Average distance in interconnection networks via reduction theorems for vertex-weighted graphs

Klavžar, Sandi; Manuel, Paul; Nadjafi-Arani, M. J.; Rajan, R. Sundara; Grigorious, Cyriac; Stephen, Sudeep

Title: Average distance in interconnection networks via reduction theorems for vertex-weighted graphs
Creator: Klavžar, Sandi; Manuel, Paul; Nadjafi-Arani, M. J.; Rajan, R. Sundara; Grigorious, Cyriac; Stephen, Sudeep
Relation: The Computer Journal Vol. 59, Issue 12, p. 1900-1910
Publisher Link: http://dx.doi.org/10.1093/comjnl/bxw046
Publisher: Oxford University Press
Resource Type: journal article
Date: 2016
Description: Average distance is an important parameter for measuring the communication cost of computer networks. A popular approach for its computation is to first partition the edge set of a network into convex components using the transitive closure of the Djoković–Winkler's relation and then to compute the average distance from the respective invariants of the components. In this article, we refine this idea further by shrinking the quotient graphs into smaller weighted graph called reduced graph, so that the average distance of the original graph is obtained from the reduced graphs. We demonstrate the significance of this technique by computing the average distance of butterfly and hypertree architectures. Along the way, a computational error from Klavžar and Nadjafi-Arani ((2014) Wiener index in weighted graphs via unification of Θ∗-classes, Eur. J. Combin. 36, 71–76) is corrected.
Subject: average distance; Wiener index; vertex-weighted graph; butterfly network; hypertree network
Identifier: http://hdl.handle.net/1959.13/1344509
Identifier: uon:29436
Identifier: ISSN:0010-4620
Language: eng
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