Structured adaptive mesh refinement (SAMR) techniques can provide accurate and costeffective solutions to realistic scientific and engineering simulations modeling complex physical phenomena. However, the adaptive nature and inherent space–time heterogeneity of SAMR applications result in significant runtime management challenges. Moreover, certain SAMR applications involving reactive flows exhibit pointwise varying workloads and cannot be addressed by traditional parallelization approaches, which assume homogeneous loads. This paper presents hierarchical partitioning, bin-packing based load balancing, and Dispatch structured partitioning strategies to manage the spatiotemporal and computational heterogeneity in SAMR applications. Experimen...
Structured adaptive mesh refinement methods are being widely used for computer simulations of variou...
Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DLB for dist...
Structured adaptive mesh refinement (SAMR) techniques can enable cutting-edge simulations of problem...
Structured adaptive mesh refinement (SAMR) techniques provide an effective means for dynamically con...
Dynamic Structured Adaptive Mesh Refinement (SAMR) techniques for solving partial differential equat...
Abstract. This paper presents the design and experimental evaluation of two dynamic load partitionin...
Parallel implementations of scientific applications involving the simulation of reactive flow on str...
We perform a comprehensive performance characterization of load balancing algorithms for parallel st...
Parallel implementations of scientific applications involving the simulation of reactive flow on str...
To increase the speed of computer simulations we solve partial differential equations (PDEs) using s...
Parallel structured adaptive mesh refinement methods decrease the execution time and memory usage of...
Optimal partitioning of structured adaptive mesh applica-tions necessitates dynamically determining ...
Dynamic adaptive mesh renement methods for the numerical solution to partial dierential equations yi...
Structured adaptive mesh refinement (SAMR) techniques offer the potential for accurate solutions of...
Abstract. Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DL...
Structured adaptive mesh refinement methods are being widely used for computer simulations of variou...
Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DLB for dist...
Structured adaptive mesh refinement (SAMR) techniques can enable cutting-edge simulations of problem...
Structured adaptive mesh refinement (SAMR) techniques provide an effective means for dynamically con...
Dynamic Structured Adaptive Mesh Refinement (SAMR) techniques for solving partial differential equat...
Abstract. This paper presents the design and experimental evaluation of two dynamic load partitionin...
Parallel implementations of scientific applications involving the simulation of reactive flow on str...
We perform a comprehensive performance characterization of load balancing algorithms for parallel st...
Parallel implementations of scientific applications involving the simulation of reactive flow on str...
To increase the speed of computer simulations we solve partial differential equations (PDEs) using s...
Parallel structured adaptive mesh refinement methods decrease the execution time and memory usage of...
Optimal partitioning of structured adaptive mesh applica-tions necessitates dynamically determining ...
Dynamic adaptive mesh renement methods for the numerical solution to partial dierential equations yi...
Structured adaptive mesh refinement (SAMR) techniques offer the potential for accurate solutions of...
Abstract. Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DL...
Structured adaptive mesh refinement methods are being widely used for computer simulations of variou...
Dynamic load balancing(DLB) for parallel systems has been studied extensively; however, DLB for dist...
Structured adaptive mesh refinement (SAMR) techniques can enable cutting-edge simulations of problem...