「Verilog学习笔记」用3-8译码器实现全减器
专栏前言
本专栏的内容主要是记录本人学习Verilog过程中的一些知识点,刷题网站用的是牛客网
分析
首先列出3-8译码器和全减器的真值表 全减器真值表如下
3-8译码器真值表如下
`timescale 1ns/1ns
module decoder_38(
input E ,
input A0 ,
input A1 ,
input A2 ,
output reg Y0n ,
output reg Y1n ,
output reg Y2n ,
output reg Y3n ,
output reg Y4n ,
output reg Y5n ,
output reg Y6n ,
output reg Y7n
);
always @(*)begin
if(!E)begin
Y0n = 1'b1;
Y1n = 1'b1;
Y2n = 1'b1;
Y3n = 1'b1;
Y4n = 1'b1;
Y5n = 1'b1;
Y6n = 1'b1;
Y7n = 1'b1;
end
else begin
case({A2,A1,A0})
3'b000 : begin
Y0n = 1'b0; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b1;
end
3'b001 : begin
Y0n = 1'b1; Y1n = 1'b0; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b1;
end
3'b010 : begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b0; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b1;
end
3'b011 : begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b0;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b1;
end
3'b100 : begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b0; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b1;
end
3'b101 : begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b0; Y6n = 1'b1; Y7n = 1'b1;
end
3'b110 : begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b0; Y7n = 1'b1;
end
3'b111 : begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b0;
end
default: begin
Y0n = 1'b1; Y1n = 1'b1; Y2n = 1'b1; Y3n = 1'b1;
Y4n = 1'b1; Y5n = 1'b1; Y6n = 1'b1; Y7n = 1'b1;
end
endcase
end
end
endmodule
module decoder1(
input A ,
input B ,
input Ci ,
output wire D ,
output wire Co
);
wire [7:0] Y ;
assign D = ~Y[1] + ~Y[2] + ~Y[4] + ~Y[7] ;
assign Co = ~Y[1] + ~Y[2] + ~Y[3] + ~Y[7] ;
decoder_38 d1(
.E (1 ),
.A0(Ci ),
.A1(B ),
.A2(A ),
.Y0n(Y[0]),
.Y1n(Y[1]),
.Y2n(Y[2]),
.Y3n(Y[3]),
.Y4n(Y[4]),
.Y5n(Y[5]),
.Y6n(Y[6]),
.Y7n(Y[7])
);
endmodule