Title :
Dynamic Load Balancing on Adaptive Unstructured Meshes
Author_Institution :
State Key Lab. of Sci. & Eng. Comput., CAS, Beijing
Abstract :
In this paper the work on implementing two mesh partitioning algorithms, the refinement-tree based partitioning algorithm and the space-filling curve partitioning algorithm, in the parallel adaptive finite element toolbox PHG (parallel hierarchical grid) is presented. These algorithms are used for both initial mesh partitioning and mesh repartitioning for dynamical load balancing in adaptive finite element computations. In the implementations improved algorithms are designed. Partitioning time and quality of our code are compared with existing publicly available mesh or graph partitioners, including ParMETIS and Zoltan, through some numerical examples.
Keywords :
grid computing; mathematics computing; mesh generation; parallel algorithms; resource allocation; trees (mathematics); adaptive finite element computation; adaptive unstructured mesh partitioning algorithm; dynamic load balancing; parallel adaptive finite element toolbox PHG; parallel hierarchical grid; refinement-tree based partitioning algorithm; space-filling curve partitioning algorithm; Algorithm design and analysis; Content addressable storage; Data structures; Finite element methods; High performance computing; Hilbert space; Laboratories; Load management; Partial differential equations; Partitioning algorithms;
Conference_Titel :
High Performance Computing and Communications, 2008. HPCC '08. 10th IEEE International Conference on
Conference_Location :
Dalian
Print_ISBN :
978-0-7695-3352-0
DOI :
10.1109/HPCC.2008.12
