3-8译码器的功能与实现

3-8译码器的输入是3个脚,输出是8个脚。用高低电平来表示输入和输出。
输入是二进制。3只脚也就是3位二进制数。输入可以3位二进制数。3位二进制最大是111 也就是8。
输出是8个脚,表示10进制。是根据输入的二进制数来输出。如果输入是101 那么就是第5只脚高电平,表示二进制数是5。
其实3-8译码器的功能就是把输入的3位2进制数翻译成10进制的输出。

以低电平输出为例:

第一种case语句

`timescale 10ns/1ns

module decode3_8 (data_out,data_in,enable) ;

input [2:0] data_in;

input enable;

output [7:0] data_out;

reg [7:0] data_out;

 

always @(data_in or enable)

begin

       if (enable==1)

              case (data_in )

              3'b000: data_out=8'b11111110;

              3'b001: data_out=8'b11111101;

              3'b010: data_out=8'b11111011;

              3'b011: data_out=8'b11110111;

              3'b100: data_out=8'b11101111;

              3'b101: data_out=8'b11011111;

              3'b110: data_out=8'b10111111;

              3'b111: data_out=8'b01111111;

              default: data_out=8'bxxxxxxxx;

              endcase

       else

              data_out=8'b11111111;

end

 

endmodule

 

第二种if-else if语句

`timescale 10ns/1ns

module decode3_8 (data_out,data_in,enable) ;

input [2:0] data_in;

input enable;

output [7:0] data_out;

reg [7:0] data_out;

 

always @(data_in or enable)

begin

       if (enable==1)

              if(data_in==3'b000)

data_out=8'b11111110;

              else if(data_in==3'b001)

data_out=8'b11111101;

              else if(data_in==3'b010)

data_out=8'b11111011;

              else if(data_in==3'b011)

data_out=8'b11110111;

              else if(data_in==3'b100)

data_out=8'b11101111;

              else if(data_in==3'b101)

data_out=8'b11011111;

              else if(data_in==3'b110)

data_out=8'b10111111;

              else if(data_in==3'b111)

data_out=8'b01111111;

              else

data_out=8'bxxxxxxxx;

       else

              data_out = 8'b11111111;

end

 

endmodule

 

第三种:算法实现,但是不可综合

`timescale 10ns/1ns

module decode3_8 (data_out,data_in,enable) ;

input [2:0] data_in;

input enable;

output [7:0] data_out;

reg A=8’b0000_0001;

 

assign data_out=(enable)?(~(A<

 

endmodule

 

第四种:for语句(1

`timescale 10ns/1ns

module decode3_8 (data_out,data_in,enable) ;

input [2:0] data_in;

input enable;

output [7:0] data_out;

reg [7:0] data_out;

integer i;

      

always @(data_in or enable)

begin

if(enable)

begin

              for(i=0;i<8;i=i+1)

begin

                 if(data_in==i)

data_out[i]=0;

                    else

data_out[i]=1;

end

end

else

data_out=8'hff;

end

 

endmodule

 

第五种:带条件的连续赋值

`timescale 10ns/1ns

module decode3_8 (data_out,data_in,enable) ;

input [2:0] data_in;

input enable;

output [7:0] data_out;

      

assign data_out =

({enable,data_in}==4'b1000)?8'b1111_1110:

({enable,data_in}==4'b1001)?8'b1111_1101:    

({enable,data_in}==4'b1010)?8'b1111_1011:

({enable,data_in}==4'b1011)?8'b1111_0111:    

({enable,data_in}==4'b1100)?8'b1110_1111:

({enable,data_in}==4'b1101)?8'b1101_1111:    

({enable,data_in}==4'b1110)?8'b1011_1111:

({enable,data_in}==4'b1111)?8'b0111_1111:

8'b1111_1111;

endmodule

 

第六种:for语句(2

`timescale 10ns/1ns

module decode3_8 (data_out,data_in,enable) ;

input [2:0] data_in;

input enable;

output [7:0] data_out;

reg [7:0] data_out;

integer i;

      

always @(data_in or enable)

begin

data_out=8'hff;

if(enable)

begin

for(i=0;i<8;i=i+1)

begin

if(data_in==i)

data_out = 255-(1<

              end

       end

else

data_out=8'hff;  

end

 

endmodule

 

Testbench写法:

以使用CadenceNcverilogSimvision工具为例来说明:

`timescale 10ns/1ns

module decode3_8_tb; 

reg   [2:0]  data_in_tb;

wire  [7:0]  data_out_tb;

reg    enable_tb;

decode3_8 decode3_8(.data_in (data_in_tb),.data_out (data_out_tb ),.enable (enable_tb));

 

initial

begin

    $shm_open(“tb.shm”);

    $shm_probe(“AC”);

 

enable_tb=0;

data_in_tb=0;

#20 enable_tb=1;

#50 data_in_tb =0;

#50 data_in_tb=1;

#50 data_in_tb=2;

#50 data_in_tb=3;

#50 data_in_tb=4;

#50 data_in_tb=5;

#50 data_in_tb=6;

#50 data_in_tb=7;

$finish();

end

 

endmodule

转载于:https://www.cnblogs.com/yuwl26/p/3307422.html

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