m_ip_payload_axis_tlast,
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output wire [ID_WIDTH-1:0] m_ip_payload_axis_tid,
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output wire [DEST_WIDTH-1:0] m_ip_payload_axis_tdest,
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output wire [USER_WIDTH-1:0] m_ip_payload_axis_tuser,
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/*
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* Control
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*/
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input wire enable,
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input wire [$clog2(S_COUNT)-1:0] select
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);
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parameter CL_S_COUNT = $clog2(S_COUNT);
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reg [CL_S_COUNT-1:0] select_reg = 2'd0, select_next;
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reg frame_reg = 1'b0, frame_next;
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reg [S_COUNT-1:0] s_ip_hdr_ready_reg = 0, s_ip_hdr_ready_next;
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reg [S_COUNT-1:0] s_ip_payload_axis_tready_reg = 0, s_ip_payload_axis_tready_next;
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reg m_ip_hdr_valid_reg = 1'b0, m_ip_hdr_valid_next;
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reg [47:0] m_eth_dest_mac_reg = 48'd0, m_eth_dest_mac_next;
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reg [47:0] m_eth_src_mac_reg = 48'd0, m_eth_src_mac_next;
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reg [15:0] m_eth_type_reg = 16'd0, m_eth_type_next;
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reg [3:0] m_ip_version_reg = 4'd0, m_ip_version_next;
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reg [3:0] m_ip_ihl_reg = 4'd0, m_ip_ihl_next;
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reg [5:0] m_ip_dscp_reg = 6'd0, m_ip_dscp_next;
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reg [1:0] m_ip_ecn_reg = 2'd0, m_ip_ecn_next;
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reg [15:0] m_ip_length_reg = 16'd0, m_ip_length_next;
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reg [15:0] m_ip_identification_reg = 16'd0, m_ip_identification_next;
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reg [2:0] m_ip_flags_reg = 3'd0, m_ip_flags_next;
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reg [12:0] m_ip_fragment_offset_reg = 13'd0, m_ip_fragment_offset_next;
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reg [7:0] m_ip_ttl_reg = 8'd0, m_ip_ttl_next;
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reg [7:0] m_ip_protocol_reg = 8'd0, m_ip_protocol_next;
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reg [15:0] m_ip_header_checksum_reg = 16'd0, m_ip_header_checksum_next;
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reg [31:0] m_ip_source_ip_reg = 32'd0, m_ip_source_ip_next;
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reg [31:0] m_ip_dest_ip_reg = 32'd0, m_ip_dest_ip_next;
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// internal datapath
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reg [DATA_WIDTH-1:0] m_ip_payload_axis_tdata_int;
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reg [KEEP_WIDTH-1:0] m_ip_payload_axis_tkeep_int;
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reg m_ip_payload_axis_tvalid_int;
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reg m_ip_payload_axis_tready_int_reg = 1'b0;
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reg m_ip_payload_axis_tlast_int;
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reg [ID_WIDTH-1:0] m_ip_payload_axis_tid_int;
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reg [DEST_WIDTH-1:0] m_ip_payload_axis_tdest_int;
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reg [USER_WIDTH-1:0] m_ip_payload_axis_tuser_int;
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wire m_ip_payload_axis_tready_int_early;
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assign s_ip_hdr_ready = s_ip_hdr_ready_reg;
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assign s_ip_payload_axis_tready = s_ip_payload_axis_tready_reg;
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assign m_ip_hdr_valid = m_ip_hdr_valid_reg;
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assign m_eth_dest_mac = m_eth_dest_mac_reg;
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assign m_eth_src_mac = m_eth_src_mac_reg;
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assign m_eth_type = m_eth_type_reg;
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assign m_ip_version = m_ip_version_reg;
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assign m_ip_ihl = m_ip_ihl_reg;
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assign m_ip_dscp = m_ip_dscp_reg;
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assign m_ip_ecn = m_ip_ecn_reg;
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assign m_ip_length = m_ip_length_reg;
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assign m_ip_identification = m_ip_identification_reg;
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assign m_ip_flags = m_ip_flags_reg;
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assign m_ip_fragment_offset = m_ip_fragment_offset_reg;
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assign m_ip_ttl = m_ip_ttl_reg;
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assign m_ip_protocol = m_ip_protocol_reg;
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assign m_ip_header_checksum = m_ip_header_checksum_reg;
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assign m_ip_source_ip = m_ip_source_ip_reg;
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assign m_ip_dest_ip = m_ip_dest_ip_reg;
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// mux for incoming packet
