Title :
Effective approximate fault diagnosis of systems with inhomogeneous test invalidation
Author_Institution :
Dept. of Meas. & Instrum. Eng., Tech. Univ. Budapest, Hungary
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;
Conference_Titel :
EUROMICRO 96. Beyond 2000: Hardware and Software Design Strategies., Proceedings of the 22nd EUROMICRO Conference
Conference_Location :
Prague
Print_ISBN :
0-8186-7487-3
DOI :
10.1109/EURMIC.1996.546461
