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Folded Petersen cube networks: new competitors for the hypercubes

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2 Author(s)
Ohring, S. ; Dept. of Comput. Sci., Univ. of North Texas, Denton, TX, USA ; Das, S.K.

We introduce and analyze a new interconnection topology, called the k-dimensional folded Petersen (FPk) network, which is constructed by iteratively applying the Cartesian product operation on the well-known Petersen graph. Since the number of nodes in FPk is restricted to a power of ten, for better scalability we propose a generalization, the folded Petersen cube network FPQn,k =Qn×FPk, which is a product of the n-dimensional binary hypercube (Qn) and FPk. The FPQn,k topology provides regularity, node- and edge-symmetry, optimal connectivity (and therefore maximal fault-tolerance), logarithmic diameter, modularity, and permits simple self-routing and broadcasting algorithms. With the same node-degree and connectivity, FPQ n,k has smaller diameter and accommodates more nodes than Q n+3k, and its packing density is higher compared to several other product networks. This paper also emphasizes the versatility of the folded Petersen cube networks as a multicomputer interconnection topology by providing embeddings of many computationally important structures such as rings, multi-dimensional meshes, hypercubes, complete binary trees, tree machines, meshes of trees, and pyramids. The dilation and edge-congestion of all such embeddings are at most two

Published in:

Parallel and Distributed Systems, IEEE Transactions on  (Volume:7 ,  Issue: 2 )

Date of Publication:

Feb 1996

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