Load-Balanced Local Time Stepping for Large-Scale Wave Propagation
Informazioni aggiuntive
Autori
Rietmann M.,
Peter D.,
Schenk O.,
car B. U. .,
Grote M.
Tipo
Contributo in atti di conferenza
Anno
2015
Lingua
Inglese
Atti di conferenza
2015 IEEE International Parallel and Distributed Processing Symposium
Nome conferenza
IEEE International Parallel and Distributed Processing Symposium
Luogo conferenza
Hyderabad International Convention Centre Hyderabad, India
Data conferenza
May 25-29, 2015
Parole chiave
geophysics computing;graph theory;graphics processing units;parallel processing;resource allocation;seismology;CPU cluster;Courant-Friedrichs-Lewy stability condition;GPU cluster;LTS algorithm;LTS-Newmark;SPECFEM3D seismology code;computational seismology;explicit time-stepping schemes;graphics processing unit;hypergraph partitioning tool;large-scale wave propagation;load-balanced local time stepping;load-balanced parallelization;multiconstraint graph partitioning tool;partitioning scheme;Approximation methods;Load modeling;Partitioning algorithms;Program processors;Propagation;Seismology;Standards;Graph Partitioning;Hypergraph Partitioning;Load Balancing;Local Time Stepping; Wave Propagation
