Scaling through abstractions – high-performance vectorial wave simulations for seismic inversion with Devito
Title | Scaling through abstractions – high-performance vectorial wave simulations for seismic inversion with Devito |
Publication Type | Report |
Year of Publication | 2020 |
Authors | Mathias Louboutin, Fabio Luporini, Philipp A. Witte, Rhodri Nelson, George Bisbas, Thorbecke, J, Felix J. Herrmann, Gerard Gorman |
Document Number | TR-CSE-2020-3 |
Month | 4 |
Institution | Georgia Institute of Technology |
Keywords | devito, elastic, finite-difference, HPC, large-scale, RTM, TTI |
Abstract | [Devito] is an open-source Python project based on domain-specific language and compiler technology. Driven by the requirements of rapid HPC applications development in exploration seismology, the language and compiler have evolved significantly since inception. Sophisticated boundary conditions, tensor contractions, sparse operations and features such as staggered grids and sub-domains are all supported; operators of essentially arbitrary complexity can be generated. To accommodate this flexibility whilst ensuring performance, data dependency analysis is utilized to schedule loops and detect computational-properties such as parallelism. In this article, the generation and simulation of MPI-parallel propagators (along with their adjoints) for the pseudo-acoustic wave-equation in tilted transverse isotropic media and the elastic wave-equation are presented. Simulations are carried out on industry scale synthetic models in a HPC Cloud system and reach a performance of 28TFLOP/s, hence demonstrating Devito's suitability for production-grade seismic inversion problems. |
URL | https://slim.gatech.edu/Publications/Public/TechReport/2020/louboutin2020SCsta/louboutin2020SCsta.html |
Citation Key | louboutin2020SCsta |