A computational study of graph partitioning
J Falkner, F Rendl, H Wolkowicz - Mathematical Programming, 1994 - Springer
J Falkner, F Rendl, H Wolkowicz
Mathematical Programming, 1994•SpringerAbstract Let G=(N, E) be an edge-weighted undirected graph. The graph partitioning
problem is the problem of partitioning the node set N into k disjoint subsets of specified sizes
so as to minimize the total weight of the edges connecting nodes in distinct subsets of the
partition. We present a numerical study on the use of eigenvalue-based techniques to find
upper and lower bounds for this problem. Results for bisecting graphs with up to several
thousand nodes are given, and for small graphs some trisection results are presented. We …
problem is the problem of partitioning the node set N into k disjoint subsets of specified sizes
so as to minimize the total weight of the edges connecting nodes in distinct subsets of the
partition. We present a numerical study on the use of eigenvalue-based techniques to find
upper and lower bounds for this problem. Results for bisecting graphs with up to several
thousand nodes are given, and for small graphs some trisection results are presented. We …
Abstract
LetG = (N, E) be an edge-weighted undirected graph. The graph partitioning problem is the problem of partitioning the node setN intok disjoint subsets of specified sizes so as to minimize the total weight of the edges connecting nodes in distinct subsets of the partition. We present a numerical study on the use of eigenvalue-based techniques to find upper and lower bounds for this problem. Results for bisecting graphs with up to several thousand nodes are given, and for small graphs some trisection results are presented. We show that the techniques are very robust and consistently produce upper and lower bounds having a relative gap of typically a few percentage points.
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