xc7k480t/xdma/IP/xdma_0/xdma_0.veo

// (c) Copyright 1995-2025 Xilinx, Inc. All rights reserved.
// 
// This file contains confidential and proprietary information
// of Xilinx, Inc. and is protected under U.S. and
// international copyright and other intellectual property
// laws.
// 
// DISCLAIMER
// This disclaimer is not a license and does not grant any
// rights to the materials distributed herewith. Except as
// otherwise provided in a valid license issued to you by
// Xilinx, and to the maximum extent permitted by applicable
// law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND
// WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES
// AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING
// BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON-
// INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and
// (2) Xilinx shall not be liable (whether in contract or tort,
// including negligence, or under any other theory of
// liability) for any loss or damage of any kind or nature
// related to, arising under or in connection with these
// materials, including for any direct, or any indirect,
// special, incidental, or consequential loss or damage
// (including loss of data, profits, goodwill, or any type of
// loss or damage suffered as a result of any action brought
// by a third party) even if such damage or loss was
// reasonably foreseeable or Xilinx had been advised of the
// possibility of the same.
// 
// CRITICAL APPLICATIONS
// Xilinx products are not designed or intended to be fail-
// safe, or for use in any application requiring fail-safe
// performance, such as life-support or safety devices or
// systems, Class III medical devices, nuclear facilities,
// applications related to the deployment of airbags, or any
// other applications that could lead to death, personal
// injury, or severe property or environmental damage
// (individually and collectively, "Critical
// Applications"). Customer assumes the sole risk and
// liability of any use of Xilinx products in Critical
// Applications, subject only to applicable laws and
// regulations governing limitations on product liability.
// 
// THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS
// PART OF THIS FILE AT ALL TIMES.
// 
// DO NOT MODIFY THIS FILE.

// IP VLNV: xilinx.com:ip:xdma:4.1
// IP Revision: 20

// The following must be inserted into your Verilog file for this
// core to be instantiated. Change the instance name and port connections
// (in parentheses) to your own signal names.

