Title :
An efficient multiplierless approximation of the fast Fourier transform using sum-of-powers-of-two (SOPOT) coefficients
Author :
Chan, S.C. ; Yiu, P.M.
Author_Institution :
Dept. of Electr. & Electron. Eng., Hong Kong Univ., China
Abstract :
This letter proposes a new multiplierless approximation of the discrete Fourier transform (DFT) called the multiplierless fast Fourier transform-like (ML-FFT) transformation. It makes use of a novel factorization to parameterize the twiddle factors in the conventional radix-2/sup n/ or split-radix FFT algorithms as certain rotation-like matrices and approximates the associated parameters using the sum-of-powers-of-two (SOPOT) or canonical signed digits (CSD) representations. The ML-FFT converges to the DFT when the number of SOPOT terms used increases and has an arithmetic complexity of O(N log/sub 2/ N) additions, where N = 2/sup m/ is the transform length. Design results show that the NM-FFT offers flexible tradeoff between arithmetic complexity and numerical accuracy in approximating the DFT.
Keywords :
approximation theory; computational complexity; digital arithmetic; discrete Fourier transforms; fast Fourier transforms; matrix decomposition; signal processing; SOPOT coefficients; arithmetic complexity; canonical signed digits representation; digital signal processing; discrete Fourier transform; factorization; fast Fourier transform; multiplierless approximation; numerical accuracy; radix-2/sup n/ algorithm; rotation-like matrices; split-radix FFT algorithm; sum-of-powers-of-two coefficients; twiddle factors parameterization; Approximation algorithms; Arithmetic; Discrete Fourier transforms; Discrete cosine transforms; Discrete transforms; Dynamic range; Fast Fourier transforms; Fourier transforms; Signal processing algorithms; Very large scale integration;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2002.803408
