Add to ORKGBackground and Objective Significant portions of QuakeCoRE research require large-scale computationally-intensive numerical ground motion (GM) simulations. The amount of data and complexity of computation make the large-scale simula-tion practically impossible to run on a researcher’s workstation. QuakeCoRE started collaboration with New Zealand eScience Infrastructure (NeSI), the na-tional high performance computing (HPC) provider to gain the necessary compu-tational capacity and execution speed. In the last 12 months transition to the new supercomputing facility has begun. For the results of our workflow, refer to other posters from our research group
Southern California Earthquake Center (SCEC) have developed the Broadband Platform (BBP) that comput...
Introduction QuakeCoRE undertakes ground motion simulations as part of its computational workflow. ...
Our poster will present on-going QuakeCoRE-founded work on strong motion seismology for Dunedin-Mosg...
Significant portions of QuakeCoRE research require large-scale computationally-intensive numerical ...
Background and objective : QuakeCoRE developed the Ground Motion (GM) simulation workflow based on t...
Background and Objective QuakeCoRE developed the Ground Motion (GM) simulation workflow based on th...
QuakeCoRE is a Centre of Research Excellence fostering innovative research in earthquake resilience ...
In the presentation, we describe the computational workflow and results of the June 2018 version (v1...
QuakeCoRE undertakes ground motion simulations as part of its computational workflow. Impact assessm...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
Computational simulations have become central to the seismic analysis and design of major infrastruc...
Cybershake NZ is a project that simulates possible ruptures for all known faults in New Zealand base...
Motivation Ground motion simulations offer the potential to significantly improve seismic hazard ch...
Modernizing SW4 for massively parallel time-domain simulations of earthquake ground motions in 3D ea...
Parallelization strategies are presented for Virtual Quake, a numerical simulation code for earthqua...
Southern California Earthquake Center (SCEC) have developed the Broadband Platform (BBP) that comput...
Introduction QuakeCoRE undertakes ground motion simulations as part of its computational workflow. ...
Our poster will present on-going QuakeCoRE-founded work on strong motion seismology for Dunedin-Mosg...
Significant portions of QuakeCoRE research require large-scale computationally-intensive numerical ...
Background and objective : QuakeCoRE developed the Ground Motion (GM) simulation workflow based on t...
Background and Objective QuakeCoRE developed the Ground Motion (GM) simulation workflow based on th...
QuakeCoRE is a Centre of Research Excellence fostering innovative research in earthquake resilience ...
In the presentation, we describe the computational workflow and results of the June 2018 version (v1...
QuakeCoRE undertakes ground motion simulations as part of its computational workflow. Impact assessm...
Seismology and engineering seismology have been dramatically affected by the emergence of high-perfo...
Computational simulations have become central to the seismic analysis and design of major infrastruc...
Cybershake NZ is a project that simulates possible ruptures for all known faults in New Zealand base...
Motivation Ground motion simulations offer the potential to significantly improve seismic hazard ch...
Modernizing SW4 for massively parallel time-domain simulations of earthquake ground motions in 3D ea...
Parallelization strategies are presented for Virtual Quake, a numerical simulation code for earthqua...
Southern California Earthquake Center (SCEC) have developed the Broadband Platform (BBP) that comput...
Introduction QuakeCoRE undertakes ground motion simulations as part of its computational workflow. ...
Our poster will present on-going QuakeCoRE-founded work on strong motion seismology for Dunedin-Mosg...