Title :
On hardware implementation of the split-radix FFT
Author :
Richards, Mark A.
Author_Institution :
Radar Instrum. Lab., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
10/1/1988 12:00:00 AM
Abstract :
An algorithm for computing length-2M discrete Fourier transforms (DFTs), called the split-radix FFT, has recently been developed. The split-radix algorithm has fewer multiplies than the radix-8 Cooley-Tukey algorithm, and many fewer additions that the minimum-multiply algorithms. It is shown that it involves significantly more butterfly computations than the radix-4 Cooley-Tukey algorithms which have butterflies of similar complexity. Consequently, the split-radix algorithm is advantageous for hardware in which a multiplier/accumulator is the basic processor, as might be the case with some VLSI implementations. In addition, the split-radix algorithm has varying numbers of butterflies in successive stages, complicating the design of efficient multiprocessor implementations. A few simple strategies for balancing the computational load among the stages are considered, and their average efficiencies are computed
Keywords :
computerised signal processing; fast Fourier transforms; VLSI implementations; butterfly computations; computational load; length-2M discrete Fourier transforms; split-radix FFT; Algorithm design and analysis; Arithmetic; Discrete Fourier transforms; Fast Fourier transforms; Hardware; Instruments; Radar; Signal processing algorithms; Strontium; Very large scale integration;
Journal_Title :
Acoustics, Speech and Signal Processing, IEEE Transactions on
