Poster #028, Computational Science (CS)
High-performance computing and multi-physics earthquake modeling towards next generation earthquake simulations
Poster Image:
Poster Presentation
2021 SCEC Annual Meeting, Poster #028, SCEC Contribution #11621 VIEW PDF
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We present recent developments and future directions for data-driven seismological, geodetic, tectonic and experimental analyses that can be integrated synergistically with multi-physics modeling. Physic-based modeling can shed light on the dynamics, severity and cascading hazards of earthquake behaviour and enables an unparalleled degree of realism exploiting high-performance computing. We demonstrate the potential of Solid Earth community software for performing data-integrated large-scale scenarios of recent powerful multi-fault earthquake cascades; simulating 3D partially and fully-coupled Earth and ocean models of tsunami generated during earthquakes; evolution of complex localization patterns in fault zones and coupling between changes of elastic moduli in failing regions and subsequent rupture properties. The degree of realism achieved in these simulations is enabled by modern software, e.g. allowing for multi-petascale computational efficiency and high-order accuracy in time and space. The inclusion of probabilistic and Bayesian frameworks, geometric transformations and diffuse interface approaches to avoid manual meshing are future directions for exploiting the expected exascale computing infrastructure.
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We present recent developments and future directions for data-driven seismological, geodetic, tectonic and experimental analyses that can be integrated synergistically with multi-physics modeling. Physic-based modeling can shed light on the dynamics, severity and cascading hazards of earthquake behaviour and enables an unparalleled degree of realism exploiting high-performance computing. We demonstrate the potential of Solid Earth community software for performing data-integrated large-scale scenarios of recent powerful multi-fault earthquake cascades; simulating 3D partially and fully-coupled Earth and ocean models of tsunami generated during earthquakes; evolution of complex localization patterns in fault zones and coupling between changes of elastic moduli in failing regions and subsequent rupture properties. The degree of realism achieved in these simulations is enabled by modern software, e.g. allowing for multi-petascale computational efficiency and high-order accuracy in time and space. The inclusion of probabilistic and Bayesian frameworks, geometric transformations and diffuse interface approaches to avoid manual meshing are future directions for exploiting the expected exascale computing infrastructure.
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Citation: Gabriel, A., Elbanna, A. E., & Ben-Zion, Y. (2021, 08). High-performance computing and multi-physics earthquake modeling towards next generation earthquake simulations. Poster Presentation at 2021 SCEC Annual Meeting.
SCEC Award: 21112
Relevant SCEC Themes:
Data-Intensive Computing
Beyond Elasticity
Modeling Earthquake Source Processes
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