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wire [DATA_WIDTH-1:0] current_s_tdata = s_ip_payload_axis_tdata[select_reg*DATA_WIDTH +: DATA_WIDTH];
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wire [KEEP_WIDTH-1:0] current_s_tkeep = s_ip_payload_axis_tkeep[select_reg*KEEP_WIDTH +: KEEP_WIDTH];
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wire current_s_tvalid = s_ip_payload_axis_tvalid[select_reg];
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wire current_s_tready = s_ip_payload_axis_tready[select_reg];
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wire current_s_tlast = s_ip_payload_axis_tlast[select_reg];
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wire [ID_WIDTH-1:0] current_s_tid = s_ip_payload_axis_tid[select_reg*ID_WIDTH +: ID_WIDTH];
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wire [DEST_WIDTH-1:0] current_s_tdest = s_ip_payload_axis_tdest[select_reg*DEST_WIDTH +: DEST_WIDTH];
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wire [USER_WIDTH-1:0] current_s_tuser = s_ip_payload_axis_tuser[select_reg*USER_WIDTH +: USER_WIDTH];
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always @* begin
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select_next = select_reg;
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frame_next = frame_reg;
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s_ip_hdr_ready_next = 0;
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s_ip_payload_axis_tready_next = 0;
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m_ip_hdr_valid_next = m_ip_hdr_valid_reg && !m_ip_hdr_ready;
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m_eth_dest_mac_next = m_eth_dest_mac_reg;
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m_eth_src_mac_next = m_eth_src_mac_reg;
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m_eth_type_next = m_eth_type_reg;
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m_ip_version_next = m_ip_version_reg;
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m_ip_ihl_next = m_ip_ihl_reg;
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m_ip_dscp_next = m_ip_dscp_reg;
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m_ip_ecn_next = m_ip_ecn_reg;
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m_ip_length_next = m_ip_length_reg;
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m_ip_identification_next = m_ip_identification_reg;
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m_ip_flags_next = m_ip_flags_reg;
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m_ip_fragment_offset_next = m_ip_fragment_offset_reg;
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m_ip_ttl_next = m_ip_ttl_reg;
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m_ip_protocol_next = m_ip_protocol_reg;
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m_ip_header_checksum_next = m_ip_header_checksum_reg;
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m_ip_source_ip_next = m_ip_source_ip_reg;
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m_ip_dest_ip_next = m_ip_dest_ip_reg;
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if (current_s_tvalid & current_s_tready) begin
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// end of frame detection
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if (current_s_tlast) begin
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frame_next = 1'b0;
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end
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end
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if (!frame_reg && enable && !m_ip_hdr_valid && (s_ip_hdr_valid & (1 << select))) begin
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// start of frame, grab select value
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frame_next = 1'b1;
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select_next = select;
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s_ip_hdr_ready_next = (1 << select);
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m_ip_hdr_valid_next = 1'b1;
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m_eth_dest_mac_next = s_eth_dest_mac[select*48 +: 48];
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m_eth_src_mac_next = s_eth_src_mac[select*48 +: 48];
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m_eth_type_next = s_eth_type[select*16 +: 16];
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m_ip_version_next = s_ip_version[select*4 +: 4];
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m_ip_ihl_next = s_ip_ihl[select*4 +: 4];
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m_ip_dscp_next = s_ip_dscp[select*6 +: 6];
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m_ip_ecn_next = s_ip_ecn[select*2 +: 2];
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m_ip_length_next = s_ip_length[select*16 +: 16];
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m_ip_identification_next = s_ip_identification[select*16 +: 16];
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m_ip_flags_next = s_ip_flags[select*3 +: 3];
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m_ip_fragment_offset_next = s_ip_fragment_offset[select*13 +: 13];
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m_ip_ttl_next = s_ip_ttl[select*8 +: 8];
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m_ip_protocol_next = s_ip_protocol[select*8 +: 8];
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m_ip_header_checksum_next = s_ip_header_checksum[select*16 +: 16];
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m_ip_source_ip_next = s_ip_source_ip[select*32 +: 32];
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m_ip_dest_ip_next = s_ip_dest_ip[select*32 +: 32];
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end
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// generate ready signal on selected port
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s_ip_payload_axis_tready_next = (m_ip_payload_axis_tready_int_early && frame_next) << select_next;
