Modeling and simulation of tsunami impact: a short review of recent advances and future challenges
Tsunami modeling and simulation has changed in the past few years more than it has in
decades, especially with respect to coastal inundation. Among other things, this change is …
decades, especially with respect to coastal inundation. Among other things, this change is …
101 geodynamic modelling: How to design, carry out, and interpret numerical studies
Geodynamic modelling provides a powerful tool to investigate processes in the Earth's crust,
mantle, and core that are not directly observable. However, numerical models are inherently …
mantle, and core that are not directly observable. However, numerical models are inherently …
3D acoustic-elastic coupling with gravity: the dynamics of the 2018 Palu, Sulawesi earthquake and tsunami
We present a highly scalable 3D fully-coupled Earth & ocean model of earthquake rupture
and tsunami generation and perform the first fully coupled simulation of an actual …
and tsunami generation and perform the first fully coupled simulation of an actual …
Stress, rigidity and sediment strength control megathrust earthquake and tsunami dynamics
Megathrust faults host the largest earthquakes on Earth, which can trigger cascading
hazards such as devastating tsunamis. Determining characteristics that control subduction …
hazards such as devastating tsunamis. Determining characteristics that control subduction …
Working with dynamic earthquake rupture models: A practical guide
Dynamic rupture models are physics‐based simulations that couple fracture mechanics to
wave propagation and are used to explain specific earthquake observations or to generate a …
wave propagation and are used to explain specific earthquake observations or to generate a …
[HTML][HTML] The EU Center of Excellence for Exascale in Solid Earth (ChEESE): Implementation, results, and roadmap for the second phase
Abstract The EU Center of Excellence for Exascale in Solid Earth (ChEESE) develops
exascale transition capabilities in the domain of Solid Earth, an area of geophysics rich in …
exascale transition capabilities in the domain of Solid Earth, an area of geophysics rich in …
[HTML][HTML] 101 geodynamic modelling: how to design, interpret, and communicate numerical studies of the solid Earth
Geodynamic modelling provides a powerful tool to investigate processes in the Earth's crust,
mantle, and core that are not directly observable. However, numerical models are inherently …
mantle, and core that are not directly observable. However, numerical models are inherently …
Dueling dynamics of low-angle normal fault rupture with splay faulting and off-fault damage
Despite a lack of modern large earthquakes on shallowly dipping normal faults, Holocene
Mw> 7 low-angle normal fault (LANF; dip< 30°) ruptures are preserved paleoseismically and …
Mw> 7 low-angle normal fault (LANF; dip< 30°) ruptures are preserved paleoseismically and …
Characteristics of earthquake cycles: A cross‐dimensional comparison of 0D to 3D numerical models
M Li, C Pranger, Y van Dinther - Journal of Geophysical …, 2022 - Wiley Online Library
High‐resolution computer simulations of earthquake sequences in three or even two
dimensions pose great demands on time and energy, making lower‐cost simplifications a …
dimensions pose great demands on time and energy, making lower‐cost simplifications a …
High performance uncertainty quantification with parallelized multilevel Markov chain Monte Carlo
Numerical models of complex real-world phenomena often necessitate High Performance
Computing (HPC). Uncertainties increase problem dimensionality further and pose even …
Computing (HPC). Uncertainties increase problem dimensionality further and pose even …