题解 | #使用3-8译码器①实现逻辑函数#

使用3-8译码器①实现逻辑函数

https://www.nowcoder.com/practice/be81e76ebade445baca7257aa4eca8f2

`timescale 1ns/1ns

module decoder_38(
   input             E1_n   ,
   input             E2_n   ,
   input             E3     ,
   input             A0     ,
   input             A1     ,
   input             A2     ,
   
   output wire       Y0_n   ,  
   output wire       Y1_n   , 
   output wire       Y2_n   , 
   output wire       Y3_n   , 
   output wire       Y4_n   , 
   output wire       Y5_n   , 
   output wire       Y6_n   , 
   output wire       Y7_n   
);
wire E ;
assign E = E3 & ~E2_n & ~E1_n;
assign  Y0_n = ~(E & ~A2 & ~A1 & ~A0);
assign  Y1_n = ~(E & ~A2 & ~A1 &  A0);
assign  Y2_n = ~(E & ~A2 &  A1 & ~A0);
assign  Y3_n = ~(E & ~A2 &  A1 &  A0);
assign  Y4_n = ~(E &  A2 & ~A1 & ~A0);
assign  Y5_n = ~(E &  A2 & ~A1 &  A0);
assign  Y6_n = ~(E &  A2 &  A1 & ~A0);
assign  Y7_n = ~(E &  A2 &  A1 &  A0);
     
endmodule

module decoder0(
   input             A     ,
   input             B     ,
   input             C     ,
   
   output wire       L
);

   wire       Y0_n;  
   wire       Y1_n; 
   wire       Y2_n; 
   wire       Y3_n; 
   wire       Y4_n; 
   wire       Y5_n; 
   wire       Y6_n; 
   wire       Y7_n;

decoder_38 decoder_1(
    .E3(1'b1),
    .E2_n(1'b0),
    .E1_n(1'b0),
    .A2(A),
    .A1(B),
    .A0(C),

    .Y0_n(Y0_n),
    .Y1_n(Y1_n),
    .Y2_n(Y2_n),
    .Y3_n(Y3_n),
    .Y4_n(Y4_n),
    .Y5_n(Y5_n),
    .Y6_n(Y6_n),
    .Y7_n(Y7_n)
);

assign  L = ~Y1_n | ~Y3_n | ~Y6_n | ~Y7_n;

endmodule

#verilog刷题记录#
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