notes/education/computer engineering/ECE2700/Adders.md

Half Adder

Full Adder

Ripple Carry Adder

Carry-Select Adder

A carry select adder is built using two ripple carry adders, and multiplexing them together based off of the value of c_{in}. This is done for performance reasons, because when adding two numbers x and y, we know x and y before we know the value of c_{in}. This means we can compute what the output of x + y + c_{in} would be for c_{in} = 0 and c_{in} = 1 at the same time, then just toggle between the two possible values given the actual value of c_{in}.

The delay is calculated like so:

1. Given the delay of a full adder is k, and the delay of a 2 to 1 mux is \frac{1}{m}k,
2. then the delay of a 4 bit ripple carry adder is 4k, because it's 4 full adders chained together, running sequentially.
3. This means that the delay of a 4 bit carry select adder is 4k + \frac{k}{m}

Carry-lookahead adder