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// pass through selected packet data
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m_ip_payload_axis_tdata_int = current_s_tdata;
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m_ip_payload_axis_tkeep_int = current_s_tkeep;
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m_ip_payload_axis_tvalid_int = current_s_tvalid && current_s_tready && frame_reg;
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m_ip_payload_axis_tlast_int = current_s_tlast;
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m_ip_payload_axis_tid_int = current_s_tid;
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m_ip_payload_axis_tdest_int = current_s_tdest;
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m_ip_payload_axis_tuser_int = current_s_tuser;
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end
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always @(posedge clk) begin
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if (rst) begin
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select_reg <= 0;
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frame_reg <= 1'b0;
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s_ip_hdr_ready_reg <= 0;
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s_ip_payload_axis_tready_reg <= 0;
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m_ip_hdr_valid_reg <= 1'b0;
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end else begin
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select_reg <= select_next;
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frame_reg <= frame_next;
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s_ip_hdr_ready_reg <= s_ip_hdr_ready_next;
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s_ip_payload_axis_tready_reg <= s_ip_payload_axis_tready_next;
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m_ip_hdr_valid_reg <= m_ip_hdr_valid_next;
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end
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m_eth_dest_mac_reg <= m_eth_dest_mac_next;
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m_eth_src_mac_reg <= m_eth_src_mac_next;
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m_eth_type_reg <= m_eth_type_next;
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m_ip_version_reg <= m_ip_version_next;
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m_ip_ihl_reg <= m_ip_ihl_next;
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m_ip_dscp_reg <= m_ip_dscp_next;
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m_ip_ecn_reg <= m_ip_ecn_next;
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m_ip_length_reg <= m_ip_length_next;
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m_ip_identification_reg <= m_ip_identification_next;
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m_ip_flags_reg <= m_ip_flags_next;
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m_ip_fragment_offset_reg <= m_ip_fragment_offset_next;
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m_ip_ttl_reg <= m_ip_ttl_next;
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m_ip_protocol_reg <= m_ip_protocol_next;
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m_ip_header_checksum_reg <= m_ip_header_checksum_next;
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m_ip_source_ip_reg <= m_ip_source_ip_next;
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m_ip_dest_ip_reg <= m_ip_dest_ip_next;
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end
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// output datapath logic
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reg [DATA_WIDTH-1:0] m_ip_payload_axis_tdata_reg = {DATA_WIDTH{1'b0}};
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reg [KEEP_WIDTH-1:0] m_ip_payload_axis_tkeep_reg = {KEEP_WIDTH{1'b0}};
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reg m_ip_payload_axis_tvalid_reg = 1'b0, m_ip_payload_axis_tvalid_next;
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reg m_ip_payload_axis_tlast_reg = 1'b0;
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reg [ID_WIDTH-1:0] m_ip_payload_axis_tid_reg = {ID_WIDTH{1'b0}};
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reg [DEST_WIDTH-1:0] m_ip_payload_axis_tdest_reg = {DEST_WIDTH{1'b0}};
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reg [USER_WIDTH-1:0] m_ip_payload_axis_tuser_reg = {USER_WIDTH{1'b0}};
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reg [DATA_WIDTH-1:0] temp_m_ip_payload_axis_tdata_reg = {DATA_WIDTH{1'b0}};
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reg [KEEP_WIDTH-1:0] temp_m_ip_payload_axis_tkeep_reg = {KEEP_WIDTH{1'b0}};
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reg temp_m_ip_payload_axis_tvalid_reg = 1'b0, temp_m_ip_payload_axis_tvalid_next;
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reg temp_m_ip_payload_axis_tlast_reg = 1'b0;
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reg [ID_WIDTH-1:0] temp_m_ip_payload_axis_tid_reg = {ID_WIDTH{1'b0}};
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reg [DEST_WIDTH-1:0] temp_m_ip_payload_axis_tdest_reg = {DEST_WIDTH{1'b0}};
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reg [USER_WIDTH-1:0] temp_m_ip_payload_axis_tuser_reg = {USER_WIDTH{1'b0}};
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// datapath control
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reg store_axis_int_to_output;
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reg store_axis_int_to_temp;
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reg store_axis_temp_to_output;
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assign m_ip_payload_axis_tdata = m_ip_payload_axis_tdata_reg;
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assign m_ip_payload_axis_tkeep = KEEP_ENABLE ? m_ip_payload_axis_tkeep_reg : {KEEP_WIDTH{1'b1}};
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assign m_ip_payload_axis_tvalid = m_ip_payload_axis_tvalid_reg;
