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|
//
// Copyright 2023 Ettus Research, a National Instruments Brand
//
// SPDX-License-Identifier: LGPL-3.0-or-later
//
// Module: rfnoc_image_core (for e31x)
//
// Description:
//
// The RFNoC Image Core contains the Verilog description of the RFNoC design
// to be loaded onto the FPGA.
//
// This file was automatically generated by the RFNoC image builder tool.
// Re-running that tool will overwrite this file!
//
// Source: e310_rfnoc_image_core.yml
//
`default_nettype none
module rfnoc_image_core #(
parameter [31:0] CHDR_W = 64,
parameter [31:0] PORT_W = 64,
parameter [31:0] DMA_W = 64,
parameter MTU = 10,
parameter [15:0] PROTOVER = {8'd1, 8'd0},
parameter RADIO_NIPC = 1
) (
// Clocks
input wire chdr_aclk,
input wire ctrl_aclk,
input wire core_arst,
input wire radio_clk,
input wire dram_clk,
// Basic
input wire [ 15:0] device_id,
// IO ports /////////////////////////
// ctrlport
output wire [ 0:0] m_ctrlport_req_wr,
output wire [ 0:0] m_ctrlport_req_rd,
output wire [ 19:0] m_ctrlport_req_addr,
output wire [ 31:0] m_ctrlport_req_data,
output wire [ 3:0] m_ctrlport_req_byte_en,
output wire [ 0:0] m_ctrlport_req_has_time,
output wire [ 63:0] m_ctrlport_req_time,
input wire [ 0:0] m_ctrlport_resp_ack,
input wire [ 1:0] m_ctrlport_resp_status,
input wire [ 31:0] m_ctrlport_resp_data,
// time
input wire [ 63:0] radio_time,
// radio
input wire [ 255:0] radio_rx_data,
input wire [ 7:0] radio_rx_stb,
output wire [ 7:0] radio_rx_running,
output wire [ 255:0] radio_tx_data,
input wire [ 7:0] radio_tx_stb,
output wire [ 7:0] radio_tx_running,
// dram
input wire [ 0:0] axi_rst,
output wire [ 3:0] m_axi_awid,
output wire [ 191:0] m_axi_awaddr,
output wire [ 31:0] m_axi_awlen,
output wire [ 11:0] m_axi_awsize,
output wire [ 7:0] m_axi_awburst,
output wire [ 3:0] m_axi_awlock,
output wire [ 15:0] m_axi_awcache,
output wire [ 11:0] m_axi_awprot,
output wire [ 15:0] m_axi_awqos,
output wire [ 15:0] m_axi_awregion,
output wire [ 3:0] m_axi_awuser,
output wire [ 3:0] m_axi_awvalid,
input wire [ 3:0] m_axi_awready,
output wire [2047:0] m_axi_wdata,
output wire [ 255:0] m_axi_wstrb,
output wire [ 3:0] m_axi_wlast,
output wire [ 3:0] m_axi_wuser,
output wire [ 3:0] m_axi_wvalid,
input wire [ 3:0] m_axi_wready,
input wire [ 3:0] m_axi_bid,
input wire [ 7:0] m_axi_bresp,
input wire [ 3:0] m_axi_buser,
input wire [ 3:0] m_axi_bvalid,
output wire [ 3:0] m_axi_bready,
output wire [ 3:0] m_axi_arid,
output wire [ 191:0] m_axi_araddr,
output wire [ 31:0] m_axi_arlen,
output wire [ 11:0] m_axi_arsize,
output wire [ 7:0] m_axi_arburst,
output wire [ 3:0] m_axi_arlock,
output wire [ 15:0] m_axi_arcache,
output wire [ 11:0] m_axi_arprot,
output wire [ 15:0] m_axi_arqos,
output wire [ 15:0] m_axi_arregion,
output wire [ 3:0] m_axi_aruser,
output wire [ 3:0] m_axi_arvalid,
