`include "elink_regmap.vh" module dut(/*AUTOARG*/ // Outputs dut_active, clkout, wait_out, access_out, packet_out, // Inputs clk1, clk2, nreset, vdd, vss, access_in, packet_in, wait_in ); //########################################################################## //# INTERFACE //########################################################################## parameter AW = 32; parameter ID = 12'h810; parameter S_IDW = 12; parameter M_IDW = 6; parameter PW = 2*AW + 40; parameter N = 1; parameter RETURN_ADDR = {ID, `EGROUP_RR, 16'b0}; // axi return addr //clock,reset input clk1; input clk2; input nreset; input [N*N-1:0] vdd; input vss; output dut_active; output clkout; //Stimulus Driven Transaction input [N-1:0] access_in; input [N*PW-1:0] packet_in; output [N-1:0] wait_out; //DUT driven transaction output [N-1:0] access_out; output [N*PW-1:0] packet_out; input [N-1:0] wait_in; //########################################################################## //#BODY //########################################################################## wire mem_rd_wait; wire mem_wr_wait; wire mem_access; wire [PW-1:0] mem_packet; /*AUTOINPUT*/ // End of automatics /*AUTOWIRE*/ // Beginning of automatic wires (for undeclared instantiated-module outputs) wire cclk_n; // From elink0 of axi_elink.v wire cclk_p; // From elink0 of axi_elink.v wire chip_nreset; // From elink0 of axi_elink.v wire [11:0] chipid; // From elink0 of axi_elink.v wire [31:0] m_axi_araddr; // From emaxi of emaxi.v wire [1:0] m_axi_arburst; // From emaxi of emaxi.v wire [3:0] m_axi_arcache; // From emaxi of emaxi.v wire [M_IDW-1:0] m_axi_arid; // From emaxi of emaxi.v wire [7:0] m_axi_arlen; // From emaxi of emaxi.v wire m_axi_arlock; // From emaxi of emaxi.v wire [2:0] m_axi_arprot; // From emaxi of emaxi.v wire [3:0] m_axi_arqos; // From emaxi of emaxi.v wire m_axi_arready; // From elink0 of axi_elink.v wire [2:0] m_axi_arsize; // From emaxi of emaxi.v wire m_axi_arvalid; // From emaxi of emaxi.v wire [31:0] m_axi_awaddr; // From emaxi of emaxi.v wire [1:0] m_axi_awburst; // From emaxi of emaxi.v wire [3:0] m_axi_awcache; // From emaxi of emaxi.v wire [M_IDW-1:0] m_axi_awid; // From emaxi of emaxi.v wire [7:0] m_axi_awlen; // From emaxi of emaxi.v wire m_axi_awlock; // From emaxi of emaxi.v wire [2:0] m_axi_awprot; // From emaxi of emaxi.v wire [3:0] m_axi_awqos; // From emaxi of emaxi.v wire m_axi_awready; // From elink0 of axi_elink.v wire [2:0] m_axi_awsize; // From emaxi of emaxi.v wire m_axi_awvalid; // From emaxi of emaxi.v wire [S_IDW-1:0] m_axi_bid; // From elink0 of axi_elink.v wire m_axi_bready; // From emaxi of emaxi.v wire [1:0] m_axi_bresp; // From elink0 of axi_elink.v wire m_axi_bvalid; // From elink0 of axi_elink.v wire [31:0] m_axi_rdata; // From elink0 of axi_elink.v wire [S_IDW-1:0] m_axi_rid; // From elink0 of axi_elink.v wire m_axi_rlast; // From elink0 of axi_elink.v wire