Fast seismic modeling and Reverse Time Migration on a GPU cluster

Author

Abdelkhalek, Rached ; Calandra, Henri ; Coulaud, Olivier ; Roman, Jean ; Latu, Guillaume

Author_Institution

TOTAL, Pau, France

fYear

2009

fDate

21-24 June 2009

Firstpage

36

Lastpage

43

Abstract

We have designed a fast parallel simulator that solves the acoustic wave equation on a GPU cluster. Solving the acoustic wave equation in an oil exploration industrial context aims at speeding up seismic modeling and Reverse Time Migration. We consider a finite difference approach on a regular mesh, in both 2D and 3D cases. The acoustic wave equation is solved in either a constant density or a variable density domain. All the computations are done in single precision, since double precision is not required in our context. We use CUDA to take advantage of the GPUs computational power. We study different implementations and their impact on the application performance. We obtain a speed up of 10 for Reverse Time Migration and up to 30 for the modeling application over a sequential code running on general purpose CPU.

Keywords

acoustic waves; computer graphics; coprocessors; finite difference methods; gas industry; geophysics computing; parallel processing; petroleum industry; seismology; CUDA; GPU cluster; acoustic wave equation; fast parallel simulator; finite difference approach; oil exploration; reverse time migration; seismic modeling; sequential code running; Acoustic waves; Central Processing Unit; Computer architecture; Context modeling; Earth; Finite difference methods; Geology; Numerical models; Petroleum; Seismic waves; CUDA; Finite Difference; GPGPU; Reverse Time Migration; Seismic modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

High Performance Computing & Simulation, 2009. HPCS '09. International Conference on

Conference_Location

Leipzig

Print_ISBN

978-1-4244-4906-4

Electronic_ISBN

978-1-4244-4907-1

Type

conf

DOI

10.1109/HPCSIM.2009.5192786

Filename

5192786