异步FIFO问题 二

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同步FIFO, verilog:

module fifo(clock,reset,read,write,fifo_in,fifo_out,fifo_empty,fifo_half,fifo_full);
  input clock,reset,read,write;
  input [15:0]fifo_in;
  output[15:0]fifo_out;
  output fifo_empty,fifo_half,fifo_full;//标志位
  reg [15:0]fifo_out;
  reg [15:0]ram[15:0];
  reg [3:0]read_ptr,write_ptr,counter;//指针与计数
  wire fifo_empty,fifo_half,fifo_full;

  [email protected](posedge clock)
  if(reset)
    begin
      read_ptr=0;
      write_ptr=0;
      counter=0;
      fifo_out=0;                    //初始值
    end
  else
    case({read,write})
      2‘b00:
            counter=counter;        //没有读写指令
      2‘b01:                            //写指令,数据输入fifo
            begin
              ram[write_ptr]=fifo_in;
              counter=counter+1;
              write_ptr=(write_ptr==15)?0:write_ptr+1;
            end
      2‘b10:                          //读指令,数据读出fifo
            begin
              fifo_out=ram[read_ptr];
              counter=counter-1;
              read_ptr=(read_ptr==15)?0:read_ptr+1;
            end
      2‘b11:                        //读写指令同时,数据可以直接输出
            begin
              if(counter==0)
                fifo_out=fifo_in;
              else
                begin
                  ram[write_ptr]=fifo_in;
                  fifo_out=ram[read_ptr];
                  write_ptr=(write_ptr==15)?0:write_ptr+1;
                  read_ptr=(read_ptr==15)?0:write_ptr+1;
                end
              end
        endcase

        assign fifo_empty=(counter==0);    //标志位赋值 组合电路
        assign fifo_half=(counter==8);
        assign fifo_full=(counter==15);

    endmodule

异步FIFO实现:

module fifo1(rdata, wfull, rempty, wdata, winc, wclk, wrst_n,rinc, rclk, rrst_n);
parameter DSIZE = 8; parameter ASIZE = 4;
output [DSIZE-1:0] rdata;
output wfull;
output rempty;
input [DSIZE-1:0] wdata;
input winc, wclk, wrst_n;
input rinc, rclk, rrst_n;
reg wfull,rempty;
reg [ASIZE:0] wptr, rptr, wq2_rptr, rq2_wptr, wq1_rptr,rq1_wptr;
reg [ASIZE:0] rbin, wbin;
reg [DSIZE-1:0] mem[0:(1<<ASIZE)-1];
wire [ASIZE-1:0] waddr, raddr;
wire [ASIZE:0] rgraynext, rbinnext,wgraynext,wbinnext;
wire rempty_val,wfull_val;
//-----------------双口RAM存储器--------------------
assign rdata=mem[raddr];
[email protected](posedge wclk)
if (winc && !wfull) mem[waddr] <= wdata;
//-------------同步rptr 指针-------------------------
always @(posedge wclk or negedge wrst_n)
if (!wrst_n) {wq2_rptr,wq1_rptr} <= 0;
else {wq2_rptr,wq1_rptr} <= {wq1_rptr,rptr};
//-------------同步wptr指针---------------------------
always @(posedge rclk or negedge rrst_n)
if (!rrst_n) {rq2_wptr,rq1_wptr} <= 0;
else {rq2_wptr,rq1_wptr} <= {rq1_wptr,wptr};
//-------------rempty产生与raddr产生-------------------
always @(posedge rclk or negedge rrst_n) // GRAYSTYLE2 pointer
begin
if (!rrst_n) {rbin, rptr} <= 0;
else {rbin, rptr} <= {rbinnext, rgraynext};
end
// Memory read-address pointer (okay to use binary to address memory)
assign raddr = rbin[ASIZE-1:0];
assign rbinnext = rbin + (rinc & ~rempty);
assign rgraynext = (rbinnext>>1) ^ rbinnext;
// FIFO empty when the next rptr == synchronized wptr or on reset
assign rempty_val = (rgraynext == rq2_wptr);
always @(posedge rclk or negedge rrst_n)
begin
if (!rrst_n) rempty <= 1‘b1;
else rempty <= rempty_val;
end
//---------------wfull产生与waddr产生------------------------------
always @(posedge wclk or negedge wrst_n) // GRAYSTYLE2 pointer
if (!wrst_n) {wbin, wptr} <= 0;
else {wbin, wptr} <= {wbinnext, wgraynext};
// Memory write-address pointer (okay to use binary to address memory)
assign waddr = wbin[ASIZE-1:0];
assign wbinnext = wbin + (winc & ~wfull);
assign wgraynext = (wbinnext>>1) ^ wbinnext;
assign wfull_val = (wgraynext=={~wq2_rptr[ASIZE:ASIZE-1], wq2_rptr[ASIZE-2:0]}); //:ASIZE-1]
always @(posedge wclk or negedge wrst_n)
if (!wrst_n) wfull <= 1‘b0;
else wfull <= wfull_val;
endmodule

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