AbstractIn order to e xecute various finite-difference method applications on large-scale parallel computers with a reasonable cost of computer resources, a framework using an adaptive mesh refinement (AMR) technique has been developed. AMR can realize high -resolution simulations while saving computer resources by generating and removing hierarchica l grids dynamically. In the AMR frame work, a dynamic domain decomposition (DDD) technique, as a dynamic load balancing method, is also implemented to correct the computational load imbalance between each process associated with parallelization. By performing a 3D AM R test simulation, it is confirmed that dynamic load balancing can be achieved and execution time can be reduced by introducing t...
dissertationSolutions to Partial Di erential Equations (PDEs) are often computed by discretizing the...
Dynamic Structured Adaptive Mesh Refinement (SAMR) techniques for solving partial differential equat...
AbstractAMR technique can provide efficient numerical calculation by adapting fine cells to regions ...
AbstractIn order to e xecute various finite-difference method applications on large-scale parallel c...
Some numerical simulations of multi-scale physical phenomena consume a significant amount of computa...
Solutions to Partial Differential Equations (PDEs) are often computed by dis-cretizing the domain in...
While the parallelization of blockstructured adaptive mesh refinement techniques is relatively strai...
Block-structured adaptive mesh refinement (AMR) is a technique that can be used when solving partial...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
Adaptive mesh refinement (AMR) is a technique used in numerical simulations to automatically refine ...
To maintain load balance among processes in parallel calculation, we introduced a dynamic load balan...
In this paper a parallel adaptive mesh refinement (AMR) strategy for large eddy simulations (LES) of...
Block-structured adaptive mesh refinement is a technique that can be used when solving partial diffe...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
Developments in computer hardware are currently bringing new opportunities for numerical modelling. ...
dissertationSolutions to Partial Di erential Equations (PDEs) are often computed by discretizing the...
Dynamic Structured Adaptive Mesh Refinement (SAMR) techniques for solving partial differential equat...
AbstractAMR technique can provide efficient numerical calculation by adapting fine cells to regions ...
AbstractIn order to e xecute various finite-difference method applications on large-scale parallel c...
Some numerical simulations of multi-scale physical phenomena consume a significant amount of computa...
Solutions to Partial Differential Equations (PDEs) are often computed by dis-cretizing the domain in...
While the parallelization of blockstructured adaptive mesh refinement techniques is relatively strai...
Block-structured adaptive mesh refinement (AMR) is a technique that can be used when solving partial...
This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) projec...
Adaptive mesh refinement (AMR) is a technique used in numerical simulations to automatically refine ...
To maintain load balance among processes in parallel calculation, we introduced a dynamic load balan...
In this paper a parallel adaptive mesh refinement (AMR) strategy for large eddy simulations (LES) of...
Block-structured adaptive mesh refinement is a technique that can be used when solving partial diffe...
The efficient use of computational resources while maintaining a certain level of solution accuracy ...
Developments in computer hardware are currently bringing new opportunities for numerical modelling. ...
dissertationSolutions to Partial Di erential Equations (PDEs) are often computed by discretizing the...
Dynamic Structured Adaptive Mesh Refinement (SAMR) techniques for solving partial differential equat...
AbstractAMR technique can provide efficient numerical calculation by adapting fine cells to regions ...