input wire [ 3:0] m_axi_arready,
input wire [ 3:0] m_axi_rid,
input wire [2047:0] m_axi_rdata,
input wire [ 7:0] m_axi_rresp,
input wire [ 3:0] m_axi_rlast,
input wire [ 3:0] m_axi_ruser,
input wire [ 3:0] m_axi_rvalid,
output wire [ 3:0] m_axi_rready,
// Transport Adapters ///////////////
// Transport 0 (dma)
input wire [PORT_W-1:0] s_dma_tdata,
input wire s_dma_tlast,
input wire s_dma_tvalid,
output wire s_dma_tready,
output wire [PORT_W-1:0] m_dma_tdata,
output wire m_dma_tlast,
output wire m_dma_tvalid,
input wire m_dma_tready
);
localparam EDGE_TBL_FILE = `"`RFNOC_EDGE_TBL_FILE`";
localparam BLOCK_CHDR_W = 64;
localparam BYTE_MTU = MTU + $clog2(CHDR_W/8);
localparam BLOCK_MTU = BYTE_MTU - $clog2(BLOCK_CHDR_W/8);
localparam EP0_W = 64;
localparam EP0_MTU = BYTE_MTU - $clog2(EP0_W/8);
localparam EP1_W = 64;
localparam EP1_MTU = BYTE_MTU - $clog2(EP1_W/8);
wire rfnoc_chdr_clk, rfnoc_chdr_rst;
wire rfnoc_ctrl_clk, rfnoc_ctrl_rst;
//---------------------------------------------------------------------------
// CHDR Crossbar
//---------------------------------------------------------------------------
wire [PORT_W-1:0] xb_to_ep0_tdata ;
wire xb_to_ep0_tlast ;
wire xb_to_ep0_tvalid;
wire xb_to_ep0_tready;
wire [PORT_W-1:0] ep0_to_xb_tdata ;
wire ep0_to_xb_tlast ;
wire ep0_to_xb_tvalid;
wire ep0_to_xb_tready;
wire [PORT_W-1:0] xb_to_ep1_tdata ;
wire xb_to_ep1_tlast ;
wire xb_to_ep1_tvalid;
wire xb_to_ep1_tready;
wire [PORT_W-1:0] ep1_to_xb_tdata ;
wire ep1_to_xb_tlast ;
wire ep1_to_xb_tvalid;
wire ep1_to_xb_tready;
chdr_crossbar_nxn #(
.PORT_W (PORT_W),
.NPORTS (3),
.CHDR_WIDTHS ({EP1_W, EP0_W, DMA_W}),
.DEFAULT_PORT (0),
.ROUTES ({ 3'b111,
3'b111,
3'b111 }),
.BYTE_MTU (BYTE_MTU),
.ROUTE_TBL_SIZE (6),
.MUX_ALLOC ("ROUND-ROBIN"),
.OPTIMIZE ("AREA"),
.NPORTS_MGMT (1),
.EXT_RTCFG_PORT (0),
.PROTOVER (PROTOVER)
) chdr_crossbar_nxn_i (
.clk (rfnoc_chdr_clk),
.reset (rfnoc_chdr_rst),
.device_id (device_id),
.s_axis_tdata ({ep1_to_xb_tdata , ep0_to_xb_tdata , s_dma_tdata }),
.s_axis_tlast ({ep1_to_xb_tlast , ep0_to_xb_tlast , s_dma_tlast }),
.s_axis_tvalid ({ep1_to_xb_tvalid, ep0_to_xb_tvalid, s_dma_tvalid}),
.s_axis_tready ({ep1_to_xb_tready, ep0_to_xb_tready, s_dma_tready}),
.m_axis_tdata ({xb_to_ep1_tdata , xb_to_ep0_tdata , m_dma_tdata }),
.m_axis_tlast ({xb_to_ep1_tlast , xb_to_ep0_tlast , m_dma_tlast }),
.m_axis_tvalid ({xb_to_ep1_tvalid, xb_to_ep0_tvalid, m_dma_tvalid}),
.m_axis_tready ({xb_to_ep1_tready, xb_to_ep0_tready, m_dma_tready}),
.ext_rtcfg_stb (1'h0),
.ext_rtcfg_addr (16'h0),
.ext_rtcfg_data (32'h0),
.ext_rtcfg_ack ()
);
//---------------------------------------------------------------------------
// Stream Endpoints
//---------------------------------------------------------------------------
// If requested buffer size is 0, use the minimum SRL-based FIFO size.
