Dynamic load balancing is necessary for parallel adaptive methods to solve unsteady CFD problems on unstructured grids. We have presented such a dynamic load balancing framework called JOVE, in this paper. Results on a four-POWERnode POWER CHALLENGEarray demonstrated that load balancing gives significant performance improvements over no load balancing for such adaptive computations. The parallel speedup of JOVE, implemented using MPI on the POWER CHALLENCEarray, was significant, being as high as 31 for 32 processors. An implementation of JOVE that exploits 'an array of SMPS' architecture was also studied; this hybrid JOVE outperformed flat JOVE by up to 28% on the meshes and adaption models tested. With large, realistic meshes and actual fl...
The ability to dynamically adapt an unstructured -rid (or mesh) is a powerful tool for solving compu...
We present a multithreaded model for the dynamic load-balancing of numerical, adaptive computations ...
AbstractThis paper addresses two key parallelization challenges the unstructured mesh-based ocean mo...
Dynamic load balancing is necessary for the parallel adaptive solution of unsteady problems in fluid...
The computational requirements for an adaptive solution of unsteady problems change as the simulatio...
Mesh adaption is a powerful tool for efficient unstructured-grid computations but causes load imbala...
Dynamic mesh adaption on unstructured grids is a powerful tool for efficiently computing unsteady pr...
Computational requirements of full scale computational fluid dynamics change as computation progress...
Mesh adaption is a powerful tool for efficient unstructured-grid computations but causes load imbala...
The ability to dynamically adapt an unstructured mesh is a powerful tool for solving computational p...
In this paper we present the parallel version of a CFD solver which works on unstructured 3-dimensio...
This thesis is concerned with the issue of dynamic load-balancing in connection with the parallel ad...
In this article we discuss a strategy for speeding up the solution of the Navier—Stokes equations on...
AbstractParallel efficiency, in a domain decomposition based approach, strongly depends on a partiti...
Dynamic mesh adaption on unstructured grids is a powerful tool for computing unsteady flows that req...
The ability to dynamically adapt an unstructured -rid (or mesh) is a powerful tool for solving compu...
We present a multithreaded model for the dynamic load-balancing of numerical, adaptive computations ...
AbstractThis paper addresses two key parallelization challenges the unstructured mesh-based ocean mo...
Dynamic load balancing is necessary for the parallel adaptive solution of unsteady problems in fluid...
The computational requirements for an adaptive solution of unsteady problems change as the simulatio...
Mesh adaption is a powerful tool for efficient unstructured-grid computations but causes load imbala...
Dynamic mesh adaption on unstructured grids is a powerful tool for efficiently computing unsteady pr...
Computational requirements of full scale computational fluid dynamics change as computation progress...
Mesh adaption is a powerful tool for efficient unstructured-grid computations but causes load imbala...
The ability to dynamically adapt an unstructured mesh is a powerful tool for solving computational p...
In this paper we present the parallel version of a CFD solver which works on unstructured 3-dimensio...
This thesis is concerned with the issue of dynamic load-balancing in connection with the parallel ad...
In this article we discuss a strategy for speeding up the solution of the Navier—Stokes equations on...
AbstractParallel efficiency, in a domain decomposition based approach, strongly depends on a partiti...
Dynamic mesh adaption on unstructured grids is a powerful tool for computing unsteady flows that req...
The ability to dynamically adapt an unstructured -rid (or mesh) is a powerful tool for solving compu...
We present a multithreaded model for the dynamic load-balancing of numerical, adaptive computations ...
AbstractThis paper addresses two key parallelization challenges the unstructured mesh-based ocean mo...