//----------- Begin Cut here for INSTANTIATION Template ---// INST_TAG
xdma_0 your_instance_name (
  .sys_clk(sys_clk),                // input wire sys_clk
  .sys_rst_n(sys_rst_n),            // input wire sys_rst_n
  .user_lnk_up(user_lnk_up),        // output wire user_lnk_up
  .pci_exp_txp(pci_exp_txp),        // output wire [0 : 0] pci_exp_txp
  .pci_exp_txn(pci_exp_txn),        // output wire [0 : 0] pci_exp_txn
  .pci_exp_rxp(pci_exp_rxp),        // input wire [0 : 0] pci_exp_rxp
  .pci_exp_rxn(pci_exp_rxn),        // input wire [0 : 0] pci_exp_rxn
  .axi_aclk(axi_aclk),              // output wire axi_aclk
  .axi_aresetn(axi_aresetn),        // output wire axi_aresetn
  .usr_irq_req(usr_irq_req),        // input wire [15 : 0] usr_irq_req
  .usr_irq_ack(usr_irq_ack),        // output wire [15 : 0] usr_irq_ack
  .msix_enable(msix_enable),        // output wire msix_enable
  .m_axi_awready(m_axi_awready),    // input wire m_axi_awready
  .m_axi_wready(m_axi_wready),      // input wire m_axi_wready
  .m_axi_bid(m_axi_bid),            // input wire [3 : 0] m_axi_bid
  .m_axi_bresp(m_axi_bresp),        // input wire [1 : 0] m_axi_bresp
  .m_axi_bvalid(m_axi_bvalid),      // input wire m_axi_bvalid
  .m_axi_arready(m_axi_arready),    // input wire m_axi_arready
  .m_axi_rid(m_axi_rid),            // input wire [3 : 0] m_axi_rid
  .m_axi_rdata(m_axi_rdata),        // input wire [63 : 0] m_axi_rdata
  .m_axi_rresp(m_axi_rresp),        // input wire [1 : 0] m_axi_rresp
  .m_axi_rlast(m_axi_rlast),        // input wire m_axi_rlast
  .m_axi_rvalid(m_axi_rvalid),      // input wire m_axi_rvalid
  .m_axi_awid(m_axi_awid),          // output wire [3 : 0] m_axi_awid
  .m_axi_awaddr(m_axi_awaddr),      // output wire [63 : 0] m_axi_awaddr
  .m_axi_awlen(m_axi_awlen),        // output wire [7 : 0] m_axi_awlen
  .m_axi_awsize(m_axi_awsize),      // output wire [2 : 0] m_axi_awsize
  .m_axi_awburst(m_axi_awburst),    // output wire [1 : 0] m_axi_awburst
  .m_axi_awprot(m_axi_awprot),      // output wire [2 : 0] m_axi_awprot
  .m_axi_awvalid(m_axi_awvalid),    // output wire m_axi_awvalid
  .m_axi_awlock(m_axi_awlock),      // output wire m_axi_awlock
  .m_axi_awcache(m_axi_awcache),    // output wire [3 : 0] m_axi_awcache
  .m_axi_wdata(m_axi_wdata),        // output wire [63 : 0] m_axi_wdata
  .m_axi_wstrb(m_axi_wstrb),        // output wire [7 : 0] m_axi_wstrb
  .m_axi_wlast(m_axi_wlast),        // output wire m_axi_wlast
  .m_axi_wvalid(m_axi_wvalid),      // output wire m_axi_wvalid
  .m_axi_bready(m_axi_bready),      // output wire m_axi_bready
  .m_axi_arid(m_axi_arid),          // output wire [3 : 0] m_axi_arid
  .m_axi_araddr(m_axi_araddr),      // output wire [63 : 0] m_axi_araddr
  .m_axi_arlen(m_axi_arlen),        // output wire [7 : 0] m_axi_arlen
  .m_axi_arsize(m_axi_arsize),      // output wire [2 : 0] m_axi_arsize
  .m_axi_arburst(m_axi_arburst),    // output wire [1 : 0] m_axi_arburst
  .m_axi_arprot(m_axi_arprot),      // output wire [2 : 0] m_axi_arprot
  .m_axi_arvalid(m_axi_arvalid),    // output wire m_axi_arvalid
  .m_axi_arlock(m_axi_arlock),      // output wire m_axi_arlock
  .m_axi_arcache(m_axi_arcache),    // output wire [3 : 0] m_axi_arcache
  .m_axi_rready(m_axi_rready),      // output wire m_axi_rready
  .m_axib_awid(m_axib_awid),        // output wire [3 : 0] m_axib_awid
  .m_axib_awaddr(m_axib_awaddr),    // output wire [63 : 0] m_axib_awaddr
  .m_axib_awlen(m_axib_awlen),      // output wire [7 : 0] m_axib_awlen
  .m_axib_awsize(m_axib_awsize),    // output wire [2 : 0] m_axib_awsize
  .m_axib_awburst(m_axib_awburst),  // output wire [1 : 0] m_axib_awburst
  .m_axib_awprot(m_axib_awprot),    // output wire [2 : 0] m_axib_awprot
  .m_axib_awvalid(m_axib_awvalid),  // output wire m_axib_awvalid
  .m_axib_awready(m_axib_awready),  // input wire m_axib_awready
  .m_axib_awlock(m_axib_awlock),    // output wire m_axib_awlock
  .m_axib_awcache(m_axib_awcache),  // output wire [3 : 0] m_axib_awcache
  .m_axib_wdata(m_axib_wdata),      // output wire [63 : 0] m_axib_wdata
  .m_axib_wstrb(m_axib_wstrb),      // output wire [7 : 0] m_axib_wstrb
  .m_axib_wlast(m_axib_wlast),      // output wire m_axib_wlast
  .m_axib_wvalid(m_axib_wvalid),    // output wire m_axib_wvalid
  .m_axib_wready(m_axib_wready),    // input wire m_axib_wready
  .m_axib_bid(m_axib_bid),          // input wire [3 : 0] m_axib_bid
  .m_axib_bresp(m_axib_bresp),      // input wire [1 : 0] m_axib_bresp
  .m_axib_bvalid(m_axib_bvalid),    // input wire m_axib_bvalid
  .m_axib_bready(m_axib_bready),    // output wire m_axib_bready
  .m_axib_arid(m_axib_arid),        // output wire [3 : 0] m_axib_arid
  .m_axib_araddr(m_axib_araddr),    // output wire [63 : 0] m_axib_araddr
  .m_axib_arlen(m_axib_arlen),      // output wire [7 : 0] m_axib_arlen
  .m_axib_arsize(m_axib_arsize),    // output wire [2 : 0] m_axib_arsize
  .m_axib_arburst(m_axib_arburst),  // output wire [1 : 0] m_axib_arburst
  .m_axib_arprot(m_axib_arprot),    // output wire [2 : 0] m_axib_arprot
  .m_axib_arvalid(m_axib_arvalid),  // output wire m_axib_arvalid
  .m_axib_arready(m_axib_arready),  // input wire m_axib_arready
  .m_axib_arlock(m_axib_arlock),    // output wire m_axib_arlock
  .m_axib_arcache(m_axib_arcache),  // output wire [3 : 0] m_axib_arcache
  .m_axib_rid(m_axib_rid),          // input wire [3 : 0] m_axib_rid
  .m_axib_rdata(m_axib_rdata),      // input wire [63 : 0] m_axib_rdata
  .m_axib_rresp(m_axib_rresp),      // input wire [1 : 0] m_axib_rresp
  .m_axib_rlast(m_axib_rlast),      // input wire m_axib_rlast
  .m_axib_rvalid(m_axib_rvalid),    // input wire m_axib_rvalid
  .m_axib_rready(m_axib_rready)    // output wire m_axib_rready
);
// INST_TAG_END ------ End INSTANTIATION Template ---------