// Otherwise, make sure it's at least two MTU-sized packets.
localparam REQ_BUFF_SIZE_EP0 = 16384;
localparam INGRESS_BUFF_SIZE_EP0 =
REQ_BUFF_SIZE_EP0 == 0 ? 5 :
REQ_BUFF_SIZE_EP0 < 2*(2**EP0_MTU) ? EP0_MTU+1 :
$clog2(REQ_BUFF_SIZE_EP0);
wire [BLOCK_CHDR_W-1:0] m_ep0_out0_tdata;
wire m_ep0_out0_tlast;
wire m_ep0_out0_tvalid;
wire m_ep0_out0_tready;
wire [BLOCK_CHDR_W-1:0] s_ep0_in0_tdata;
wire s_ep0_in0_tlast;
wire s_ep0_in0_tvalid;
wire s_ep0_in0_tready;
wire [ 31:0] m_ep0_ctrl_tdata, s_ep0_ctrl_tdata;
wire m_ep0_ctrl_tlast, s_ep0_ctrl_tlast;
wire m_ep0_ctrl_tvalid, s_ep0_ctrl_tvalid;
wire m_ep0_ctrl_tready, s_ep0_ctrl_tready;
chdr_stream_endpoint #(
.DEVICE_FAMILY ("7SERIES"),
.PROTOVER (PROTOVER),
.CHDR_W (EP0_W),
.BLOCK_CHDR_W (BLOCK_CHDR_W),
.AXIS_CTRL_EN (1),
.AXIS_DATA_EN (1),
.NUM_DATA_I (1),
.NUM_DATA_O (1),
.INST_NUM (0),
.CTRL_XBAR_PORT (1),
.INGRESS_BUFF_SIZE (INGRESS_BUFF_SIZE_EP0),
.MTU (EP0_MTU),
.REPORT_STRM_ERRS (1)
) ep0_i (
.rfnoc_chdr_clk (rfnoc_chdr_clk),
.rfnoc_chdr_rst (rfnoc_chdr_rst),
.rfnoc_ctrl_clk (rfnoc_ctrl_clk),
.rfnoc_ctrl_rst (rfnoc_ctrl_rst),
.device_id (device_id),
.s_axis_chdr_tdata (xb_to_ep0_tdata),
.s_axis_chdr_tlast (xb_to_ep0_tlast),
.s_axis_chdr_tvalid (xb_to_ep0_tvalid),
.s_axis_chdr_tready (xb_to_ep0_tready),
.m_axis_chdr_tdata (ep0_to_xb_tdata),
.m_axis_chdr_tlast (ep0_to_xb_tlast),
.m_axis_chdr_tvalid (ep0_to_xb_tvalid),
.m_axis_chdr_tready (ep0_to_xb_tready),
.s_axis_data_tdata ({s_ep0_in0_tdata}),
.s_axis_data_tlast ({s_ep0_in0_tlast}),
.s_axis_data_tvalid ({s_ep0_in0_tvalid}),
.s_axis_data_tready ({s_ep0_in0_tready}),
.m_axis_data_tdata ({m_ep0_out0_tdata}),
.m_axis_data_tlast ({m_ep0_out0_tlast}),
.m_axis_data_tvalid ({m_ep0_out0_tvalid}),
.m_axis_data_tready ({m_ep0_out0_tready}),
.s_axis_ctrl_tdata (s_ep0_ctrl_tdata),
.s_axis_ctrl_tlast (s_ep0_ctrl_tlast),
.s_axis_ctrl_tvalid (s_ep0_ctrl_tvalid),
.s_axis_ctrl_tready (s_ep0_ctrl_tready),
.m_axis_ctrl_tdata (m_ep0_ctrl_tdata),
.m_axis_ctrl_tlast (m_ep0_ctrl_tlast),
.m_axis_ctrl_tvalid (m_ep0_ctrl_tvalid),
.m_axis_ctrl_tready (m_ep0_ctrl_tready),
.strm_seq_err_stb (),
.strm_data_err_stb (),
.strm_route_err_stb (),
.signal_data_err (1'b0)
);
// If requested buffer size is 0, use the minimum SRL-based FIFO size.
