Add to ORKGLarge-scale parallel numerical simulations are fundamental for the understanding of a wide variety of aeronautical problems. Mesh decomposition is applied to make use of parallel hardware. In particular, when using a massively parallel architecture, not only the final quality of the mesh subdivision is relevant. Also the partitioning algorithm itself needs to be robust as well as efficient. A strategy for dynamic mesh partitioning based on runtime measurements is presented. We integrate the "Geometric Mesh Partitioner" (GeMPa), which is a partitioning library based on Hilbert Space-Filling Curve (HSFC), in the FlowSimulator (FS) software. FS is a platform designed to run multi-disciplinary simulations on massively parallel cluster architect...
Mesh partitioning is often the preferred approach for solving unstructured computational mechanics p...
As polygonal models rapidly grow to sizes orders of magnitudes bigger than the memory of commodity w...
Most parallel applications suffer from load imbalance, a crucial performance degradation factor. In ...
Large-scale parallel numerical simulations are fundamental for the understanding of a wide variety o...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
International audienceIn the context of multi-physics simulations on unstructured and heterogeneous ...
International audienceIn the context of multi-physics simulations on unstructured and heterogeneous ...
Larger supercomputers allow the resolution of more complex problems that require denser and thus als...
In order to run CFD codes more efficiently on large scales, the parallel computing has to be employe...
Computational science problems with adaptive meshes involve dynamic load balancing when implemented ...
A method is outlined for optimising graph partitions which arise in mapping un- structured mesh calc...
We present a data-parallel, High Performance Fortran (HPF) implementation of the geometric partition...
Mesh partitioning is often the preferred approach for solving unstructured computational mechanics p...
As polygonal models rapidly grow to sizes orders of magnitudes bigger than the memory of commodity w...
Most parallel applications suffer from load imbalance, a crucial performance degradation factor. In ...
Large-scale parallel numerical simulations are fundamental for the understanding of a wide variety o...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
Larger supercomputers allow the simulation of more complex phenomena with increased accuracy. Eventu...
International audienceIn the context of multi-physics simulations on unstructured and heterogeneous ...
International audienceIn the context of multi-physics simulations on unstructured and heterogeneous ...
Larger supercomputers allow the resolution of more complex problems that require denser and thus als...
In order to run CFD codes more efficiently on large scales, the parallel computing has to be employe...
Computational science problems with adaptive meshes involve dynamic load balancing when implemented ...
A method is outlined for optimising graph partitions which arise in mapping un- structured mesh calc...
We present a data-parallel, High Performance Fortran (HPF) implementation of the geometric partition...
Mesh partitioning is often the preferred approach for solving unstructured computational mechanics p...
As polygonal models rapidly grow to sizes orders of magnitudes bigger than the memory of commodity w...
Most parallel applications suffer from load imbalance, a crucial performance degradation factor. In ...