ScienceDirect - Discrete Applied Mathematics : A survey on Knödel graphs

Discrete Applied Mathematics
Volume 137, Issue 2, 1 March 2004, Pages 173-195

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doi:10.1016/S0166-218X(03)00260-9

A survey on Knödel graphs

Guillaume Fertin^,^a and André Raspaud^,^b

^a IRIN UPRES-EA 2157, Université de Nantes, 2 rue de la Houssinière, BP 92208 - F44322, Nantes Cedex 3, France ^b LaBRI U.M.R. 5800, Université Bordeaux 1, 351 Cours de la Libération, F33405, Talence Cedex, France

Received 1 October 1999;

revised 24 October 2001;

accepted 19 October 2002. ;

Available online 3 September 2003.

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Abstract

Knödel graphs of even order n and degree 1 less-than-or-equals, slant Δ left floor log₂(n) right floor , W_Δ,n, are graphs which have been introduced some 25 years ago as the topology underlying a time optimal algorithm for gossiping among n nodes (Discrete Math. 13 (1975) 95). However, they have been formally defined only 7 years ago (Networks 38 (2001) 150). Since then, they have been widely studied as interconnection networks, mainly because of their good properties in terms of broadcasting and gossiping (Int. J. Foundations Comput. Sci. 8(2) (1997) 109, Proceedings of the 24th International Workshop on Graph-Theoretic Concepts in Computer Science, Vol. 1517, Smolenice, LNCS, 1998, p.63). In particular, Knödel graphs of order 2^k, and of degree k, are among the three most popular families of interconnection networks in the literature, along with the hypercube of dimension k, H_k (Introduction to Parallel Algorithms and Architectures: Arrays, Trees, Hypercubes, Morgan Kaufman Publisher, Los Altos, CA, 1992), and with the recursive circulant graph G(2^k,4) introduced by Park and Chwa in 1994 (Proceedings of the International Symposium on Parallel Architectures, Algorithms and Networks, ISPAN’94, Kanazawa, Japan, 1994, p. 73). Indeed, those three families are commonly presented as good topologies for multicomputer networks, and are comparable since they have the same number of nodes and the same degree.

In this paper, we first survey the different results that exist concerning Knödel graphs, mostly in terms of broadcasting and gossiping. We complete this survey by a study of graph–theoretical properties of the “general” Knödel graph W_Δ,n, for any even n and 1 less-than-or-equals, slant Δ left floor log₂(n) right floor . Finally, we propose a rather complete study of Knödel graphs W_k,2^k, which allows to compare this topology to the hypercube of dimension k, H_k, and the recursive circulant graph G(2^k,4). We also provide a study of the different embeddings that can exist between any two of these topologies.