// You must compile the wrapper file xdma_0.v when simulating
// the core, xdma_0. When compiling the wrapper file, be sure to
// reference the Verilog simulation library.
Add xdma. 2025-05-01 20:15:12 +08:00			`// (c) Copyright 1995-2025 Xilinx, Inc. All rights reserved.`
			`//`
			`// This file contains confidential and proprietary information`
			`// of Xilinx, Inc. and is protected under U.S. and`
			`// international copyright and other intellectual property`
			`// laws.`
			`//`
			`// DISCLAIMER`
			`// This disclaimer is not a license and does not grant any`
			`// rights to the materials distributed herewith. Except as`
			`// otherwise provided in a valid license issued to you by`
			`// Xilinx, and to the maximum extent permitted by applicable`
			`// law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND`
			`// WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES`
			`// AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING`
			`// BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON-`
			`// INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and`
			`// (2) Xilinx shall not be liable (whether in contract or tort,`
			`// including negligence, or under any other theory of`
			`// liability) for any loss or damage of any kind or nature`
			`// related to, arising under or in connection with these`
			`// materials, including for any direct, or any indirect,`
			`// special, incidental, or consequential loss or damage`
			`// (including loss of data, profits, goodwill, or any type of`
			`// loss or damage suffered as a result of any action brought`
			`// by a third party) even if such damage or loss was`
			`// reasonably foreseeable or Xilinx had been advised of the`
			`// possibility of the same.`
			`//`
			`// CRITICAL APPLICATIONS`
			`// Xilinx products are not designed or intended to be fail-`
			`// safe, or for use in any application requiring fail-safe`
			`// performance, such as life-support or safety devices or`
			`// systems, Class III medical devices, nuclear facilities,`
			`// applications related to the deployment of airbags, or any`
			`// other applications that could lead to death, personal`
			`// injury, or severe property or environmental damage`
			`// (individually and collectively, "Critical`
			`// Applications"). Customer assumes the sole risk and`
			`// liability of any use of Xilinx products in Critical`
			`// Applications, subject only to applicable laws and`
			`// regulations governing limitations on product liability.`
			`//`
			`// THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS`
			`// PART OF THIS FILE AT ALL TIMES.`
			`//`
			`// DO NOT MODIFY THIS FILE.`

			`// IP VLNV: xilinx.com:ip:xdma:4.1`
			`// IP Revision: 20`

			`// The following must be inserted into your Verilog file for this`
			`// core to be instantiated. Change the instance name and port connections`
			`// (in parentheses) to your own signal names.`

