Occasional Contributor
Occasional ContributorThe top-level Verilog module ports for the IP are as follows:
I think guidance on how to generate a blackbox IP component for this is what is needed along with top-level connections including what needs to be exported.
// dsi2_dphy_sys.v
// Generated using ACDS version 25.3 109
`timescale 1 ps / 1 ps
module dsi2_dphy_sys (
input wire dsi2_tx_control_write, // dsi2_tx_control.write
input wire dsi2_tx_control_read, // .read
input wire [8:0] dsi2_tx_control_address, // .address
input wire [31:0] dsi2_tx_control_writedata, // .writedata
output wire [31:0] dsi2_tx_control_readdata, // .readdata
output wire dsi2_tx_control_readdatavalid, // .readdatavalid
output wire dsi2_tx_control_waitrequest, // .waitrequest
input wire [3:0] dsi2_tx_control_byteenable, // .byteenable
input wire [47:0] dsi2_tx_axi4s_vid_in_tdata, // dsi2_tx_axi4s_vid_in.tdata
input wire dsi2_tx_axi4s_vid_in_tvalid, // .tvalid
output wire dsi2_tx_axi4s_vid_in_tready, // .tready
input wire dsi2_tx_axi4s_vid_in_tlast, // .tlast
input wire [5:0] dsi2_tx_axi4s_vid_in_tuser, // .tuser
input wire dsi2_tx_frame_start_conduit, // dsi2_tx_frame_start.conduit
output wire dsi2_tx_axi4s_clk_bridge_out_clk_clk, // dsi2_tx_axi4s_clk_bridge_out_clk.clk
output wire dsi2_tx_axi4s_reset_bridge_out_reset_reset, // dsi2_tx_axi4s_reset_bridge_out_reset.reset
input wire mipi_dphy_rzq_rzq, // mipi_dphy_rzq.rzq
input wire mipi_dphy_ref_clk_0_clk, // mipi_dphy_ref_clk_0.clk
input wire [11:0] mipi_dphy_axi_lite_awaddr, // mipi_dphy_axi_lite.awaddr
input wire mipi_dphy_axi_lite_awvalid, // .awvalid
output wire mipi_dphy_axi_lite_awready, // .awready
input wire [31:0] mipi_dphy_axi_lite_wdata, // .wdata
input wire [3:0] mipi_dphy_axi_lite_wstrb, // .wstrb
input wire mipi_dphy_axi_lite_wvalid, // .wvalid
output wire mipi_dphy_axi_lite_wready, // .wready
output wire [1:0] mipi_dphy_axi_lite_bresp, // .bresp
output wire mipi_dphy_axi_lite_bvalid, // .bvalid
input wire mipi_dphy_axi_lite_bready, // .bready
input wire [11:0] mipi_dphy_axi_lite_araddr, // .araddr
input wire mipi_dphy_axi_lite_arvalid, // .arvalid
output wire mipi_dphy_axi_lite_arready, // .arready
output wire [31:0] mipi_dphy_axi_lite_rdata, // .rdata
output wire [1:0] mipi_dphy_axi_lite_rresp, // .rresp
output wire mipi_dphy_axi_lite_rvalid, // .rvalid
input wire mipi_dphy_axi_lite_rready, // .rready
input wire [2:0] mipi_dphy_axi_lite_arprot, // .arprot
input wire [2:0] mipi_dphy_axi_lite_awprot, // .awprot
output wire mipi_dphy_reg_bus_reg_wr_en_o, // mipi_dphy_reg_bus.reg_wr_en_o
output wire mipi_dphy_reg_bus_reg_rd_en_o, // .reg_rd_en_o
output wire [10:0] mipi_dphy_reg_bus_reg_raddr_o, // .reg_raddr_o
output wire [10:0] mipi_dphy_reg_bus_reg_waddr_o, // .reg_waddr_o
output wire [3:0] mipi_dphy_reg_bus_reg_be_o, // .reg_be_o
output wire [31:0] mipi_dphy_reg_bus_reg_din_o, // .reg_din_o
input wire [31:0] mipi_dphy_reg_bus_reg_dout_i, // .reg_dout_i
output wire mipi_dphy_LINK1_link_core_srst_reset_n, // mipi_dphy_LINK1_link_core_srst.reset_n
output wire [1:0] mipi_dphy_LINK1_dphy_io_dphy_link_dp, // mipi_dphy_LINK1_dphy_io.dphy_link_dp
output wire [1:0] mipi_dphy_LINK1_dphy_io_dphy_link_dn, // .dphy_link_dn
output wire mipi_dphy_LINK1_dphy_io_dphy_link_cp, // .dphy_link_cp
output wire mipi_dphy_LINK1_dphy_io_dphy_link_cn, // .dphy_link_cn
output wire mipi_dphy_link1_link_core_clock_bridge_out_clk_clk, // mipi_dphy_link1_link_core_clock_bridge_out_clk.clk
output wire mipi_dphy_link1_link_core_reset_bridge_out_reset_reset // mipi_dphy_link1_link_core_reset_bridge_out_reset.reset
);
