A Simple Yet Efficient Accuracy- Configurable Adder Design
Objective
The main objective of this paper is to implement accuracy configurable adder with improved accuracy. Generally the adders with configurability requires more area and power since they use error detection blocks. In the proposed adder, efficiency is also improved in terms of power, delay and area.
Abstract
In this paper, an accuracy reconfigurable adder is designed.Approximate computing is a promising approach for low-power IC design and has recently received considerable research attention. To accommodate dynamic levels of approximation, a few accuracy-configurable adder (ACA) designs have been developed in the past.
However, these designs tend to incur large area overheads as they rely on either redundant computing or complicated carry prediction. Some of these designs include error detection and correction circuitry, which further increase the area. In this paper, we investigate a simple ACA design that contains no redundancy or error detection/correction circuitry and uses very simple carry prediction. The advantages of our method are confirmed by the applications in multiplication and discrete cosine transform computing.
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