// // Copyright 2012-2013 Ettus Research LLC // // Block RAM AXI fifo // Special case SIZE <= 5 uses a short fifo module axi_fifo #(parameter WIDTH=32, SIZE=9) (input clk, input reset, input clear, input [WIDTH-1:0] i_tdata, input i_tvalid, output i_tready, output [WIDTH-1:0] o_tdata, output o_tvalid, input o_tready, output reg [15:0] space, output reg [15:0] occupied); generate if(SIZE<=5) begin wire [5:0] space_short, occupied_short; axi_fifo_short #(.WIDTH(WIDTH)) fifo_short ( .clk(clk), .reset(reset), .clear(clear), .i_tdata(i_tdata), .i_tvalid(i_tvalid), .i_tready(i_tready), .o_tdata(o_tdata), .o_tvalid(o_tvalid), .o_tready(o_tready), .space(space_short), .occupied(occupied_short) ); always @* space <= {10'b0, space_short}; always @* occupied <= {10'b0, occupied_short}; end else begin wire write = i_tvalid & i_tready; wire read = o_tvalid & o_tready; wire full, empty; assign i_tready = ~full; assign o_tvalid = ~empty; // Read side states localparam EMPTY = 0; localparam PRE_READ = 1; localparam READING = 2; reg [SIZE-1:0] wr_addr, rd_addr; reg [1:0] read_state; reg empty_reg, full_reg; always @(posedge clk) if(reset) wr_addr <= 0; else if(clear) wr_addr <= 0; else if(write) wr_addr <= wr_addr + 1; ram_2port #(.DWIDTH(WIDTH),.AWIDTH(SIZE)) ram (.clka(clk), .ena(1'b1), .wea(write), .addra(wr_addr), .dia(i_tdata), .doa(), .clkb(clk), .enb((read_state==PRE_READ)|read), .web(1'b0), .addrb(rd_addr), .dib({WIDTH{1'b1}}), .dob(o_tdata)); always @(posedge clk) if(reset) begin read_state <= EMPTY; rd_addr <= 0; empty_reg <= 1; end else if(clear) begin read_state <= EMPTY; rd_addr <= 0; empty_reg <= 1; end else case(read_state) EMPTY : if(write) begin //rd_addr <= wr_addr; read_state <= PRE_READ; end PRE_READ : begin read_state <= READING; empty_reg <= 0; rd_addr <= rd_addr + 1; end READING : if(read) if(rd_addr == wr_addr) begin empty_reg <= 1; if(write) read_state <= PRE_READ; else read_state <= EMPTY; end else rd_addr <= rd_addr + 1; endcase // case(read_state) wire [SIZE-1:0] dont_write_past_me = rd_addr - 2; wire becoming_full = wr_addr == dont_write_past_me; always @(posedge clk) if(reset) full_reg <= 0; else if(clear) full_reg <= 0; else if(read & ~write) full_reg <= 0; //else if(write & ~read & (wr_addr == (rd_addr-3))) else if(write & ~read & becoming_full) full_reg <= 1; //assign empty = (read_state != READING); assign empty = empty_reg; // assign full = ((rd_addr - 1) == wr_addr); assign full = full_reg; ////////////////////////////////////////////// // space and occupied are for diagnostics only // not guaranteed exact localparam NUMLINES = (1<