`include "VX_define.vh" module VX_io_arb #( parameter NUM_REQUESTS = 1, parameter WORD_SIZE = 1, parameter TAG_IN_WIDTH = 1, parameter TAG_OUT_WIDTH = 1, parameter WORD_WIDTH = WORD_SIZE * 8, parameter ADDR_WIDTH = 32 - `CLOG2(WORD_SIZE), parameter REQS_BITS = `CLOG2(NUM_REQUESTS) ) ( input wire clk, input wire reset, // input requests input wire [NUM_REQUESTS-1:0][`NUM_THREADS-1:0] io_req_valid_in, input wire [NUM_REQUESTS-1:0][TAG_IN_WIDTH-1:0] io_req_tag_in, input wire [NUM_REQUESTS-1:0][`NUM_THREADS-1:0][ADDR_WIDTH-1:0] io_req_addr_in, input wire [NUM_REQUESTS-1:0] io_req_rw_in, input wire [NUM_REQUESTS-1:0][`NUM_THREADS-1:0][WORD_SIZE-1:0] io_req_byteen_in, input wire [NUM_REQUESTS-1:0][`NUM_THREADS-1:0][WORD_WIDTH-1:0] io_req_data_in, output wire [NUM_REQUESTS-1:0] io_req_ready_in, // input response output wire [NUM_REQUESTS-1:0] io_rsp_valid_in, output wire [NUM_REQUESTS-1:0][TAG_IN_WIDTH-1:0] io_rsp_tag_in, output wire [NUM_REQUESTS-1:0][WORD_WIDTH-1:0] io_rsp_data_in, input wire [NUM_REQUESTS-1:0] io_rsp_ready_in, // output request output wire [`NUM_THREADS-1:0] io_req_valid_out, output wire [TAG_OUT_WIDTH-1:0] io_req_tag_out, output wire [`NUM_THREADS-1:0][ADDR_WIDTH-1:0] io_req_addr_out, output wire io_req_rw_out, output wire [`NUM_THREADS-1:0][WORD_SIZE-1:0] io_req_byteen_out, output wire [`NUM_THREADS-1:0][WORD_WIDTH-1:0] io_req_data_out, input wire io_req_ready_out, // output response input wire io_rsp_valid_out, input wire [TAG_OUT_WIDTH-1:0] io_rsp_tag_out, input wire [WORD_WIDTH-1:0] io_rsp_data_out, output wire io_rsp_ready_out ); if (NUM_REQUESTS > 1) begin wire [NUM_REQUESTS-1:0] valids; for (genvar i = 0; i < NUM_REQUESTS; i++) begin assign valids[i] = (| io_req_valid_in[i]); end wire [REQS_BITS-1:0] req_idx; wire [NUM_REQUESTS-1:0] req_1hot; VX_rr_arbiter #( .N(NUM_REQUESTS) ) req_arb ( .clk (clk), .reset (reset), .requests (valids), `UNUSED_PIN (grant_valid), .grant_index (req_idx), .grant_onehot (req_1hot) ); wire stall = ~io_req_ready_out && (| io_req_valid_out); VX_generic_register #( .N(`NUM_THREADS + TAG_OUT_WIDTH + (`NUM_THREADS * ADDR_WIDTH) + 1 + (`NUM_THREADS * WORD_SIZE) + (`NUM_THREADS * WORD_WIDTH)), .PASSTHRU(NUM_REQUESTS <= 2) ) pipe_reg ( .clk (clk), .reset (reset), .stall (stall), .flush (1'b0), .in ({io_req_valid_in[req_idx], {io_req_tag_in[req_idx], REQS_BITS'(req_idx)}, io_req_addr_in[req_idx], io_req_rw_in[req_idx], io_req_byteen_in[req_idx], io_req_data_in[req_idx]}), .out ({io_req_valid_out, io_req_tag_out, io_req_addr_out, io_req_rw_out, io_req_byteen_out, io_req_data_out}) ); for (genvar i = 0; i < NUM_REQUESTS; i++) begin assign io_req_ready_in[i] = req_1hot[i] && ~stall; end /////////////////////////////////////////////////////////////////////// wire [REQS_BITS-1:0] rsp_sel = io_rsp_tag_out[REQS_BITS-1:0]; for (genvar i = 0; i < NUM_REQUESTS; i++) begin assign io_rsp_valid_in[i] = io_rsp_valid_out && (rsp_sel == REQS_BITS'(i)); assign io_rsp_tag_in[i] = io_rsp_tag_out[REQS_BITS +: TAG_IN_WIDTH]; assign io_rsp_data_in[i] = io_rsp_data_out; end assign io_rsp_ready_out = io_rsp_ready_in[rsp_sel]; end else begin `UNUSED_VAR (clk) `UNUSED_VAR (reset) assign io_req_valid_out = io_req_valid_in; assign io_req_tag_out = io_req_tag_in; assign io_req_addr_out = io_req_addr_in; assign io_req_rw_out = io_req_rw_in; assign io_req_byteen_out = io_req_byteen_in; assign io_req_data_out = io_req_data_in; assign io_req_ready_in = io_req_ready_out; assign io_rsp_valid_in = io_rsp_valid_out; assign io_rsp_tag_in = io_rsp_tag_out; assign io_rsp_data_in = io_rsp_data_out; assign io_rsp_ready_out = io_rsp_ready_in; end endmodule