// Otherwise, make sure it's at least two MTU-sized packets.
localparam REQ_BUFF_SIZE_EP1 = 16384;
localparam INGRESS_BUFF_SIZE_EP1 =
REQ_BUFF_SIZE_EP1 == 0 ? 5 :
REQ_BUFF_SIZE_EP1 < 2*(2**EP1_MTU) ? EP1_MTU+1 :
$clog2(REQ_BUFF_SIZE_EP1);
wire [BLOCK_CHDR_W-1:0] m_ep1_out0_tdata;
wire m_ep1_out0_tlast;
wire m_ep1_out0_tvalid;
wire m_ep1_out0_tready;
wire [BLOCK_CHDR_W-1:0] s_ep1_in0_tdata;
wire s_ep1_in0_tlast;
wire s_ep1_in0_tvalid;
wire s_ep1_in0_tready;
wire [ 31:0] m_ep1_ctrl_tdata, s_ep1_ctrl_tdata;
wire m_ep1_ctrl_tlast, s_ep1_ctrl_tlast;
wire m_ep1_ctrl_tvalid, s_ep1_ctrl_tvalid;
wire m_ep1_ctrl_tready, s_ep1_ctrl_tready;
chdr_stream_endpoint #(
.DEVICE_FAMILY ("7SERIES"),
.PROTOVER (PROTOVER),
.CHDR_W (EP1_W),
.BLOCK_CHDR_W (BLOCK_CHDR_W),
.AXIS_CTRL_EN (0),
.AXIS_DATA_EN (1),
.NUM_DATA_I (1),
.NUM_DATA_O (1),
.INST_NUM (1),
.CTRL_XBAR_PORT (2),
.INGRESS_BUFF_SIZE (INGRESS_BUFF_SIZE_EP1),
.MTU (EP1_MTU),
.REPORT_STRM_ERRS (1)
) ep1_i (
.rfnoc_chdr_clk (rfnoc_chdr_clk),
.rfnoc_chdr_rst (rfnoc_chdr_rst),
.rfnoc_ctrl_clk (rfnoc_ctrl_clk),
.rfnoc_ctrl_rst (rfnoc_ctrl_rst),
.device_id (device_id),
.s_axis_chdr_tdata (xb_to_ep1_tdata),
.s_axis_chdr_tlast (xb_to_ep1_tlast),
.s_axis_chdr_tvalid (xb_to_ep1_tvalid),
.s_axis_chdr_tready (xb_to_ep1_tready),
.m_axis_chdr_tdata (ep1_to_xb_tdata),
.m_axis_chdr_tlast (ep1_to_xb_tlast),
.m_axis_chdr_tvalid (ep1_to_xb_tvalid),
.m_axis_chdr_tready (ep1_to_xb_tready),
.s_axis_data_tdata ({s_ep1_in0_tdata}),
.s_axis_data_tlast ({s_ep1_in0_tlast}),
.s_axis_data_tvalid ({s_ep1_in0_tvalid}),
.s_axis_data_tready ({s_ep1_in0_tready}),
.m_axis_data_tdata ({m_ep1_out0_tdata}),
.m_axis_data_tlast ({m_ep1_out0_tlast}),
.m_axis_data_tvalid ({m_ep1_out0_tvalid}),
.m_axis_data_tready ({m_ep1_out0_tready}),
.s_axis_ctrl_tdata (s_ep1_ctrl_tdata),
.s_axis_ctrl_tlast (s_ep1_ctrl_tlast),
.s_axis_ctrl_tvalid (s_ep1_ctrl_tvalid),
.s_axis_ctrl_tready (s_ep1_ctrl_tready),
.m_axis_ctrl_tdata (m_ep1_ctrl_tdata),
.m_axis_ctrl_tlast (m_ep1_ctrl_tlast),
.m_axis_ctrl_tvalid (m_ep1_ctrl_tvalid),
.m_axis_ctrl_tready (m_ep1_ctrl_tready),
.strm_seq_err_stb (),
.strm_data_err_stb (),
.strm_route_err_stb (),
.signal_data_err (1'b0)
);
//---------------------------------------------------------------------------
// Control Crossbar
//---------------------------------------------------------------------------
wire [31:0] m_core_ctrl_tdata, s_core_ctrl_tdata;
wire m_core_ctrl_tlast, s_core_ctrl_tlast;
wire m_core_ctrl_tvalid, s_core_ctrl_tvalid;
wire m_core_ctrl_tready, s_core_ctrl_tready;
wire [31:0] m_radio0_ctrl_tdata, s_radio0_ctrl_tdata;
wire m_radio0_ctrl_tlast, s_radio0_ctrl_tlast;
wire m_radio0_ctrl_tvalid, s_radio0_ctrl_tvalid;
