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Computational Earthquake Physics Simulations, Analysis and Infrastructure, Part I

Exciting developments in earthquake science have benefited from new observations, improved computational technologies, and improved modeling capabilities. Designing realistic supercomputer simulation models for the complete earthquake generation process is a grand scientific challenge due to the complexity of phenomena and range of scales involved from microscopic to global. The book is divided into two parts: The present volume - Part I - focuses on microscopic simulation, scaling physics, dynamic rapture and wave propagation, earthquake generation, cycle and seismic pattern. Topics covered range from numerical developments, rupture and gouge studies of the particle model, Liquefied Cracks and Rayleigh Wave Physics, studies of catastrophic failure and critical sensitivity, numerical and theoretical studies of crack propagation, developments in finite difference methods for modeling faults, long time scale simulation of interacting fault systems, modeling of crustal deformation, through to mantle convection.

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  • "Simulations, analysis and infrastructure"@en
  • "Simulations, analysis and infrastructure"

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  • "Exciting developments in earthquake science have benefited from new observations, improved computational technologies, and improved modeling capabilities. Designing realistic supercomputer simulation models for the complete earthquake generation process is a grand scientific challenge due to the complexity of phenomena and range of scales involved from microscopic to global. The book is divided into two parts: The present volume - Part I - focuses on microscopic simulation, scaling physics, dynamic rapture and wave propagation, earthquake generation, cycle and seismic pattern. Topics covered range from numerical developments, rupture and gouge studies of the particle model, Liquefied Cracks and Rayleigh Wave Physics, studies of catastrophic failure and critical sensitivity, numerical and theoretical studies of crack propagation, developments in finite difference methods for modeling faults, long time scale simulation of interacting fault systems, modeling of crustal deformation, through to mantle convection."@en
  • "Exciting developments in earthquake science have benefited from new observations, improved computational technologies, and improved modeling capabilities. Designing realistic supercomputer simulation models for the complete earthquake generation process is a grand scientific challenge due to the complexity of phenomena and range of scales involved from microscopic to global. The book is divided into two parts: The present volume - Part I - focuses on microscopic simulation, scaling physics, dynamic rapture and wave propagation, earthquake generation, cycle and seismic pattern. Topics covered range from numerical developments, rupture and gouge studies of the particle model, Liquefied Cracks and Rayleigh Wave Physics, studies of catastrophic failure and critical sensitivity, numerical and theoretical studies of crack propagation, developments in finite difference methods for modeling faults, long time scale simulation of interacting fault systems, modeling of crustal deformation, through to mantle convection."
  • "Exciting developments in earthquake science have benefited from new observations, improved computational technologies, and improved modeling capabilities. Designing realistic supercomputer simulation models for the complete earthquake generation process is a grand scientific challenge due to the complexity of phenomena and range of scales involved from microscopic to global. The present volume - Part II - incorporates computational environment and algorithms, data assimilation and understanding, model applications and iSERVO. Topics covered range from iSERVO and QuakeSim: implementing the international solid earth research virtual observatory by integrating computational grid and geographical information web services, LURR (Load-Unload Response Ratio) described in six papers involving this promising earthquake forecasting model, pattern informatics and phase dynamics and their applications, which was also a highlight in the Workshop, computational algorithms, including continuum damage models and visualization and analysis of geophysical datasets, evolution of mantle material, the state vector approach, and assimilation of data such as geodetic data, GPS data, and seismicity and laboratory experimental data."
  • "Exciting developments in earthquake science have benefited from new observations, improved computational technologies, and improved modeling capabilities. Designing realistic supercomputer simulation models for the complete earthquake generation process is a grand scientific challenge due to the complexity of phenomena and range of scales involved from microscopic to global. The present volume - Part II - incorporates computational environment and algorithms, data assimilation and understanding, model applications and iSERVO. Topics covered range from iSERVO and QuakeSim: implementing the international solid earth research virtual observatory by integrating computational grid and geographical information web services; LURR (Load-Unload Response Ratio) described in six papers involving this promising earthquake forecasting model; pattern informatics and phase dynamics and their applications, which was also a highlight in the Workshop; computational algorithms, including continuum damage models and visualization and analysis of geophysical datasets; evolution of mantle material; the state vector approach; and assimilation of data such as geodetic data, GPS data, and seismicity and laboratory experimental data."@en

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  • "Electronic books"
  • "Electronic books"@en
  • "Conference proceedings"@en
  • "Conference papers and proceedings"@en
  • "Conference papers and proceedings"
  • "Ressources Internet"

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  • "Computational Earthquake Physics Simulations, Analysis and Infrastructure, Part I"
  • "Computational Earthquake Physics Simulations, Analysis and Infrastructure, Part I"@en
  • "Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part I"
  • "Simulations, analysis, and infrastructure"@en
  • "Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part II"
  • "Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part II"@en
  • "Computational earthquake physics"@en
  • "Computational earthquake physics"
  • "Computational Earthquake Physics, Part II"
  • "Computational Earthquake Physics Simulations, Analysis and Infrastructure, Part II"@en
  • "Computational Earthquake Physics Simulations, Analysis and Infrastructure, Part II"
  • "Computational earthquake physics simulations, analysis, and infrastructure"@en
  • "Computational earthquake physics simulations, analysis and infrastructure"@en
  • "Computational earthquake physics : simulations, analysis and infrastructure, Part II"@en
  • "Computational earthquake physics simulations, analysis and infrastructure, Part I"
  • "Computational Earthquake Physics, Part I"
  • "Computational earthquake physics : simulations, analysis and infrastructure"
  • "Computational earthquake physics : simulations, analysis and infrastructure"@en
  • "Computational earthquake physics simulations, analysis and infrastructure, Part II"
  • "Computational earthquake physics simulations, analysis and infrastructure, Part II"@en
  • "Computational Earthquake Physics Pt. 1: Simulations, Analysis and Infrastructure"@en
  • "Computational Earthquake Physics, 2"@en

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