65. Ripple Carry Adder
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Solving Approach
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Code
// 1-bit Full Adder (to be used by the 4-bit RCA)
module full_adder_1bit (
input a, b, cin,
output sum, cout
);
// TODO: implement 1-bit full adder (structural or dataflow)
assign sum = (a^b)^cin;
assign cout = (a & b) | (a & cin) | (b & cin);
endmodule
// 4-bit Ripple Carry Adder – chain 4 full adders
module rca4_chain (
input [3:0] a,
input [3:0] b,
input cin,
output [3:0] sum,
output cout
);
// TODO: Declare internal ripple carries
wire c0, c1, c2, c3;
assign c0 = cin;
// TODO: instantiate 4 full adders and chain carries
full_adder_1bit fa0(.a(a[0]), .b(b[0]), .cin(c0), .sum(sum[0]), .cout(c1));
full_adder_1bit fa1(.a(a[1]), .b(b[1]), .cin(c1), .sum(sum[1]), .cout(c2));
full_adder_1bit fa2(.a(a[2]), .b(b[2]), .cin(c2), .sum(sum[2]), .cout(c3));
full_adder_1bit fa3(.a(a[3]), .b(b[3]), .cin(c3), .sum(sum[3]), .cout(cout));
// TODO: drive cout
endmodule
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