Power and Area Minimization of Reconfigurable FFT Processor Using Distributed Arithmetic

Anuradha Mokashi, Vishal Raskar

Abstract: Fast Fourier transforms is one of the most important frequency analysis in signal processing. It has different application such as image processing, medical field, communication system, spectral analysis etc. Butterfly is the basic elements of FFT. In this work a Distributed arithmetic technique is used to implement the butterfly module. Distributed arithmetic is Multiplierless technique resulted more efficient butterfly element both in terms of power and area. Butterfly element is the most important building block of Reconfigurable FFT processor. Single precision is used to represent the data. IEEE 754 standard is used to represent the floating point numbers.

Keywords: Digital signal processing (DSP), Complex multiplier, Distributed Arithmetic, FFT.

Title: Power and Area Minimization of Reconfigurable FFT Processor Using Distributed Arithmetic

Author: Anuradha Mokashi, Vishal Raskar

International Journal of Electrical and Electronics Research

ISSN 2348-6988 (online)

Research Publish Journals

Vol. 3, Issue 4, October 2015 – December 2015

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Power and Area Minimization of Reconfigurable FFT Processor Using Distributed Arithmetic by Anuradha Mokashi, Vishal Raskar