• DocumentCode
    227098
  • Title

    Petascale High Order Dynamic Rupture Earthquake Simulations on Heterogeneous Supercomputers

  • Author

    Heinecke, Alexander ; Breuer, Alexander ; Rettenberger, Sebastian ; Bader, Michael ; Gabriel, Alice-Agnes ; Pelties, Christian ; Bode, Arndt ; Barth, William ; Liao, Xiang-Ke ; Vaidyanathan, Karthikeyan ; Smelyanskiy, Mikhail ; Dubey, Pradeep

  • Author_Institution
    Dept. of Inf., Tech. Univ. Munchen, Munich, Germany
  • fYear
    2014
  • fDate
    16-21 Nov. 2014
  • Firstpage
    3
  • Lastpage
    14
  • Abstract
    We present an end-to-end optimization of the innovative Arbitrary high-order DERivative Discontinuous Galerkin (ADER-DG) software SeisSol targeting Intel® Xeon Phi coprocessor platforms, achieving unprecedented earthquake model complexity through coupled simulation of full frictional sliding and seismic wave propagation. SeisSol exploits unstructured meshes to flexibly adapt for complicated geometries in realistic geological models. Seismic wave propagation is solved simultaneously with earthquake faulting in a multiphysical manner leading to a heterogeneous solver structure. Our architecture aware optimizations deliver up to 50% of peak performance, and introduce an efficient compute-communication overlapping scheme shadowing the multiphysics computations. SeisSol delivers near-optimal weak scaling, reaching 8.6 DP-PFLOPS on 8,192 nodes of the Tianhe-2 supercomputer. Our performance model projects reaching 18 -- 20 DP-PFLOPS on the full Tianhe-2 machine. Of special relevance to modern civil engineering needs, our pioneering simulation of the 1992 Landers earthquake shows highly detailed rupture evolution and ground motion at frequencies up to 10 Hz.
  • Keywords
    Galerkin method; computational geometry; earthquake engineering; earthquakes; fracture; geophysics computing; mainframes; mesh generation; parallel machines; parallel processing; seismic waves; seismology; wave propagation; ADER-DG software; DP-PFLOPS; Intel Xeon Phi coprocessor platforms; Landers earthquake; SeisSol software; Tianhe-2 supercomputer; arbitrary high-order derivative discontinuous Galerkin software; architecture-aware optimizations; civil engineering; complicated geometries; compute-communication overlapping scheme shadowing; earthquake faulting; earthquake model; end-to-end optimization; full-frictional sliding; ground motion; heterogeneous solver structure; heterogeneous supercomputers; multiphysics computations; near-optimal weak scaling; performance model; petascale high-order dynamic rupture earthquake simulations; realistic geological models; rupture evolution; seismic wave propagation; unstructured meshes; Computational modeling; Earthquakes; Jacobian matrices; Kernel; Optimization; Seismic waves; Stress; ADER-DG; SeisSol; dynamic rupture; earthquake simulation; heterogeneous supercomputers; hybrid parallelization; petascale performance;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    High Performance Computing, Networking, Storage and Analysis, SC14: International Conference for
  • Conference_Location
    New Orleans, LA
  • Print_ISBN
    978-1-4799-5499-5
  • Type

    conf

  • DOI
    10.1109/SC.2014.6
  • Filename
    7012188