m_axi_rready; // From emaxi of emaxi.v wire [1:0] m_axi_rresp; // From elink0 of axi_elink.v wire m_axi_rvalid; // From elink0 of axi_elink.v wire [63:0] m_axi_wdata; // From emaxi of emaxi.v wire [M_IDW-1:0] m_axi_wid; // From emaxi of emaxi.v wire m_axi_wlast; // From emaxi of emaxi.v wire m_axi_wready; // From elink0 of axi_elink.v wire [7:0] m_axi_wstrb; // From emaxi of emaxi.v wire m_axi_wvalid; // From emaxi of emaxi.v wire mailbox_irq; // From elink0 of axi_elink.v wire [31:0] mem_m_axi_araddr; // From elink0 of axi_elink.v wire [1:0] mem_m_axi_arburst; // From elink0 of axi_elink.v wire [3:0] mem_m_axi_arcache; // From elink0 of axi_elink.v wire [M_IDW-1:0] mem_m_axi_arid; // From elink0 of axi_elink.v wire [7:0] mem_m_axi_arlen; // From elink0 of axi_elink.v wire mem_m_axi_arlock; // From elink0 of axi_elink.v wire [2:0] mem_m_axi_arprot; // From elink0 of axi_elink.v wire [3:0] mem_m_axi_arqos; // From elink0 of axi_elink.v wire mem_m_axi_arready; // From esaxi of esaxi.v wire [2:0] mem_m_axi_arsize; // From elink0 of axi_elink.v wire mem_m_axi_arvalid; // From elink0 of axi_elink.v wire [31:0] mem_m_axi_awaddr; // From elink0 of axi_elink.v wire [1:0] mem_m_axi_awburst; // From elink0 of axi_elink.v wire [3:0] mem_m_axi_awcache; // From elink0 of axi_elink.v wire [M_IDW-1:0] mem_m_axi_awid; // From elink0 of axi_elink.v wire [7:0] mem_m_axi_awlen; // From elink0 of axi_elink.v wire mem_m_axi_awlock; // From elink0 of axi_elink.v wire [2:0] mem_m_axi_awprot; // From elink0 of axi_elink.v wire [3:0] mem_m_axi_awqos; // From elink0 of axi_elink.v wire mem_m_axi_awready; // From esaxi of esaxi.v wire [2:0] mem_m_axi_awsize; // From elink0 of axi_elink.v wire mem_m_axi_awvalid; // From elink0 of axi_elink.v wire [S_IDW-1:0] mem_m_axi_bid; // From esaxi of esaxi.v wire mem_m_axi_bready; // From elink0 of axi_elink.v wire [1:0] mem_m_axi_bresp; // From esaxi of esaxi.v wire mem_m_axi_bvalid; // From esaxi of esaxi.v wire [31:0] mem_m_axi_rdata; // From esaxi of esaxi.v wire [S_IDW-1:0] mem_m_axi_rid; // From esaxi of esaxi.v wire mem_m_axi_rlast; // From esaxi of esaxi.v wire mem_m_axi_rready; // From elink0 of axi_elink.v wire [1:0] mem_m_axi_rresp; // From esaxi of esaxi.v wire mem_m_axi_rvalid; // From esaxi of esaxi.v wire [63:0] mem_m_axi_wdata; // From elink0 of axi_elink.v wire [M_IDW-1:0] mem_m_axi_wid; // From elink0 of axi_elink.v wire mem_m_axi_wlast; // From elink0 of axi_elink.v wire mem_m_axi_wready; // From esaxi of esaxi.v wire [7:0] mem_m_axi_wstrb; // From elink0 of axi_elink.v wire mem_m_axi_wvalid; // From elink0 of axi_elink.v wire mem_rd_access; // From esaxi of esaxi.v wire [PW-1:0] mem_rd_packet; // From esaxi of esaxi.v wire mem_rr_access; // From ememory of ememory.v wire [PW-1:0] mem_rr_packet; // From ememory of ememory.v wire mem_rr_wait; // From esaxi of esaxi.v wire mem_wr_access; // From esaxi of esaxi.v wire [PW-1:0] mem_wr_packet; // From