Optimal fault-tolerant routings with small routing tables for k-connected graphs |
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Authors: | Koichi Wada Wei Chen |
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Affiliation: | a Department of Electrical and Computer Engineering, Nagoya Institute of Technology, Gokiso-cho, Syowa-ku, Nagoya 466-8555, Japan b Faculty of Mathematical Science and Information Engineering, Nanzan University, Seirei-cho, 27, Seto 489-0863, Japan |
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Abstract: | We study the problem of designing fault-tolerant routings with small routing tables for a k-connected network of n processors in the surviving route graph model. The surviving route graph R(G,ρ)/F for a graph G, a routing ρ and a set of faults F is a directed graph consisting of nonfaulty nodes of G with a directed edge from a node x to a node y iff there are no faults on the route from x to y. The diameter of the surviving route graph could be one of the fault-tolerance measures for the graph G and the routing ρ and it is denoted by D(R(G,ρ)/F). We want to reduce the total number of routes defined in the routing, and the maximum of the number of routes defined for a node (called route degree) as least as possible. In this paper, we show that we can construct a routing λ for every n-node k-connected graph such that n2k2, in which the route degree is , the total number of routes is O(k2n) and D(R(G,λ)/F)3 for any fault set F (|F|<k). In particular, in the case that k=2 we can construct a routing λ′ for every biconnected graph in which the route degree is , the total number of routes is O(n) and D(R(G,λ′)/{f})3 for any fault f. We also show that we can construct a routing ρ1 for every n-node biconnected graph, in which the total number of routes is O(n) and D(R(G,ρ1)/{f})2 for any fault f, and a routing ρ2 (using ρ1) for every n-node biconnected graph, in which the route degree is , the total number of routes is and D(R(G,ρ2)/{f})2 for any fault f. |
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Keywords: | Fault tolerance Fixed routing Routing table Diameter Distributed computing |
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