Synthetic time histories from large-scale three-dimensional dynamic rupture or ground motion simulations generally constitute large data sets which typically require hundreds of Megabytes, Gigabytes or even Terabytes of storage capacity (see, e.g., Olsen et al., 2008, 2009). Access to large simulation output, for a seismologist to analyze ruptur
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
2Reliable assessments of ground shaking scenarios with the aid of computers before the occurrence of...
Large-scale earthquake simulation requires source datasets which describe the highly heterogeneous p...
Significant portions of QuakeCoRE research require large-scale computationally-intensive numerical ...
With advances in computational capabilities and refinement of seismic wavepropagation models in the ...
This paper presents a parallel adaptive rendering algorithm and its performance for visualizing time...
Abstract. The Southern California Earthquake Center initiated a major largescale earthquake simulati...
Ground-motion simulations generated from physics-based wave propagation models are gaining increasin...
Abstract In the absence of sufficient data in the very near source, predictions of the intensity and...
Synthetic datasets for the 2D and 3D rupture tracking examples shown in the manuscript "Earthquake r...
Earthquakes are not predictable with current technology. However, it is possible to simulate differe...
Modernizing SW4 for massively parallel time-domain simulations of earthquake ground motions in 3D ea...
We compile and process an electronic database of ground motions recorded on accelerometers and broad...
Background and Objective Significant portions of QuakeCoRE research require large-scale computation...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
2Reliable assessments of ground shaking scenarios with the aid of computers before the occurrence of...
Large-scale earthquake simulation requires source datasets which describe the highly heterogeneous p...
Significant portions of QuakeCoRE research require large-scale computationally-intensive numerical ...
With advances in computational capabilities and refinement of seismic wavepropagation models in the ...
This paper presents a parallel adaptive rendering algorithm and its performance for visualizing time...
Abstract. The Southern California Earthquake Center initiated a major largescale earthquake simulati...
Ground-motion simulations generated from physics-based wave propagation models are gaining increasin...
Abstract In the absence of sufficient data in the very near source, predictions of the intensity and...
Synthetic datasets for the 2D and 3D rupture tracking examples shown in the manuscript "Earthquake r...
Earthquakes are not predictable with current technology. However, it is possible to simulate differe...
Modernizing SW4 for massively parallel time-domain simulations of earthquake ground motions in 3D ea...
We compile and process an electronic database of ground motions recorded on accelerometers and broad...
Background and Objective Significant portions of QuakeCoRE research require large-scale computation...
Accurate prediction of the intensity and variability of strong ground motions for future large eart...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
2Reliable assessments of ground shaking scenarios with the aid of computers before the occurrence of...