esaxi of esaxi.v wire rxo_rd_wait_n; // From elink0 of axi_elink.v wire rxo_rd_wait_p; // From elink0 of axi_elink.v wire rxo_wr_wait_n; // From elink0 of axi_elink.v wire rxo_wr_wait_p; // From elink0 of axi_elink.v wire [7:0] txo_data_n; // From elink0 of axi_elink.v wire [7:0] txo_data_p; // From elink0 of axi_elink.v wire txo_frame_n; // From elink0 of axi_elink.v wire txo_frame_p; // From elink0 of axi_elink.v wire txo_lclk_n; // From elink0 of axi_elink.v wire txo_lclk_p; // From elink0 of axi_elink.v // End of automatics //###################################################################### // GLUE //###################################################################### assign clkout = clk1; //###################################################################### //AXI MASTER //###################################################################### //Split stimulus to read/write assign wait_out = wr_wait | rd_wait; assign write_in = access_in & packet_in[0]; assign read_in = access_in & ~packet_in[0]; emaxi #(.M_IDW(M_IDW)) emaxi (.m_axi_aclk (clk1), .m_axi_aresetn (nreset), .m_axi_rdata ({m_axi_rdata[31:0],m_axi_rdata[31:0]}), .rr_wait (wait_in), .rr_access (access_out), .rr_packet (packet_out[PW-1:0]), .wr_wait (wr_wait), .wr_access (write_in), .wr_packet (packet_in[PW-1:0]), .rd_wait (rd_wait), .rd_access (read_in), .rd_packet (packet_in[PW-1:0]), /*AUTOINST*/ // Outputs .m_axi_awid (m_axi_awid[M_IDW-1:0]), .m_axi_awaddr (m_axi_awaddr[31:0]), .m_axi_awlen (m_axi_awlen[7:0]), .m_axi_awsize (m_axi_awsize[2:0]), .m_axi_awburst (m_axi_awburst[1:0]), .m_axi_awlock (m_axi_awlock), .m_axi_awcache (m_axi_awcache[3:0]), .m_axi_awprot (m_axi_awprot[2:0]), .m_axi_awqos (m_axi_awqos[3:0]), .m_axi_awvalid (m_axi_awvalid), .m_axi_wid (m_axi_wid[M_IDW-1:0]), .m_axi_wdata (m_axi_wdata[63:0]), .m_axi_wstrb (m_axi_wstrb[7:0]), .m_axi_wlast (m_axi_wlast), .m_axi_wvalid (m_axi_wvalid), .m_axi_bready (m_axi_bready), .m_axi_arid (m_axi_arid[M_IDW-1:0]), .m_axi_araddr (m_axi_araddr[31:0]), .m_axi_arlen (m_axi_arlen[7:0]), .m_axi_arsize (m_axi_arsize[2:0]), .m_axi_arburst (m_axi_arburst[1:0]), .m_axi_arlock (m_axi_arlock), .m_axi_arcache (m_axi_arcache[3:0]), .m_axi_arprot (m_axi_arprot[2:0]), .m_axi_arqos (m_axi_arqos[3:0]), .m_axi_arvalid (m_axi_arvalid), .m_axi_rready (m_axi_rready), // Inputs .m_axi_awready (m_axi_awready), .m_axi_wready (m_axi_wready), .m_axi_bid (m_axi_bid[M_IDW-1:0]), .m_axi_bresp (m_axi_bresp[1:0]), .m_axi_bvalid (m_axi_bvalid), .m_axi_arready (m_axi_arready), .m_axi_rid (m_axi_rid[M_IDW-1:0]), .m_axi_rresp (m_axi_rresp[1:0]), .m_axi_rlast (m_axi_rlast), .m_axi_rvalid (m_axi_rvalid)); //###################################################################### //ELINK //###################################################################### /*axi_elink AUTO_TEMPLATE (.m_axi_aresetn (nreset), .s_axi_aresetn (nreset), .sys_nreset (nreset), .m_\(.