High-Performance Reverse Time Migration on GPU

Javier Cabezas; Nacho Navarro; Enric Morancho; Mauricio Araya-Polo; Isaac Gelado; Jos&#x00E9; M. Cela

doi:10.1109/SCCC.2009.19

S
SCCC
2009
2009 International Conference of the Chilean Computer Science Society
Abstract - High-Performance Reverse Time Migration on GPU

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2009 International Conference of the Chilean Computer Science Society

High-Performance Reverse Time Migration on GPU

Santiago, Chile

November 10-November 12

ISBN: 978-0-7695-4137-2

	ASCII Text	x
	Javier Cabezas, Mauricio Araya-Polo, Isaac Gelado, Nacho Navarro, Enric Morancho, José M. Cela, "High-Performance Reverse Time Migration on GPU," 2011 30th International Conference of the Chilean Computer Science Society, pp. 77-86, 2009 International Conference of the Chilean Computer Science Society, 2009.

	BibTex	x
	@article{ 10.1109/SCCC.2009.19, author = {Javier Cabezas and Mauricio Araya-Polo and Isaac Gelado and Nacho Navarro and Enric Morancho and José M. Cela}, title = {High-Performance Reverse Time Migration on GPU}, journal ={2011 30th International Conference of the Chilean Computer Science Society}, volume = {0}, year = {2009}, issn = {1522-4902}, pages = {77-86}, doi = {http://doi.ieeecomputersociety.org/10.1109/SCCC.2009.19}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - 2011 30th International Conference of the Chilean Computer Science Society TI - High-Performance Reverse Time Migration on GPU SN - 1522-4902 SP77 EP86 A1 - Javier Cabezas, A1 - Mauricio Araya-Polo, A1 - Isaac Gelado, A1 - Nacho Navarro, A1 - Enric Morancho, A1 - José M. Cela, PY - 2009 KW - GPU KW - high-performance computing KW - finite differences KW - PDE KW - seismic imaging KW - stencil computation VL - 0 JA - 2011 30th International Conference of the Chilean Computer Science Society ER -

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/SCCC.2009.19

Partial Differential Equations (PDE) are the heart of most simulations in many scientific fields, from Fluid Mechanics to Astrophysics. One the most popular mathematical schemes to solve a PDE is Finite Difference (FD). In this work we map a PDE-FD algorithm called Reverse Time Migration to a GPU using CUDA. This seismic imaging (Geophysics) algorithm is widely used in the oil industry. GPUs are natural contenders in the aftermath of the clock race, in particular for High-performance Computing (HPC). Due to GPU characteristics, the parallelism paradigm shifts from the classical threads plus SIMD to Single Program Multiple Data (SPMD). The NVIDIA GTX 280 implementation outperforms homogeneous CPUs up to 9x (Intel Harpertown E5420) and up to 14x (IBM PPC 970). These preliminary results confirm that GPUs are a real option for HPC, from performance to programmability.

Index Terms:

GPU, high-performance computing, finite differences, PDE, seismic imaging, stencil computation

Citation:

Javier Cabezas, Mauricio Araya-Polo, Isaac Gelado, Nacho Navarro, Enric Morancho, José M. Cela, "High-Performance Reverse Time Migration on GPU," sccc, pp.77-86, 2009 International Conference of the Chilean Computer Science Society, 2009

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