0

我已经编写了一个异步 fifo 缓冲区,但是当我运行它时,我在输出端口上得到了 XXX。我提到了关于 SO 的相关问题,其中说断言复位信号应该使它工作,但尽管这样做我仍然面临同样的问题。

任何帮助将不胜感激。谢谢

module fifo 
    #(parameter width =8,
                           addr_width = 4,
                            depth = (1 << addr_width)
     )
     ( // Read port
      output  [width - 1:0] dout,
      output reg                 empty_out,
      input wire                 rd_en,
      input wire              rclk,
      //write port
        input wire [width-1:0]  din,
        output reg                  full,
        input wire                  wr_en,
        input wire                  wclk,

        input wire                  rst
);

(* ram_style = "bram" *)
reg [width-1:0] memory_s[depth-1:0];
reg [31:0] push_ptr;
reg [31:0] pop_ptr;

assign dout = memory_s[pop_ptr];  // assign cannot assign values to registers
always @(posedge wclk)
    begin
        if (rst == 1)
            push_ptr <= 0;
        else if(wr_en == 1)
            begin
                memory_s\[push_ptr\] <= din;
                //$display("w: %d", push_ptr);
            if (push_ptr == (depth -1))
                    push_ptr <= 0;
            else 
                push_ptr <= push_ptr + 1;
        end
    end

always @ (posedge rclk)
    if (rst == 1)
        pop_ptr <= 0;
    else if (rd_en ==1)
        begin
                //dout <= memory_s\[pop_ptr\]; 
                //$display("r: %d", pop_ptr);
            if (pop_ptr == depth-1)
                pop_ptr <=0;
            else
                pop_ptr <= pop_ptr+1;
        end

reg full_s;
reg overflow;

always @*
begin
        if (rst == 1)
            full_s <= 0;
        else if (push_ptr <= pop_ptr)
            if (push_ptr + 1 == pop_ptr)
               begin
                full_s <= 1;
                $display("push,pop,full: %d %d %d", push_ptr,pop_ptr,full_s); 
                end
            else 
                full_s <=0;
        else 
            if(push_ptr + 1 == pop_ptr + depth) 
               begin
                full_s <= 1;
                $display("push,pop,full: %d %d %d", push_ptr,pop_ptr,full_s);
                end
            else
                full_s <= 0;

        end
endmodule]

这是一个波形:

波形
外部链接

添加了Testbench模块fifoTb;

// Inputs
reg rd_en;
reg rclk;
reg [7:0] din;
reg wr_en;
reg wclk;
reg rst;

// Outputs
wire[7:0] dout;
wire empty_out;
wire full;

// Instantiate the Unit Under Test (UUT)
fifo uut (
    .dout(dout), 
    .empty_out(empty_out), 
    .rd_en(rd_en), 
    .rclk(rclk), 
    .din(din), 
    .full(full), 
    .wr_en(wr_en), 
    .wclk(wclk), 
    .rst(rst)
);
initial begin
    // Initialize Inputs
    rd_en = 0;
    rclk = 0;

    wr_en = 0;
    wclk = 0;
    rst = 1;
    din = 8'h0;
    // Wait 100 ns for global reset to finish
    #100;
  rst = 0; 
    wr_en = 1;
    din = 8'h1;
    #101 din = 8'h2;
    rd_en = 1;
    // Add stimulus here

end

always begin #10 wclk = ~wclk; end

always begin #10 rclk = ~rclk; end
endmodule
4

1 回答 1

1

我建议在您的输出dout信号上添加额外的逻辑以避免具有'bxxx值,因为memory_s初始值为'bxxx

assign dout = (rd_en) ? memory_s[pop_ptr] : 0;

创建测试平台的其他提示:

首先,尝试了解您的设备的工作原理非常重要。

阅读您的 RTL 代码后,我得出结论,您的 fifo 以下列方式工作:

写操作

always @(posedge wclk)
  begin
     if (rst == 1)
       push_ptr <= 0;
     else if(wr_en == 1)
       begin
          memory_s[push_ptr] <= din;
          if (push_ptr == (depth -1))
            push_ptr <= 0;
          else
            push_ptr <= push_ptr + 1;
       end
  end

wr_en为高时,执行两个操作。

  1. from 的值din将写入的下一个上升沿memory_s指向 的。push_ptrwclk

  2. 如果push_ptr等于(depth -1),0将被写入寄存器,push_ptr否则寄存器push_ptr会增加 1。

    wr_en低电平时不进行写操作。

读操作

assign dout = memory_s[pop_ptr];

always @ (posedge rclk)
  if (rst == 1)
    pop_ptr <= 0;
  else if (rd_en ==1)
    begin
       if (pop_ptr == depth-1)
         pop_ptr <=0;
       else
         pop_ptr <= pop_ptr+1;
    end

rd_en为高时,将寄存器pop_ptr增加1if pop_ptr不等于depth-1else 写入它0dout将始终保持memory_s寄存器指向 的值pop_ptr

为您要执行的每个操作创建任务通常很方便。

  wr_en = 1;
  din = 8'h1;
  #101 din = 8'h2;
  rd_en = 1;

我为您创建了写入和读取任务作为示例,您可能想要替换上面的代码。

task write(input [7:0] pdin);
   $display("[ testbench ] writing data: %0x", pdin);
   din <= pdin;
   wr_en <= 1;
   @(posedge wclk);
   din <= 0;
   wr_en <= 0;
endtask

task read(output [7:0] prdata);
   rd_en <= 1;
   @(posedge rclk);
   prdata = dout;
   rd_en <= 0;
   $display("[ testbench ] reading data: %0x", prdata);
endtask

以下是如何使用任务:

  write(8'hAA);
  read(read_data);

  write(8'hCC);
  read(read_data);

  write(8'hBC);
  read(read_data);

在编写组合电路时,不建议在其上添加复位逻辑。

 always @*
 begin
         if (rst == 1)
             full_s <= 0; . . .

此外,大多数 EDA 工具供应商建议在编写组合电路时使用阻塞( )赋值,在时序电路中使用=非阻塞赋值( )。<=

完成后通过调用结束模拟$finish

initial begin
   #1000; $finish;
end
于 2015-01-23T11:05:32.267 回答