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PVM
2010
Springer

Massively Parallel Finite Element Programming

13 years 10 months ago
Massively Parallel Finite Element Programming
Abstract. Today’s large finite element simulations require parallel algorithms to scale on clusters with thousands or tens of thousands of processor cores. We present data structures and algorithms to take advantage of the power of high performance computers in generic finite element codes. Existing generic finite element libraries often restrict the parallelization to parallel linear algebra routines. This is a limiting factor when solving on more than a few hundreds of cores. We describe routines for distributed storage of all major components coupled with efficient, scalable algorithms. We give an overview of our effort to enable the modern and generic finite element library deal.II to take advantage of the power of large clusters. In particular, we describe the construction of a distributed mesh and develop algorithms to fully parallelize the finite element calculation. Numerical results demonstrate good scalability.
Timo Heister, Martin Kronbichler, Wolfgang Bangert
Added 30 Jan 2011
Updated 30 Jan 2011
Type Journal
Year 2010
Where PVM
Authors Timo Heister, Martin Kronbichler, Wolfgang Bangerth
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