T33E-2981
DVS-SOFTWARE: An Effective Tool for Applying Highly Parallelized Hardware To Computational Geophysics
DVS-SOFTWARE: An Effective Tool for Applying Highly Parallelized Hardware To Computational Geophysics
Wednesday, 16 December 2015
Poster Hall (Moscone South)
Abstract:
Most geophysical systems are macroscopic physical systems. The behavior prediction of such systems is carried out by means of computational models whose basic models are partial differential equations (PDEs) [1]. Due to the enormous size of the discretized version of such PDEs it is necessary to apply highly parallelized super-computers. For them, at present, the most efficient software is based on non-overlapping domain decomposition methods (DDM). However, a limiting feature of the present state-of-the-art techniques is due to the kind of discretizations used in them. Recently, I. Herrera and co-workers using ‘non-overlapping discretizations’ have produced the DVS-Software which overcomes this limitation [2]. The DVS-software can be applied to a great variety of geophysical problems and achieves very high parallel efficiencies (90%, or so [3]). It is therefore very suitable for effectively applying the most advanced parallel supercomputers available at present. In a parallel talk, in this AGU Fall Meeting, Graciela Herrera Z. will present how this software is being applied to advance MOD-FLOW.Key Words: Parallel Software for Geophysics, High Performance Computing, HPC, Parallel Computing, Domain Decomposition Methods (DDM)
REFERENCES
[1]. Herrera Ismael and George F. Pinder, [2]. Herrera, I., de la Cruz L.M. and Rosas-Medina A. “ [3]. Herrera, I., & Contreras Iván “