In this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simulator that is tailored to predict the seismic wave field of complex earthquake scenarios from the fault to the epicenter site. SEM3D solves the wave-propagation problem by means of the spectral element method (SEM). The presented demonstrative test case was a blind MW6.0 earthquake scenario at the European experimental site located in the sedimentary basin of Argostoli on the island of Kefalonia (Western Greece). A well-constrained geological model, obtained via geophysical inversion studies, and seismological model, given the large database of seismic traces recorded by the newly installed ARGONET network, of the site were considered. The domain of interest covere...
A numerical study on the 2009 Mw 6.3 L'Aquila earthquake is here presented using a high performance ...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
In this paper, we simulate the earthquake that hit the city of L'Aquila on 2009 April 6 using SPEED ...
International audienceIn this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simul...
We adopt a spectral-element method (SEM) to perform numerical simulations of the complex wavefield g...
Abstract We adopt a spectral-element method (SEM) to perform numerical simu-lations of the complex w...
International audienceWe adopt a spectral‐element method (SEM) to perform numerical simulations of t...
International audienceThe development of powerful computer clusters and efficient numerical computat...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
Abstract. We use a Spectral-Element Method implemented on the Earth Simulator in Japan to simulate b...
The development of accurate numerical methods to simulate wave propagation in three-dimensional (3D)...
In this paper we simulate the earthquake that hit the city of L’Aquila on the 6th of April 2009 usin...
International audienceSUMMARY Differences between 3-D numerical predictions of earthquake ground mot...
We computed the global wavefield excited by Model III using the spectral element method (SEM) (1) fo...
A numerical study on the 2009 Mw 6.3 L'Aquila earthquake is here presented using a high performance ...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
In this paper, we simulate the earthquake that hit the city of L'Aquila on 2009 April 6 using SPEED ...
International audienceIn this paper, we present SEM3D: a 3D high-fidelity numerical earthquake simul...
We adopt a spectral-element method (SEM) to perform numerical simulations of the complex wavefield g...
Abstract We adopt a spectral-element method (SEM) to perform numerical simu-lations of the complex w...
International audienceWe adopt a spectral‐element method (SEM) to perform numerical simulations of t...
International audienceThe development of powerful computer clusters and efficient numerical computat...
Abstract We use the Earth Simulator to model seismic wave propagation resulting from large earthquak...
Abstract. We use a Spectral-Element Method implemented on the Earth Simulator in Japan to simulate b...
The development of accurate numerical methods to simulate wave propagation in three-dimensional (3D)...
In this paper we simulate the earthquake that hit the city of L’Aquila on the 6th of April 2009 usin...
International audienceSUMMARY Differences between 3-D numerical predictions of earthquake ground mot...
We computed the global wavefield excited by Model III using the spectral element method (SEM) (1) fo...
A numerical study on the 2009 Mw 6.3 L'Aquila earthquake is here presented using a high performance ...
Despite recent advances in High Performance Computing (HPC), numerical simulation of high frequency ...
In this paper, we simulate the earthquake that hit the city of L'Aquila on 2009 April 6 using SPEED ...