DocumentCode
2887370
Title
A concurrent error-detectable module design for FFT processing
Author
Chen, Liang-Gee ; Chen, Thou-Ho
Author_Institution
Dept. of Electr. Eng., Nat. Taiwan Univ., Taipei, Taiwan
fYear
1991
fDate
16-17 Jun 1991
Firstpage
839
Abstract
Most data in digital signal processing belong to the complex number system. Some characteristics of complex number computations can be utilized to reduce hardware overhead for concurrent error detection (CED) scheme. This paper presents a novel design of CED technique based on realization of direct complex computation approach. It is a time-redundant method and the recomputation step is performed through exchanging strategy on both the real part and imaginary part circuits in a complex function. The hardware overhead then can be eliminated and the capability of error detection is still robust as duplicated module technique. Since pipelined processing can be introduced to kill the recomputation cycle, the fast Fourier transform (FFT) processor based on pipelined butterfly module with the proposed CED technique is able to achieve real-time fault diagnosis. This technique can be applied to other complex number computing systems, and is more attractive especially in high-speed and high-reliability system
Keywords
VLSI; digital signal processing chips; fast Fourier transforms; pipeline processing; FFT processing; butterfly module; complex number computations; concurrent error-detectable module design; digital signal processing; fast Fourier transform; hardware overhead; pipelined processing; real-time fault diagnosis; recomputation step; time-redundant method; Circuits; Digital signal processing; Digital signal processing chips; Fast Fourier transforms; Fault diagnosis; Fault tolerance; Hardware; Process design; Redundancy; Very large scale integration;
fLanguage
English
Publisher
ieee
Conference_Titel
Circuits and Systems, 1991. Conference Proceedings, China., 1991 International Conference on
Conference_Location
Shenzhen
Type
conf
DOI
10.1109/CICCAS.1991.184492
Filename
184492
Link To Document