Add to ORKGIn this paper, we present a new multilevel k-way hypergraph partitioning algorithm that substantially outperforms the existing state-of-the-art K-PM/LR algorithm for multi- way partitioning, both for optimizing local as well as global objectives. Experiments on the ISPD98 benchmark suite show that the partitionings produced by our scheme are on the average 15% to 23% better than those produced by the K-PM/LR algorithm, both in terms of the hyperedge cut as well as the (K-1) metric. Furthermore, our algorithm is significantly faster, requiring 4 to 5 times less time than that required by K-PM/LR
KaHyPar (Karlsruhe Hypergraph Partitioning) is a multilevel hypergraph partitioning framework provid...
We present a refinement framework for multilevel hypergraph partitioning that uses max-flow computat...
In this paper we present a family of multi-objective hypergraph partitioning algorithms based on the...
In this paper, we present a new multilevel k-way hypergraph partitioning algorithm that substantiall...
International audienceK-way hypergraph partitioning has an ever-growing use in parallelization of sc...
In this paper, we present parallel multilevel algorithms for the hypergraph partitioning problem. In...
In this paper, we present a new hypergraph partitioning algorithm that is based on the multilevel pa...
In this paper, we present a new hypergraph partitioning algorithm that is based on the multilevel pa...
International audienceRequirements for efficient parallelization of many complex and irregular appli...
The problem of hypergraph partitioning has been around for more than a quarter of a century. Its ear...
In this paper we present a parallel formulation of a multilevel k-way graph partitioning algorithm. ...
Abstract—Requirements for efficient parallelization of many complex and irregular applications can b...
Abstract—Requirements for efficient parallelization of many complex and irregular applications can b...
Introduction Hypergraph partitioning is an important problem with extensive application to many are...
The balanced hypergraph partitioning problem is to partition a hypergraph into k disjoint blocks of ...
KaHyPar (Karlsruhe Hypergraph Partitioning) is a multilevel hypergraph partitioning framework provid...
We present a refinement framework for multilevel hypergraph partitioning that uses max-flow computat...
In this paper we present a family of multi-objective hypergraph partitioning algorithms based on the...
In this paper, we present a new multilevel k-way hypergraph partitioning algorithm that substantiall...
International audienceK-way hypergraph partitioning has an ever-growing use in parallelization of sc...
In this paper, we present parallel multilevel algorithms for the hypergraph partitioning problem. In...
In this paper, we present a new hypergraph partitioning algorithm that is based on the multilevel pa...
In this paper, we present a new hypergraph partitioning algorithm that is based on the multilevel pa...
International audienceRequirements for efficient parallelization of many complex and irregular appli...
The problem of hypergraph partitioning has been around for more than a quarter of a century. Its ear...
In this paper we present a parallel formulation of a multilevel k-way graph partitioning algorithm. ...
Abstract—Requirements for efficient parallelization of many complex and irregular applications can b...
Abstract—Requirements for efficient parallelization of many complex and irregular applications can b...
Introduction Hypergraph partitioning is an important problem with extensive application to many are...
The balanced hypergraph partitioning problem is to partition a hypergraph into k disjoint blocks of ...
KaHyPar (Karlsruhe Hypergraph Partitioning) is a multilevel hypergraph partitioning framework provid...
We present a refinement framework for multilevel hypergraph partitioning that uses max-flow computat...
In this paper we present a family of multi-objective hypergraph partitioning algorithms based on the...