wire m_radio0_ctrl_tready, s_radio0_ctrl_tready;
axis_ctrl_crossbar_nxn #(
.WIDTH (32),
.NPORTS (3),
.TOPOLOGY ("TORUS"),
.INGRESS_BUFF_SIZE(5),
.ROUTER_BUFF_SIZE (5),
.ROUTING_ALLOC ("WORMHOLE"),
.SWITCH_ALLOC ("PRIO")
) ctrl_xb_i (
.clk (rfnoc_ctrl_clk),
.reset (rfnoc_ctrl_rst),
.s_axis_tdata ({m_radio0_ctrl_tdata , m_ep0_ctrl_tdata , m_core_ctrl_tdata }),
.s_axis_tvalid ({m_radio0_ctrl_tvalid, m_ep0_ctrl_tvalid, m_core_ctrl_tvalid}),
.s_axis_tlast ({m_radio0_ctrl_tlast , m_ep0_ctrl_tlast , m_core_ctrl_tlast }),
.s_axis_tready ({m_radio0_ctrl_tready, m_ep0_ctrl_tready, m_core_ctrl_tready}),
.m_axis_tdata ({s_radio0_ctrl_tdata , s_ep0_ctrl_tdata , s_core_ctrl_tdata }),
.m_axis_tvalid ({s_radio0_ctrl_tvalid, s_ep0_ctrl_tvalid, s_core_ctrl_tvalid}),
.m_axis_tlast ({s_radio0_ctrl_tlast , s_ep0_ctrl_tlast , s_core_ctrl_tlast }),
.m_axis_tready ({s_radio0_ctrl_tready, s_ep0_ctrl_tready, s_core_ctrl_tready}),
.deadlock_detected()
);
//---------------------------------------------------------------------------
// RFNoC Core Kernel
//---------------------------------------------------------------------------
wire [(512*1)-1:0] rfnoc_core_config, rfnoc_core_status;
rfnoc_core_kernel #(
.PROTOVER (PROTOVER),
.DEVICE_TYPE (16'hE310),
.DEVICE_FAMILY ("7SERIES"),
.SAFE_START_CLKS (0),
.NUM_BLOCKS (1),
.NUM_STREAM_ENDPOINTS(2),
.NUM_ENDPOINTS_CTRL (1),
.NUM_TRANSPORTS (1),
.NUM_EDGES (4),
.CHDR_XBAR_PRESENT (1),
.EDGE_TBL_FILE (EDGE_TBL_FILE)
) core_kernel_i (
.chdr_aclk (chdr_aclk),
.chdr_aclk_locked (1'b1),
.ctrl_aclk (ctrl_aclk),
.ctrl_aclk_locked (1'b1),
.core_arst (core_arst),
.core_chdr_clk (rfnoc_chdr_clk),
.core_chdr_rst (rfnoc_chdr_rst),
.core_ctrl_clk (rfnoc_ctrl_clk),
.core_ctrl_rst (rfnoc_ctrl_rst),
.s_axis_ctrl_tdata (s_core_ctrl_tdata),
.s_axis_ctrl_tlast (s_core_ctrl_tlast),
.s_axis_ctrl_tvalid (s_core_ctrl_tvalid),
.s_axis_ctrl_tready (s_core_ctrl_tready),
.m_axis_ctrl_tdata (m_core_ctrl_tdata),
.m_axis_ctrl_tlast (m_core_ctrl_tlast),
.m_axis_ctrl_tvalid (m_core_ctrl_tvalid),
.m_axis_ctrl_tready (m_core_ctrl_tready),
.device_id (device_id),
.rfnoc_core_config (rfnoc_core_config),
.rfnoc_core_status (rfnoc_core_status)
);
//---------------------------------------------------------------------------
// Blocks
//---------------------------------------------------------------------------
//-----------------------------------
// radio0
//-----------------------------------
wire radio0_radio_clk;
wire [BLOCK_CHDR_W-1:0] s_radio0_in_1_tdata , s_radio0_in_0_tdata ;
wire s_radio0_in_1_tlast , s_radio0_in_0_tlast ;
wire s_radio0_in_1_tvalid, s_radio0_in_0_tvalid;
wire s_radio0_in_1_tready, s_radio0_in_0_tready;
