Title :
Algorithms for long fast Fourier transforms on a Connection Machine
Author :
Norris, J.P. ; Hertz, P. ; Wood, K.S. ; Anderson, P.
Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
Several fast algorithms are developed for very long one- and two-dimensional fast Fourier transforms (FFTs) on the Connection Machine CM-2. These codes maximally exploit the parallelism afforded by single-instruction multiple-data (SIMD) machines like the CM-2. Explicit advantage is taken of the CM-2 hardware (32-b FPA, 8-kb memory per processor, programmable hypercube connectivity) and software (Paris machine level language) to simulate the butterfly connectivity required for the FFT computation. A central processor unit (CPU) benchmark of 4.6 s for a complex 221-point FFT is established, and an execution time of about 9.5 s is predicted for 222-point FFTs on a 16 K-processor CM-2. Longer FFTs, with lengths of at least 224 points, are possible on a full 64 K processor CM with no increase in CPU time. Also described are algorithms for use on Connection Machines for achieving coherence recovery of frequency-broadened signals
Keywords :
fast Fourier transforms; parallel algorithms; parallel processing; performance evaluation; 32-b FPA; CM-2; Connection Machine; Paris machine level language; SIMD machines; benchmark; butterfly connectivity; central processor unit; codes; coherence recovery; fast Fourier transforms; fast algorithms; frequency-broadened signals; parallelism; programmable hypercube connectivity; Computational modeling; Fast Fourier transforms; Flexible printed circuits; Frequency; Geometry; Hardware; Hypercubes; Laboratories; Parallel processing; Signal processing;
Conference_Titel :
Frontiers of Massively Parallel Computation, 1988. Proceedings., 2nd Symposium on the Frontiers of
Conference_Location :
Fairfax, VA
Print_ISBN :
0-8186-5892-4
DOI :
10.1109/FMPC.1988.47474
