// -*- verilog -*- // // USRP - Universal Software Radio Peripheral // // Copyright (C) 2003 Matt Ettus // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // Vendor Independent FIFO module // Width and Depth should be parameterizable // Asynchronous clocks for each side // Read side is read-acknowledge, not read-request // FIFO does not enforce "don't write when full, don't read when empty" // That is up to the connecting modules // The FIFO only holds 2^N-1 entries, not 2^N module fifo (reset,data,write,wrclk,wr_used,q,read_ack,rdclk,rd_used); parameter width=32; parameter depth=10; input reset; // Asynchronous input [width-1:0] data; input write; input wrclk; output [depth-1:0] wr_used; output [width-1:0] q; input read_ack; input rdclk; output [depth-1:0] rd_used; reg [depth-1:0] read_addr, write_addr, read_addr_gray, read_addr_gray_sync, write_addr_gray, write_addr_gray_sync; // Pseudo-dual-port RAM dpram #(.depth(10),.width(width),.size(1024)) fifo_ram (.wclk(wrclk),.wdata(data),.waddr(write_addr),.wen(write), .rclk(rdclk), .rdata(q),.raddr(read_addr) ); wire [depth-1:0] wag,rag; // Keep track of own side's pointer always @(posedge wrclk or posedge reset) if(reset) write_addr <= #1 0; else if(write) write_addr <= #1 write_addr + 1; always @(posedge rdclk or posedge reset) if(reset) read_addr <= #1 0; else if(read_ack) read_addr <= #1 read_addr + 1; // Convert own side pointer to gray bin2gray #(depth) write_b2g (write_addr,wag); bin2gray #(depth) read_b2g (read_addr,rag); // Latch it always @(posedge wrclk or posedge reset) if(reset) write_addr_gray <= #1 0; else write_addr_gray <= #1 wag; always @(posedge rdclk or posedge reset) if(reset) read_addr_gray <= #1 0; else read_addr_gray <= #1 rag; // Send it to other side and latch always @(posedge wrclk or posedge reset) if(reset) read_addr_gray_sync <= #1 0; else read_addr_gray_sync <= #1 read_addr_gray; always @(posedge rdclk or posedge reset) if(reset) write_addr_gray_sync <= #1 0; else write_addr_gray_sync <= #1 write_addr_gray; wire [depth-1:0] write_addr_sync, read_addr_sync; // Convert back to binary gray2bin #(depth) write_g2b (write_addr_gray_sync, write_addr_sync); gray2bin #(depth) read_g2b (read_addr_gray_sync, read_addr_sync); assign rd_used = write_addr_sync - read_addr; assign wr_used = write_addr - read_addr_sync; endmodule // fifo module bin2gray(bin_val,gray_val); parameter width = 8; input [width-1:0] bin_val; output reg [width-1:0] gray_val; integer i; always @* begin gray_val[width-1] = bin_val[width-1]; for(i=0;i=0;i=i-1) bin_val[i] = bin_val[i+1] ^ gray_val[i]; end endmodule // gray2bin