*\) (mem_m_\1[]), .s_\(.*\) (m_\1[]), .sys_clk (clk1), .rxi_\(.*\) (txo_\1[]), .txi_\(.*\) (rxo_\1[]), ); */ axi_elink #(.ID(12'h810), .ETYPE(0)) elink0 (.elink_active (dut_active), .s_axi_wstrb ((m_axi_wstrb[3:0] | m_axi_wstrb[7:4])),//NOTE:HACK!! .m_axi_rdata ({mem_m_axi_rdata[31:0],mem_m_axi_rdata[31:0]}), /*AUTOINST*/ // Outputs .rxo_wr_wait_p (rxo_wr_wait_p), .rxo_wr_wait_n (rxo_wr_wait_n), .rxo_rd_wait_p (rxo_rd_wait_p), .rxo_rd_wait_n (rxo_rd_wait_n), .txo_lclk_p (txo_lclk_p), .txo_lclk_n (txo_lclk_n), .txo_frame_p (txo_frame_p), .txo_frame_n (txo_frame_n), .txo_data_p (txo_data_p[7:0]), .txo_data_n (txo_data_n[7:0]), .chipid (chipid[11:0]), .chip_nreset (chip_nreset), .cclk_p (cclk_p), .cclk_n (cclk_n), .mailbox_irq (mailbox_irq), .m_axi_awid (mem_m_axi_awid[M_IDW-1:0]), // Templated .m_axi_awaddr (mem_m_axi_awaddr[31:0]), // Templated .m_axi_awlen (mem_m_axi_awlen[7:0]), // Templated .m_axi_awsize (mem_m_axi_awsize[2:0]), // Templated .m_axi_awburst (mem_m_axi_awburst[1:0]), // Templated .m_axi_awlock (mem_m_axi_awlock), // Templated .m_axi_awcache (mem_m_axi_awcache[3:0]), // Templated .m_axi_awprot (mem_m_axi_awprot[2:0]), // Templated .m_axi_awqos (mem_m_axi_awqos[3:0]), // Templated .m_axi_awvalid (mem_m_axi_awvalid), // Templated .m_axi_wid (mem_m_axi_wid[M_IDW-1:0]), // Templated .m_axi_wdata (mem_m_axi_wdata[63:0]), // Templated .m_axi_wstrb (mem_m_axi_wstrb[7:0]), // Templated .m_axi_wlast (mem_m_axi_wlast), // Templated .m_axi_wvalid (mem_m_axi_wvalid), // Templated .m_axi_bready (mem_m_axi_bready), // Templated .m_axi_arid (mem_m_axi_arid[M_IDW-1:0]), // Templated .m_axi_araddr (mem_m_axi_araddr[31:0]), // Templated .m_axi_arlen (mem_m_axi_arlen[7:0]), // Templated .m_axi_arsize (mem_m_axi_arsize[2:0]), // Templated .m_axi_arburst (mem_m_axi_arburst[1:0]), // Templated .m_axi_arlock (mem_m_axi_arlock), // Templated .m_axi_arcache (mem_m_axi_arcache[3:0]), // Templated .m_axi_arprot (mem_m_axi_arprot[2:0]), // Templated .m_axi_arqos (mem_m_axi_arqos[3:0]), // Templated .m_axi_arvalid (mem_m_axi_arvalid), // Templated .m_axi_rready (mem_m_axi_rready), // Templated .s_axi_arready (m_axi_arready), // Templated .s_axi_awready (m_axi_awready), // Templated .s_axi_bid (m_axi_bid[S_IDW-1:0]), // Templated .s_axi_bresp (m_axi_bresp[1:0]), // Templated .s_axi_bvalid (m_axi_bvalid), // Templated .s_axi_rid (m_axi_rid[S_IDW-1:0]), // Templated .s_axi_rdata (m_axi_rdata[31:0]), // Templated .s_axi_rlast (m_axi_rlast), // Templated .s_axi_rresp (m_axi_rresp[1:0]), // Templated .s_axi_rvalid (m_axi_rvalid), // Templated .s_axi_wready (m_axi_wready), // Templated // Inputs .sys_nreset (nreset), // Templated .sys_clk (clk1), // Templated .rxi_lclk_p (txo_lclk_p), // Templated .rxi_lclk_n (txo_lclk_n), // Templated .rxi_frame_p (txo_frame_p), // Templated .rxi_frame_n (txo_frame_n), // Templated .rxi_data_p (txo_data_p[7:0]), // Templated .rxi_data_n (txo_data_n[7:0]), // Templated .txi_wr_wait_p (rxo_wr_wait_p), // Templated .txi_wr_wait_n (rxo_wr_wait_n), // Templated .txi_rd_wait_p (rxo_rd_wait_p), // Templated .txi_rd_wait_n (rxo_rd_wait_n), // Templated .m_axi_aresetn (nreset), // Templated .m_axi_awready (mem_m_axi_awready), // Templated .m_axi_wready (mem_m_axi_wready), // Templated .m_axi_bid (mem_m_axi_bid[M_IDW-1:0]), // Templated .m_axi_bresp (mem_m_axi_bresp[1:0]), // Templated .m_axi_bvalid (mem_m_axi_bvalid), // Templated .m_axi_arready (mem_m_axi_arready), // Templated .m_axi_rid (mem_m_axi_rid[M_IDW-1:0]), // Templated .m_axi_rresp (mem_m_axi_rresp[1:0]), // Templated .m_axi_rlast (mem_m_axi_rlast), // Templated .m_axi_rvalid (mem_m_axi_rvalid), // Templated .s_axi_aresetn (nreset), // Templated .s_axi_arid (m_axi_arid[S_IDW-1:0]), // Templated .s_axi_araddr (m_axi_araddr[31:0]), // Templated .s_axi_arburst (m_axi_arburst[1:0]), // Templated .s_axi_arcache (m_axi_arcache[3:0]), // Templated .s_axi_arlock (m_axi_arlock), // Templated .s_axi_arlen (m_axi_arlen[7:0]), // Templated .s_axi_arprot (m_axi_arprot[2:0]), // Templated .s_axi_arqos (m_axi_arqos[3:0]), // Templated .s_axi_arsize (m_axi_arsize[2:0]), // Templated .s_axi_arvalid (m_axi_arvalid), // Templated .s_axi_awid (m_axi_awid[S_IDW-1:0]), // Templated .s_axi_awaddr (m_axi_awaddr[31:0]), // Templated .s_axi_awburst (m_axi_awburst[1:0]), // Templated .s_axi_awcache (m_axi_awcache[3:0]), // Templated .s_axi_awlock (m_axi_awlock), // Templated .s_axi_awlen (m_axi_awlen[7:0]), // Templated .s_axi_awprot (m_axi_awprot[2:0]), // Templated .s_axi_awqos (m_axi_awqos[3:0]), // Templated .s_axi_awsize (m_axi_awsize[2:0]), // Templated .s_axi_awvalid (m_axi_awvalid), // Templated .s_axi_bready (m_axi_bready), // Templated .s_axi_rready (m_axi_rready), // Templated .s_axi_wid (m_axi_wid[S_IDW-1:0]), // Templated .s_axi_wdata (m_axi_wdata[31:0]), // Templated .s_axi_wlast (m_axi_wlast), // Templated .s_axi_wvalid (m_axi_wvalid)); // Templated //###################################################################### //AXI SLAVE //###################################################################### /*esaxi AUTO_TEMPLATE (//Stimulus .s_\(.*\) (mem_m_\1[]), .\(.*\) (mem_\1[]), ); */ esaxi #(.S_IDW(S_IDW), .RETURN_ADDR(RETURN_ADDR)) esaxi (.s_axi_aclk (clk), .s_axi_aresetn (nreset), .s_axi_wstrb (mem_m_axi_wstrb[7:4] | mem_m_axi_wstrb[3:0]), /*AUTOINST*/ // Outputs .wr_access (mem_wr_access), // Templated .wr_packet (mem_wr_packet[PW-1:0]), // Templated .rd_access (mem_rd_access), // Templated .rd_packet (mem_rd_packet[PW-1:0]), // Templated .rr_wait (mem_rr_wait), // Templated .s_axi_arready (mem_m_axi_arready), // Templated .s_axi_awready (mem_m_axi_awready), // Templated .s_axi_bid (mem_m_axi_bid[S_IDW-1:0]), // Templated .s_axi_bresp (mem_m_axi_bresp[1:0]), // Templated .s_axi_bvalid (mem_m_axi_bvalid), // Templated .s_axi_rid (mem_m_axi_rid[S_IDW-1:0]), // Templated .s_axi_rdata (mem_m_axi_rdata[31:0]), // Templated .s_axi_rlast (mem_m_axi_rlast), // Templated .s_axi_rresp (mem_m_axi_rresp[1:0]), // Templated .s_axi_rvalid (mem_m_axi_rvalid), // Templated .s_axi_wready (mem_m_axi_wready), // Templated // Inputs .wr_wait (mem_wr_wait), // Templated .rd_wait (mem_rd_wait), // Templated .rr_access (mem_rr_access), // Templated .rr_packet (mem_rr_packet[PW-1:0]), // Templated .s_axi_arid (mem_m_axi_arid[S_IDW-1:0]), // Templated .s_axi_araddr (mem_m_axi_araddr[31:0]), // Templated .s_axi_arburst (mem_m_axi_arburst[1:0]), // Templated .s_axi_arcache (mem_m_axi_arcache[3:0]), // Templated .s_axi_arlock (mem_m_axi_arlock), // Templated .s_axi_arlen (mem_m_axi_arlen[7:0]), // Templated .s_axi_arprot (mem_m_axi_arprot[2:0]), // Templated .s_axi_arqos (mem_m_axi_arqos[3:0]), // Templated .s_axi_arsize (mem_m_axi_arsize[2:0]), // Templated .s_axi_arvalid (mem_m_axi_arvalid), // Templated .s_axi_awid (mem_m_axi_awid[S_IDW-1:0]), // Templated .s_axi_awaddr (mem_m_axi_awaddr[31:0]), // Templated .s_axi_awburst (mem_m_axi_awburst[1:0]), // Templated .s_axi_awcache (mem_m_axi_awcache[3:0]), // Templated .s_axi_awlock (mem_m_axi_awlock), // Templated .s_axi_awlen (mem_m_axi_awlen[7:0]), // Templated .s_axi_awprot (mem_m_axi_awprot[2:0]), // Templated .s_axi_awqos (mem_m_axi_awqos[3:0]), // Templated .s_axi_awsize (mem_m_axi_awsize[2:0]), // Templated .s_axi_awvalid (mem_m_axi_awvalid), // Templated .s_axi_bready (mem_m_axi_bready), // Templated .s_axi_rready (mem_m_axi_rready), // Templated .s_axi_wid (mem_m_axi_wid[S_IDW-1:0]), // Templated .s_axi_wdata (mem_m_axi_wdata[31:0]), // Templated .s_axi_wlast (mem_m_axi_wlast), // Templated .s_axi_wvalid (mem_m_axi_wvalid)); // Templated //###################################################################### // MEMORY PORT //###################################################################### //"Arbitration" between read/write transaction assign mem_access = mem_wr_access | mem_rd_access; assign mem_packet[PW-1:0] = mem_wr_access ? mem_wr_packet[PW-1:0]: mem_rd_packet[PW-1:0]; assign mem_rd_wait = (emem_wait & mem_rd_access) | mem_wr_access; assign mem_wr_wait = (emem_wait & mem_wr_access); /*ememory AUTO_TEMPLATE ( // Outputsd .\(.*\)_out (mem_rr_\1[]), .\(.*\)_in (mem_\1[]), .wait_out (mem_wait), ); */ ememory #(.WAIT(0), .MON(1)) ememory (.wait_in (mem_rr_wait),//pushback on reads .clk (clk1), .wait_out (emem_wait), .coreid (12'h0), /*AUTOINST*/ // Outputs .access_out (mem_rr_access), // Templated .packet_out (mem_rr_packet[PW-1:0]), // Templated // Inputs .nreset (nreset), .access_in (mem_access), // Templated .packet_in (mem_packet[PW-1:0])); // Templated endmodule // dv_elink // Local Variables: // verilog-library-directories:("." "../hdl" "../../emesh/dv" "../../axi/dv" "../../emesh/hdl" "../../memory/hdl" "../../axi/hdl") // End: