Paper Title: Low Power High Speed Accuracy Controllable Approximate Multiplier Design

Author's name: A.Sri Harsha, L.Ramya Sree, B.Sravya

Paper abstract: For many error-tolerant apps, multiplication is a main basic feature. Approximate multiplication is regarded an effective method against efficiency and precision for trading off energy. This article recommends a precision-controllable multiplier whose final product is produced by a transportable adder. The suggested system can dynamically pick the duration of the carrying propagation in order to flexibly meet the precision criteria. The suggested tree generator approximates the multiplier's total item sequence. Using the carry maskable adder and the compressor, a multiplier layout is introduced. Its region of silicone was 44.6 times lower as well. Furthermore, findings from an implementation for image processing show that the suggested multiplier structure can control the performance of the produced pictures.

Download the paper