Title :
A multi-digital signal processing architecture for fast Fourier transform implementation
Author :
Curtis, K.M. ; Ladjeroud, N.
Author_Institution :
Dept. of Electr. & Electron. Eng., Nottingham Univ., UK
Abstract :
A hybrid parallel and sequential architecture may be the optimum solution to the calculation of the FFT. The authors have constructed such a system consisting of three TMS 320C25 digital signal processors. Two of the processors work in parallel, performing 256-point radix-4 decimation in frequency `in place´ complex FFTs. The third processor combines the outputs of the other two processors thus forming the full 512-point FFT. It also performs the unscrambling of the data from the preceding processors and the digit reverse procedure prior to outputting the results. The system has been constructed on two IBM PC/AT plug-in cards with the interfacing to the IBM being carried out via its I/O ports
Keywords :
IBM computers; add-on boards; computerised signal processing; digital signal processing chips; fast Fourier transforms; parallel architectures; 256-point radix-4 decimation; 512-point FFT; FFT; IBM PC/AT plug-in cards; TMS 320C25 digital signal processors; digit reverse procedure; fast Fourier transform implementation; multi-digital signal processing architecture; parallel architecture; sequential architecture; unscrambling;
Conference_Titel :
Practical Applications of DSP Devices, IEE Colloquium on
Conference_Location :
London
