DocumentCode
1566747
Title
Fault tolerant graphs, perfect hash functions and disjoint paths
Author
Ajtai, M. ; Alon, N. ; Bruck, J. ; Cypher, R. ; Ho, C.-T. ; Naor, M. ; Szemerédi, E.
Author_Institution
IBM Almaden Res. Center, San Jose, CA, USA
fYear
1992
Firstpage
693
Lastpage
702
Abstract
Given a graph G on n nodes the authors say that a graph T on n + k nodes is a k-fault tolerant version of G, if one can embed G in any n node induced subgraph of T. Thus T can sustain k faults and still emulate G without any performance degradation. They show that for a wide range of values of n, k and d, for any graph on n nodes with maximum degree d there is a k-fault tolerant graph with maximum degree O(kd). They provide lower bounds as well: there are graphs G with maximum degree d such that any k-fault tolerant version of them has maximum degree at least Ω(d√k)
Keywords
computational geometry; fault tolerant computing; file organisation; graph theory; disjoint paths; k-fault tolerant graph; perfect hash functions; performance degradation; Degradation; Fault tolerance; Graph theory; History; Joining processes; Mathematics;
fLanguage
English
Publisher
ieee
Conference_Titel
Foundations of Computer Science, 1992. Proceedings., 33rd Annual Symposium on
Conference_Location
Pittsburgh, PA
Print_ISBN
0-8186-2900-2
Type
conf
DOI
10.1109/SFCS.1992.267781
Filename
267781
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