AbstractWe present a new method for parallelization of adaptive mesh refinement called Concurrent Structured Adaptive Mesh Refinement (CSAMR). This new method offers the lower computational cost (i.e. wall time×processor count) of subcycling in time, but with the runtime performance (i.e. smaller wall time) of evolving all levels at once using the time step of the finest level (which does more work than subcycling but has less parallelism). We demonstrate our algorithm's effectiveness using an adaptive mesh refinement code, AMSS-NCKU, and show performance on Blue Waters and other high performance clusters. For the class of problem considered in this paper, our algorithm achieves a speedup of 1.7–1.9 when the processor count for a given AMR ...
In this paper, we present an approach for a patch-based adaptive mesh refinement (AMR) for multi-phy...
Adaptive mesh refinement (AMR) is a powerful technique that reduces the resources necessary to solv...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
AbstractWe present a new method for parallelization of adaptive mesh refinement called Concurrent St...
Computational methods based on the use of adaptively constructed nonuniform meshes reduce the amount...
We compare several different parallel implementation approaches for the clustering operations perfor...
An unstructured adaptive mesh refinement (AMR) method is used in conjunction with the cell-to-cell m...
Over recent years, Adaptive Mesh Refinement (AMR) algorithms which dynamically match the local resol...
Adaptive mesh refinement computations are complicated by their dynamic nature. In the serial environ...
Meshes are a core part of almost any numerical simulation code. A good choice of mesh is crucial t...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
We present a parallel adaptive mesh refinement method with unstructured connectivity. The AMR packag...
Block-structured adaptive mesh refinement is a technique that can be used when solving partial diffe...
To increase the speed of computer simulations we solve partial differential equations (PDEs) using s...
Adaptive mesh refinement (AMR) is a powerful technique thatreduces the resources necessary to solve ...
In this paper, we present an approach for a patch-based adaptive mesh refinement (AMR) for multi-phy...
Adaptive mesh refinement (AMR) is a powerful technique that reduces the resources necessary to solv...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
AbstractWe present a new method for parallelization of adaptive mesh refinement called Concurrent St...
Computational methods based on the use of adaptively constructed nonuniform meshes reduce the amount...
We compare several different parallel implementation approaches for the clustering operations perfor...
An unstructured adaptive mesh refinement (AMR) method is used in conjunction with the cell-to-cell m...
Over recent years, Adaptive Mesh Refinement (AMR) algorithms which dynamically match the local resol...
Adaptive mesh refinement computations are complicated by their dynamic nature. In the serial environ...
Meshes are a core part of almost any numerical simulation code. A good choice of mesh is crucial t...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
We present a parallel adaptive mesh refinement method with unstructured connectivity. The AMR packag...
Block-structured adaptive mesh refinement is a technique that can be used when solving partial diffe...
To increase the speed of computer simulations we solve partial differential equations (PDEs) using s...
Adaptive mesh refinement (AMR) is a powerful technique thatreduces the resources necessary to solve ...
In this paper, we present an approach for a patch-based adaptive mesh refinement (AMR) for multi-phy...
Adaptive mesh refinement (AMR) is a powerful technique that reduces the resources necessary to solv...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...