			`//----------- Begin Cut here for INSTANTIATION Template ---// INST_TAG`
			`xdma_0 your_instance_name (`
			`.sys_clk(sys_clk), // input wire sys_clk`
			`.sys_rst_n(sys_rst_n), // input wire sys_rst_n`
			`.user_lnk_up(user_lnk_up), // output wire user_lnk_up`
			`.pci_exp_txp(pci_exp_txp), // output wire [0 : 0] pci_exp_txp`
			`.pci_exp_txn(pci_exp_txn), // output wire [0 : 0] pci_exp_txn`
			`.pci_exp_rxp(pci_exp_rxp), // input wire [0 : 0] pci_exp_rxp`
			`.pci_exp_rxn(pci_exp_rxn), // input wire [0 : 0] pci_exp_rxn`
			`.axi_aclk(axi_aclk), // output wire axi_aclk`
			`.axi_aresetn(axi_aresetn), // output wire axi_aresetn`
			`.usr_irq_req(usr_irq_req), // input wire [15 : 0] usr_irq_req`
			`.usr_irq_ack(usr_irq_ack), // output wire [15 : 0] usr_irq_ack`
			`.msix_enable(msix_enable), // output wire msix_enable`
			`.m_axi_awready(m_axi_awready), // input wire m_axi_awready`
			`.m_axi_wready(m_axi_wready), // input wire m_axi_wready`
			`.m_axi_bid(m_axi_bid), // input wire [3 : 0] m_axi_bid`
			`.m_axi_bresp(m_axi_bresp), // input wire [1 : 0] m_axi_bresp`
			`.m_axi_bvalid(m_axi_bvalid), // input wire m_axi_bvalid`
			`.m_axi_arready(m_axi_arready), // input wire m_axi_arready`
			`.m_axi_rid(m_axi_rid), // input wire [3 : 0] m_axi_rid`
			`.m_axi_rdata(m_axi_rdata), // input wire [63 : 0] m_axi_rdata`
			`.m_axi_rresp(m_axi_rresp), // input wire [1 : 0] m_axi_rresp`
			`.m_axi_rlast(m_axi_rlast), // input wire m_axi_rlast`
			`.m_axi_rvalid(m_axi_rvalid), // input wire m_axi_rvalid`
			`.m_axi_awid(m_axi_awid), // output wire [3 : 0] m_axi_awid`
			`.m_axi_awaddr(m_axi_awaddr), // output wire [63 : 0] m_axi_awaddr`
			`.m_axi_awlen(m_axi_awlen), // output wire [7 : 0] m_axi_awlen`
			`.m_axi_awsize(m_axi_awsize), // output wire [2 : 0] m_axi_awsize`
			`.m_axi_awburst(m_axi_awburst), // output wire [1 : 0] m_axi_awburst`
			`.m_axi_awprot(m_axi_awprot), // output wire [2 : 0] m_axi_awprot`
			`.m_axi_awvalid(m_axi_awvalid), // output wire m_axi_awvalid`
			`.m_axi_awlock(m_axi_awlock), // output wire m_axi_awlock`
			`.m_axi_awcache(m_axi_awcache), // output wire [3 : 0] m_axi_awcache`
			`.m_axi_wdata(m_axi_wdata), // output wire [63 : 0] m_axi_wdata`
			`.m_axi_wstrb(m_axi_wstrb), // output wire [7 : 0] m_axi_wstrb`
			`.m_axi_wlast(m_axi_wlast), // output wire m_axi_wlast`
			`.m_axi_wvalid(m_axi_wvalid), // output wire m_axi_wvalid`
			`.m_axi_bready(m_axi_bready), // output wire m_axi_bready`
			`.m_axi_arid(m_axi_arid), // output wire [3 : 0] m_axi_arid`
			`.m_axi_araddr(m_axi_araddr), // output wire [63 : 0] m_axi_araddr`
			`.m_axi_arlen(m_axi_arlen), // output wire [7 : 0] m_axi_arlen`
			`.m_axi_arsize(m_axi_arsize), // output wire [2 : 0] m_axi_arsize`
			`.m_axi_arburst(m_axi_arburst), // output wire [1 : 0] m_axi_arburst`
			`.m_axi_arprot(m_axi_arprot), // output wire [2 : 0] m_axi_arprot`