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assign m_ip_payload_axis_tlast = m_ip_payload_axis_tlast_reg;
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assign m_ip_payload_axis_tid = ID_ENABLE ? m_ip_payload_axis_tid_reg : {ID_WIDTH{1'b0}};
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assign m_ip_payload_axis_tdest = DEST_ENABLE ? m_ip_payload_axis_tdest_reg : {DEST_WIDTH{1'b0}};
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assign m_ip_payload_axis_tuser = USER_ENABLE ? m_ip_payload_axis_tuser_reg : {USER_WIDTH{1'b0}};
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// enable ready input next cycle if output is ready or if both output registers are empty
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assign m_ip_payload_axis_tready_int_early = m_ip_payload_axis_tready || (!temp_m_ip_payload_axis_tvalid_reg && !m_ip_payload_axis_tvalid_reg);
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always @* begin
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// transfer sink ready state to source
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m_ip_payload_axis_tvalid_next = m_ip_payload_axis_tvalid_reg;
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temp_m_ip_payload_axis_tvalid_next = temp_m_ip_payload_axis_tvalid_reg;
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store_axis_int_to_output = 1'b0;
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store_axis_int_to_temp = 1'b0;
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store_axis_temp_to_output = 1'b0;
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if (m_ip_payload_axis_tready_int_reg) begin
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// input is ready
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if (m_ip_payload_axis_tready || !m_ip_payload_axis_tvalid_reg) begin
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// output is ready or currently not valid, transfer data to output
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m_ip_payload_axis_tvalid_next = m_ip_payload_axis_tvalid_int;
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store_axis_int_to_output = 1'b1;
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end else begin
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// output is not ready, store input in temp
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temp_m_ip_payload_axis_tvalid_next = m_ip_payload_axis_tvalid_int;
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store_axis_int_to_temp = 1'b1;
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end
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end else if (m_ip_payload_axis_tready) begin
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// input is not ready, but output is ready
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m_ip_payload_axis_tvalid_next = temp_m_ip_payload_axis_tvalid_reg;
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temp_m_ip_payload_axis_tvalid_next = 1'b0;
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store_axis_temp_to_output = 1'b1;
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end
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end
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always @(posedge clk) begin
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m_ip_payload_axis_tvalid_reg <= m_ip_payload_axis_tvalid_next;
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m_ip_payload_axis_tready_int_reg <= m_ip_payload_axis_tready_int_early;
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temp_m_ip_payload_axis_tvalid_reg <= temp_m_ip_payload_axis_tvalid_next;
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// datapath
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if (store_axis_int_to_output) begin
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m_ip_payload_axis_tdata_reg <= m_ip_payload_axis_tdata_int;
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m_ip_payload_axis_tkeep_reg <= m_ip_payload_axis_tkeep_int;
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m_ip_payload_axis_tlast_reg <= m_ip_payload_axis_tlast_int;
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m_ip_payload_axis_tid_reg <= m_ip_payload_axis_tid_int;
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m_ip_payload_axis_tdest_reg <= m_ip_payload_axis_tdest_int;
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m_ip_payload_axis_tuser_reg <= m_ip_payload_axis_tuser_int;
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end else if (store_axis_temp_to_output) begin
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m_ip_payload_axis_tdata_reg <= temp_m_ip_payload_axis_tdata_reg;
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m_ip_payload_axis_tkeep_reg <= temp_m_ip_payload_axis_tkeep_reg;
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m_ip_payload_axis_tlast_reg <= temp_m_ip_payload_axis_tlast_reg;
|
|
m_ip_payload_axis_tid_reg <= temp_m_ip_payload_axis_tid_reg;
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|
m_ip_payload_axis_tdest_reg <= temp_m_ip_payload_axis_tdest_reg;
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|
m_ip_payload_axis_tuser_reg <= temp_m_ip_payload_axis_tuser_reg;
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|
end
|
|
|
|
if (store_axis_int_to_temp) begin
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|
temp_m_ip_payload_axis_tdata_reg <= m_ip_payload_axis_tdata_int;
|
|
temp_m_ip_payload_axis_tkeep_reg <= m_ip_payload_axis_tkeep_int;
|
|
temp_m_ip_payload_axis_tlast_reg <= m_ip_payload_axis_tlast_int;
|
|
temp_m_ip_payload_axis_tid_reg <= m_ip_payload_axis_tid_int;
|
|
temp_m_ip_payload_axis_tdest_reg <= m_ip_payload_axis_tdest_int;
|
|
temp_m_ip_payload_axis_tuser_reg <= m_ip_payload_axis_tuser_int;
|
|
end
|
|
|
|
if (rst) begin
|
|
m_ip_payload_axis_tvalid_reg <= 1'b0;
|
|
m_ip_payload_axis_tready_int_reg <= 1'b0;
|
|
temp_m_ip_payload_axis_tvalid_reg <= 1'b0;
|
|
end
|
|
end
|
|
|
|
endmodule
|
|
|
|
`resetall
|