// Mux packets from multiple FIFO interfaces onto a single one. // Can alternate or give priority to one port (port 0) // In prio mode, port 1 will never get access if port 0 is always busy module fifo36_mux #(parameter prio = 0) (input clk, input reset, input clear, input [35:0] data0_i, input src0_rdy_i, output dst0_rdy_o, input [35:0] data1_i, input src1_rdy_i, output dst1_rdy_o, output [35:0] data_o, output src_rdy_o, input dst_rdy_i); localparam MUX_IDLE0 = 0; localparam MUX_DATA0 = 1; localparam MUX_IDLE1 = 2; localparam MUX_DATA1 = 3; reg [1:0] state; wire eof0 = data0_i[33]; wire eof1 = data1_i[33]; always @(posedge clk) if(reset | clear) state <= MUX_IDLE0; else case(state) MUX_IDLE0 : if(src0_rdy_i) state <= MUX_DATA0; else if(src1_rdy_i) state <= MUX_DATA1; MUX_DATA0 : if(src0_rdy_i & dst_rdy_i & eof0) state <= prio ? MUX_IDLE0 : MUX_IDLE1; MUX_IDLE1 : if(src1_rdy_i) state <= MUX_DATA1; else if(src0_rdy_i) state <= MUX_DATA0; MUX_DATA1 : if(src1_rdy_i & dst_rdy_i & eof1) state <= MUX_IDLE0; default : state <= MUX_IDLE0; endcase // case (state) assign dst0_rdy_o = (state==MUX_DATA0) ? dst_rdy_i : 0; assign dst1_rdy_o = (state==MUX_DATA1) ? dst_rdy_i : 0; assign src_rdy_o = (state==MUX_DATA0) ? src0_rdy_i : (state==MUX_DATA1) ? src1_rdy_i : 0; assign data_o = (state==MUX_DATA0) ? data0_i : data1_i; endmodule // fifo36_demux