			`.m_axi_arvalid(m_axi_arvalid), // output wire m_axi_arvalid`
			`.m_axi_arlock(m_axi_arlock), // output wire m_axi_arlock`
			`.m_axi_arcache(m_axi_arcache), // output wire [3 : 0] m_axi_arcache`
			`.m_axi_rready(m_axi_rready), // output wire m_axi_rready`
			`.m_axib_awid(m_axib_awid), // output wire [3 : 0] m_axib_awid`
			`.m_axib_awaddr(m_axib_awaddr), // output wire [63 : 0] m_axib_awaddr`
			`.m_axib_awlen(m_axib_awlen), // output wire [7 : 0] m_axib_awlen`
			`.m_axib_awsize(m_axib_awsize), // output wire [2 : 0] m_axib_awsize`
			`.m_axib_awburst(m_axib_awburst), // output wire [1 : 0] m_axib_awburst`
			`.m_axib_awprot(m_axib_awprot), // output wire [2 : 0] m_axib_awprot`
			`.m_axib_awvalid(m_axib_awvalid), // output wire m_axib_awvalid`
			`.m_axib_awready(m_axib_awready), // input wire m_axib_awready`
			`.m_axib_awlock(m_axib_awlock), // output wire m_axib_awlock`
			`.m_axib_awcache(m_axib_awcache), // output wire [3 : 0] m_axib_awcache`
			`.m_axib_wdata(m_axib_wdata), // output wire [63 : 0] m_axib_wdata`
			`.m_axib_wstrb(m_axib_wstrb), // output wire [7 : 0] m_axib_wstrb`
			`.m_axib_wlast(m_axib_wlast), // output wire m_axib_wlast`
			`.m_axib_wvalid(m_axib_wvalid), // output wire m_axib_wvalid`
			`.m_axib_wready(m_axib_wready), // input wire m_axib_wready`
			`.m_axib_bid(m_axib_bid), // input wire [3 : 0] m_axib_bid`
			`.m_axib_bresp(m_axib_bresp), // input wire [1 : 0] m_axib_bresp`
			`.m_axib_bvalid(m_axib_bvalid), // input wire m_axib_bvalid`
			`.m_axib_bready(m_axib_bready), // output wire m_axib_bready`
			`.m_axib_arid(m_axib_arid), // output wire [3 : 0] m_axib_arid`
			`.m_axib_araddr(m_axib_araddr), // output wire [63 : 0] m_axib_araddr`
			`.m_axib_arlen(m_axib_arlen), // output wire [7 : 0] m_axib_arlen`
			`.m_axib_arsize(m_axib_arsize), // output wire [2 : 0] m_axib_arsize`
			`.m_axib_arburst(m_axib_arburst), // output wire [1 : 0] m_axib_arburst`
			`.m_axib_arprot(m_axib_arprot), // output wire [2 : 0] m_axib_arprot`
			`.m_axib_arvalid(m_axib_arvalid), // output wire m_axib_arvalid`
			`.m_axib_arready(m_axib_arready), // input wire m_axib_arready`
			`.m_axib_arlock(m_axib_arlock), // output wire m_axib_arlock`
			`.m_axib_arcache(m_axib_arcache), // output wire [3 : 0] m_axib_arcache`
			`.m_axib_rid(m_axib_rid), // input wire [3 : 0] m_axib_rid`
			`.m_axib_rdata(m_axib_rdata), // input wire [63 : 0] m_axib_rdata`
			`.m_axib_rresp(m_axib_rresp), // input wire [1 : 0] m_axib_rresp`
			`.m_axib_rlast(m_axib_rlast), // input wire m_axib_rlast`
			`.m_axib_rvalid(m_axib_rvalid), // input wire m_axib_rvalid`
			`.m_axib_rready(m_axib_rready) // output wire m_axib_rready`
			`);`
			`// INST_TAG_END ------ End INSTANTIATION Template ---------`

			`// You must compile the wrapper file xdma_0.v when simulating`
			`// the core, xdma_0. When compiling the wrapper file, be sure to`
			`// reference the Verilog simulation library.`