wire [BLOCK_CHDR_W-1:0] m_radio0_out_1_tdata , m_radio0_out_0_tdata ;
wire m_radio0_out_1_tlast , m_radio0_out_0_tlast ;
wire m_radio0_out_1_tvalid, m_radio0_out_0_tvalid;
wire m_radio0_out_1_tready, m_radio0_out_0_tready;
// ctrlport
wire [ 0:0] radio0_m_ctrlport_req_wr;
wire [ 0:0] radio0_m_ctrlport_req_rd;
wire [ 19:0] radio0_m_ctrlport_req_addr;
wire [ 31:0] radio0_m_ctrlport_req_data;
wire [ 3:0] radio0_m_ctrlport_req_byte_en;
wire [ 0:0] radio0_m_ctrlport_req_has_time;
wire [ 63:0] radio0_m_ctrlport_req_time;
wire [ 0:0] radio0_m_ctrlport_resp_ack;
wire [ 1:0] radio0_m_ctrlport_resp_status;
wire [ 31:0] radio0_m_ctrlport_resp_data;
// time
wire [ 63:0] radio0_radio_time;
// radio
wire [ 255:0] radio0_radio_rx_data;
wire [ 7:0] radio0_radio_rx_stb;
wire [ 7:0] radio0_radio_rx_running;
wire [ 255:0] radio0_radio_tx_data;
wire [ 7:0] radio0_radio_tx_stb;
wire [ 7:0] radio0_radio_tx_running;
rfnoc_block_radio #(
.THIS_PORTID (2),
.CHDR_W (BLOCK_CHDR_W),
.NUM_PORTS (2),
.NIPC (1),
.ITEM_W (32),
.MTU (BLOCK_MTU)
) b_radio0_0 (
.rfnoc_chdr_clk (rfnoc_chdr_clk),
.rfnoc_ctrl_clk (rfnoc_ctrl_clk),
.radio_clk (radio0_radio_clk),
.rfnoc_core_config (rfnoc_core_config[512*1-1:512*0]),
.rfnoc_core_status (rfnoc_core_status[512*1-1:512*0]),
.m_ctrlport_req_wr (radio0_m_ctrlport_req_wr),
.m_ctrlport_req_rd (radio0_m_ctrlport_req_rd),
.m_ctrlport_req_addr (radio0_m_ctrlport_req_addr),
.m_ctrlport_req_data (radio0_m_ctrlport_req_data),
.m_ctrlport_req_byte_en(radio0_m_ctrlport_req_byte_en),
.m_ctrlport_req_has_time(radio0_m_ctrlport_req_has_time),
.m_ctrlport_req_time (radio0_m_ctrlport_req_time),
.m_ctrlport_resp_ack (radio0_m_ctrlport_resp_ack),
.m_ctrlport_resp_status(radio0_m_ctrlport_resp_status),
.m_ctrlport_resp_data(radio0_m_ctrlport_resp_data),
.radio_time (radio0_radio_time),
.radio_rx_data (radio0_radio_rx_data),
.radio_rx_stb (radio0_radio_rx_stb),
.radio_rx_running (radio0_radio_rx_running),
.radio_tx_data (radio0_radio_tx_data),
.radio_tx_stb (radio0_radio_tx_stb),
.radio_tx_running (radio0_radio_tx_running),
.s_rfnoc_chdr_tdata ({s_radio0_in_1_tdata , s_radio0_in_0_tdata }),
.s_rfnoc_chdr_tlast ({s_radio0_in_1_tlast , s_radio0_in_0_tlast }),
.s_rfnoc_chdr_tvalid ({s_radio0_in_1_tvalid, s_radio0_in_0_tvalid}),
.s_rfnoc_chdr_tready ({s_radio0_in_1_tready, s_radio0_in_0_tready}),
.m_rfnoc_chdr_tdata ({m_radio0_out_1_tdata , m_radio0_out_0_tdata }),
.m_rfnoc_chdr_tlast ({m_radio0_out_1_tlast , m_radio0_out_0_tlast }),
.m_rfnoc_chdr_tvalid ({m_radio0_out_1_tvalid, m_radio0_out_0_tvalid}),
.m_rfnoc_chdr_tready ({m_radio0_out_1_tready, m_radio0_out_0_tready}),
.s_rfnoc_ctrl_tdata (s_radio0_ctrl_tdata),
.s_rfnoc_ctrl_tlast (s_radio0_ctrl_tlast),
.s_rfnoc_ctrl_tvalid (s_radio0_ctrl_tvalid),
