Parallel execution of computational mechanics codes requires efficient mesh-partitioning techniques. These mesh-partitioning techniques divide the mesh into specified number of submeshes of approximately the same size and at the same time, minimise the interface nodes of the submeshes. This paper describes a new mesh partitioning technique, employing Genetic Algorithms. The proposed algorithm operates on the deduced graph (dual or nodal graph) of the given finite element mesh rather than directly on the mesh itself. The algorithm works by first constructing a coarse graph approximation using an automatic graph coarsening method. The coarse graph is partitioned and the results are interpolated onto the original graph to initialise an optimis...
A parallel genetic algorithm for the graph partitioning problem is presented, which combines general...
Exceptional progress has been made in mathematical algorithm research leading to optimized mesh part...
This thesis describes new geometric decomposition tools for parallel computing. A new complete proce...
Parallel execution of computational mechanics codes requires efficient mesh-partitioning techniques....
Graph partitioning divides a graph into several pieces by cutting edges. The graph partitioning prob...
Graph partitioning is a fundamental problem in many scientific contexts. Algorithms that find a good...
Computational load balancing plays a prominent role on the success of domain decomposition based fin...
A new method is described for optimising graph partitions which arise in mapping unstructured mesh ...
A method is outlined for optimising graph partitions which arise in mapping un- structured mesh calc...
We address the problem of automatic partitioning of unstructured finite element meshes in the contex...
Genetic algorithms are stochastic search and optimization techniques which can be used for a wide ra...
The efficient implementation of parallel processing architectures generally requires the solution of...
The graph partitioning problem is defined as that of dividing the vertices of an undirected graph in...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
Abstract. Parallel graph partitioning is a difficult issue, because the best sequential graph partit...
A parallel genetic algorithm for the graph partitioning problem is presented, which combines general...
Exceptional progress has been made in mathematical algorithm research leading to optimized mesh part...
This thesis describes new geometric decomposition tools for parallel computing. A new complete proce...
Parallel execution of computational mechanics codes requires efficient mesh-partitioning techniques....
Graph partitioning divides a graph into several pieces by cutting edges. The graph partitioning prob...
Graph partitioning is a fundamental problem in many scientific contexts. Algorithms that find a good...
Computational load balancing plays a prominent role on the success of domain decomposition based fin...
A new method is described for optimising graph partitions which arise in mapping unstructured mesh ...
A method is outlined for optimising graph partitions which arise in mapping un- structured mesh calc...
We address the problem of automatic partitioning of unstructured finite element meshes in the contex...
Genetic algorithms are stochastic search and optimization techniques which can be used for a wide ra...
The efficient implementation of parallel processing architectures generally requires the solution of...
The graph partitioning problem is defined as that of dividing the vertices of an undirected graph in...
The domain decomposition method embodies large potentials for a parallelization of FEM methods. In t...
Abstract. Parallel graph partitioning is a difficult issue, because the best sequential graph partit...
A parallel genetic algorithm for the graph partitioning problem is presented, which combines general...
Exceptional progress has been made in mathematical algorithm research leading to optimized mesh part...
This thesis describes new geometric decomposition tools for parallel computing. A new complete proce...