Title :
Fault-intolerance of reconfigurable systolic arrays
Author :
Nayak, Amiya ; Santoro, Nicola ; Tan, Richard
Author_Institution :
Sch. of Comput. Sci., Carleton Univ., Ottawa, Ont., Canada
Abstract :
Identification, characterization, and construction of fault patterns that are catastrophic for linear systolic arrays are discussed. It is shown that for a given link configuration in the array, it is possible to identify all PE (processing element) catastrophic fault patterns. The requirement on the minimum number of faults in a fault pattern and its spectrum (spread out) for it to be catastrophic is shown to be a function of the length of the longest bypass link available, and not of the total number of bypass links. The paper also gives bounds on the width of a catastrophic fault spectrum.<>
Keywords :
fault tolerant computing; systolic arrays; bypass links; catastrophic fault spectrum; characterization; construction; fault intolerance; fault pattern; fault patterns; processing element; reconfigurable systolic arrays; Circuit faults; Computer science; Concurrent computing; Distributed computing; Fault diagnosis; Fault tolerance; Parallel processing; Pipeline processing; Redundancy; Systolic arrays;
Conference_Titel :
Fault-Tolerant Computing, 1990. FTCS-20. Digest of Papers., 20th International Symposium
Conference_Location :
Newcastle Upon Tyne, UK
Print_ISBN :
0-8186-2051-X
DOI :
10.1109/FTCS.1990.89367
