`include "VX_define.vh" module VX_csr_io_arb #( parameter NUM_REQS = 1, parameter DATA_WIDTH = 1, parameter DATA_SIZE = (DATA_WIDTH / 8), parameter ADDR_WIDTH = 32 - `CLOG2(DATA_SIZE), parameter LOG_NUM_REQS = `LOG2UP(NUM_REQS) ) ( input wire clk, input wire reset, input wire [LOG_NUM_REQS-1:0] request_id, // input requests input wire req_valid_in, input wire [ADDR_WIDTH-1:0] req_addr_in, input wire req_rw_in, input wire [DATA_WIDTH-1:0] req_data_in, output wire req_ready_in, // output request output wire [NUM_REQS-1:0] req_valid_out, output wire [NUM_REQS-1:0][ADDR_WIDTH-1:0] req_addr_out, output wire [NUM_REQS-1:0] req_rw_out, output wire [NUM_REQS-1:0][DATA_WIDTH-1:0] req_data_out, input wire [NUM_REQS-1:0] req_ready_out, // input response input wire [NUM_REQS-1:0] rsp_valid_in, input wire [NUM_REQS-1:0][DATA_WIDTH-1:0] rsp_data_in, output wire [NUM_REQS-1:0] rsp_ready_in, // output response output wire rsp_valid_out, output wire [DATA_WIDTH-1:0] rsp_data_out, input wire rsp_ready_out ); if (NUM_REQS > 1) begin for (genvar i = 0; i < NUM_REQS; i++) begin assign req_valid_out[i] = req_valid_in && (request_id == LOG_NUM_REQS'(i)); assign req_addr_out[i] = req_addr_in; assign req_rw_out[i] = req_rw_in; assign req_data_out[i] = req_data_in; end assign req_ready_in = req_ready_out[request_id]; end else begin `UNUSED_VAR (request_id) assign req_valid_out = req_valid_in; assign req_addr_out = req_addr_in; assign req_rw_out = req_rw_in; assign req_data_out = req_data_in; assign req_ready_in = req_ready_out; end /////////////////////////////////////////////////////////////////////// VX_stream_arbiter #( .NUM_REQS (NUM_REQS), .DATAW (DATA_WIDTH), .IN_BUFFER (NUM_REQS >= 4), .OUT_BUFFER (NUM_REQS >= 4) ) rsp_arb ( .clk (clk), .reset (reset), .valid_in (rsp_valid_in), .data_in (rsp_data_in), .ready_in (rsp_ready_in), .valid_out (rsp_valid_out), .data_out (rsp_data_out), .ready_out (rsp_ready_out) ); endmodule