Title :
A new approach to pipeline FFT processor
Author :
He, Shousheng ; Torkelson, Mats
Author_Institution :
Dept. of Appl. Electron., Lund Univ., Sweden
Abstract :
A new VLSI architecture for a real-time pipeline FFT processor is proposed. A hardware-oriented radix-22 algorithm is derived by integrating a twiddle factor decomposition technique in the divide-and-conquer approach. The radix-22 algorithm has the same multiplicative complexity as the radix-4 algorithm, but retains the butterfly structure of the radix-2 algorithm. The single-path delay-feedback architecture is used to exploit the spatial regularity in the signal flow graph of the algorithm. For length-N DFT computation, the hardware requirement of the proposed architecture is minimal on both dominant components: log4N-1 complexity multipliers and N-1 complexity data memory. The validity and efficiency of the architecture have been verified by simulation in the hardware description language VHDL
Keywords :
VLSI; computational complexity; delay systems; discrete Fourier transforms; divide and conquer methods; fast Fourier transforms; feedback; hardware description languages; microprocessor chips; parallel algorithms; parallel architectures; pipeline processing; real-time systems; VHDL; VLSI architecture; butterfly structure; data memory; discrete Fourier transforms; divide-and-conquer approach; efficiency; fast Fourier transforms; hardware description language; hardware-oriented radix-22 algorithm; minimal hardware requirement; multiplicative complexity; multipliers; real-time pipeline FFT processor; signal flow graph; simulation; single-path delay-feedback architecture; spatial regularity; twiddle factor decomposition technique; Arithmetic; Computational modeling; Computer architecture; Delay; Flow graphs; Hardware design languages; Helium; Pipelines; Registers; Very large scale integration;
Conference_Titel :
Parallel Processing Symposium, 1996., Proceedings of IPPS '96, The 10th International
Conference_Location :
Honolulu, HI
Print_ISBN :
0-8186-7255-2
DOI :
10.1109/IPPS.1996.508145
