Fault-Tolerant Maximal Local-Connectivity on the Bubble-Sort Graphs

Fault-Tolerant Maximal Local-Connectivity on the Bubble-Sort Graphs

An interconnection network is usually modeled as a graph, in which vertices and edges correspond to processor and communication links, respectively. The local connectivity of two vertices is defined as the maximum number of internally vertex-disjoint paths between them. In this paper, we define two...

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Hauptverfasser: Lun-Min Shih, Tan, J.J.M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Bubble-sort graph
Cities and towns
Computer science
Connectivity
Fault tolerance
Fault-tolerant
Hypercubes
Information technology
Interconnection networks
Local connectivity
Multiprocessor interconnection networks
Size measurement
Topology
Tree graphs
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Zusammenfassung:An interconnection network is usually modeled as a graph, in which vertices and edges correspond to processor and communication links, respectively. The local connectivity of two vertices is defined as the maximum number of internally vertex-disjoint paths between them. In this paper, we define two vertices to be maximally local-connected, if the maximum number of internally vertex-disjoint paths between them equals the minimum degree of these two vertices. Moreover, we introduce the one-to-many version of connectivity. We show that an n-dimensional bubble-sort graph is maximally local-connected, even if there are at most n - 3 faulty vertices in it, and prove that it is also (n - 1)-fault-tolerant one-to-many maximally local-connected.
DOI:10.1109/ITNG.2009.51