DocumentCode
2360874
Title
Effective approximate fault diagnosis of systems with inhomogeneous test invalidation
Author
Bartha, Tamáts
Author_Institution
Dept. of Meas. & Instrum. Eng., Tech. Univ. Budapest, Hungary
fYear
1996
fDate
2-5 Sep 1996
Firstpage
379
Lastpage
386
Abstract
System-level fault diagnosis is a methodology to identify, the failed components in a multiprocessor system. The traditional approach to system-level diagnosis does not take into consideration many important aspects of modern multiprocessor architectures. This paper examines a special class of multiprocessors, called massively parallel computers. As a practical example, the Parsytec GCel system is presented. The paper describes a new method developed for the Parsytec GCel, called local information diagnosis. The diagnostic algorithm is based on the generalized test invalidation model, therefore it is applicable to a wide range of systems, including inhomogeneous ones. Due to the employed syndrome decoding mechanism, the space and computational complexity of the algorithm is also smaller than in conventional methods
Keywords
computational complexity; computer testing; fault diagnosis; fault tolerant computing; parallel architectures; Parsytec GCel; computational complexity; diagnostic algorithm; generalized test invalidation; local information diagnosis; massively parallel computers; multiprocessor architectures; multiprocessor system; system-level fault diagnosis; Circuit faults; Circuit testing; Computational complexity; Computer architecture; Concurrent computing; Decoding; Fault diagnosis; Instruments; Multiprocessing systems; System testing;
fLanguage
English
Publisher
ieee
Conference_Titel
EUROMICRO 96. Beyond 2000: Hardware and Software Design Strategies., Proceedings of the 22nd EUROMICRO Conference
Conference_Location
Prague
ISSN
1089-6503
Print_ISBN
0-8186-7487-3
Type
conf
DOI
10.1109/EURMIC.1996.546461
Filename
546461
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