Vitali Henne scite author profile

Vitali Henne

3Publications

94Citation Statements Received

173Citation Statements Given

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k-way Hypergraph Partitioning via n-Level Recursive Bisection

Schlag¹,

Henne²,

Heuer³

et al. 2015

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We develop a multilevel algorithm for hypergraph partitioning that contracts the vertices one at a time. Using several caching and lazy-evaluation techniques during coarsening and refinement, we reduce the running time by up to two-orders of magnitude compared to a naive n-level algorithm that would be adequate for ordinary graph partitioning. The overall performance is even better than the widely used hMetis hypergraph partitioner that uses a classical multilevel algorithm with few levels. Aided by a portfolio-based approach to initial partitioning and adaptive budgeting of imbalance within recursive bipartitioning, we achieve very high quality. We assembled a large benchmark set with 310 hypergraphs stemming from application areas such VLSI, SAT solving, social networks, and scientific computing. We achieve significantly smaller cuts than hMetis and PaToH, while being faster than hMetis. Considerably larger improvements are observed for some instance classes like social networks, for bipartitioning, and for partitions with an allowed imbalance of 10%. The algorithm presented in this work forms the basis of our hypergraph partitioning framework KaHyPar (Karlsruhe Hypergraph Partitioning).

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k-way Hypergraph Partitioning via n-Level Recursive Bisection

Schlag¹,

Henne²,

Heuer³

et al. 2015

Preprint

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n-Level Hypergraph Partitioning

Henne¹,

Meyerhenke²,

Sanders³

et al. 2015

Preprint

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We develop a multilevel algorithm for hypergraph partitioning that contracts the vertices one at a time and thus allows very high quality. This includes a rating function that avoids nonuniform vertex weights, an efficient "semi-dynamic" hypergraph data structure, a very fast coarsening algorithm, and two new local search algorithms. One is a k-way hypergraph adaptation of Fiduccia-Mattheyses local search and gives high quality at reasonable cost. The other is an adaptation of sizeconstrained label propagation to hypergraphs. Comparisons with hMetis and PaToH indicate that the new algorithm yields better quality over several benchmark sets and has a running time that is comparable to hMetis. Using label propagation local search is several times faster than hMetis and gives better quality than PaToH for a VLSI benchmark set.

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Vitali Henne

k-way Hypergraph Partitioning via n-Level Recursive Bisection

k-way Hypergraph Partitioning via n-Level Recursive Bisection

n-Level Hypergraph Partitioning

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