.s_rfnoc_ctrl_tready (s_radio0_ctrl_tready),
.m_rfnoc_ctrl_tdata (m_radio0_ctrl_tdata),
.m_rfnoc_ctrl_tlast (m_radio0_ctrl_tlast),
.m_rfnoc_ctrl_tvalid (m_radio0_ctrl_tvalid),
.m_rfnoc_ctrl_tready (m_radio0_ctrl_tready)
);
//---------------------------------------------------------------------------
// Static Router
//---------------------------------------------------------------------------
assign s_radio0_in_0_tdata = m_ep0_out0_tdata;
assign s_radio0_in_0_tlast = m_ep0_out0_tlast;
assign s_radio0_in_0_tvalid = m_ep0_out0_tvalid;
assign m_ep0_out0_tready = s_radio0_in_0_tready;
assign s_ep0_in0_tdata = m_radio0_out_0_tdata;
assign s_ep0_in0_tlast = m_radio0_out_0_tlast;
assign s_ep0_in0_tvalid = m_radio0_out_0_tvalid;
assign m_radio0_out_0_tready = s_ep0_in0_tready;
assign s_radio0_in_1_tdata = m_ep1_out0_tdata;
assign s_radio0_in_1_tlast = m_ep1_out0_tlast;
assign s_radio0_in_1_tvalid = m_ep1_out0_tvalid;
assign m_ep1_out0_tready = s_radio0_in_1_tready;
assign s_ep1_in0_tdata = m_radio0_out_1_tdata;
assign s_ep1_in0_tlast = m_radio0_out_1_tlast;
assign s_ep1_in0_tvalid = m_radio0_out_1_tvalid;
assign m_radio0_out_1_tready = s_ep1_in0_tready;
//---------------------------------------------------------------------------
// Unused Ports
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
// Clock Domains
//---------------------------------------------------------------------------
assign radio0_radio_clk = radio_clk;
//---------------------------------------------------------------------------
// IO Port Connection
//---------------------------------------------------------------------------
// Master/Slave Connections:
assign m_ctrlport_req_wr = radio0_m_ctrlport_req_wr;
assign m_ctrlport_req_rd = radio0_m_ctrlport_req_rd;
assign m_ctrlport_req_addr = radio0_m_ctrlport_req_addr;
assign m_ctrlport_req_data = radio0_m_ctrlport_req_data;
assign m_ctrlport_req_byte_en = radio0_m_ctrlport_req_byte_en;
assign m_ctrlport_req_has_time = radio0_m_ctrlport_req_has_time;
assign m_ctrlport_req_time = radio0_m_ctrlport_req_time;
assign radio0_m_ctrlport_resp_ack = m_ctrlport_resp_ack;
assign radio0_m_ctrlport_resp_status = m_ctrlport_resp_status;
assign radio0_m_ctrlport_resp_data = m_ctrlport_resp_data;
assign radio0_radio_rx_data = radio_rx_data;
assign radio0_radio_rx_stb = radio_rx_stb;
assign radio_rx_running = radio0_radio_rx_running;
assign radio_tx_data = radio0_radio_tx_data;
assign radio0_radio_tx_stb = radio_tx_stb;
assign radio_tx_running = radio0_radio_tx_running;
// Broadcaster/Listener Connections:
assign radio0_radio_time = radio_time;
endmodule
`default_nettype wire
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