Difference between revisions of "INCITE"

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During the past two years, SCEC scientists have used the DOE Oak Ridge and Argonne Leadership Computing Facilities, as well as NSF supercomputers, to develop petascale seismic hazard simulations can provide numerical simulations of the largest earthquakes at frequencies higher than 1 Hz.
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SCEC scientists use the DOE Oak Ridge and Argonne Leadership Computing Facilities, as well as NSF supercomputers, to develop petascale seismic hazard simulations that can provide ground motion forecasts for the largest earthquakes at frequencies higher than 1 Hz.
  
 
[[File:Anderson |256px|thumb|right|Fig 1:Map of velocity profile lines of interest. Pins represent CyberShake hazard curve sites. GAVI is a precarious rock site and a CyberShake hazard curve site. (Image Credit: John Anderson (UNR))]]
 
[[File:Anderson |256px|thumb|right|Fig 1:Map of velocity profile lines of interest. Pins represent CyberShake hazard curve sites. GAVI is a precarious rock site and a CyberShake hazard curve site. (Image Credit: John Anderson (UNR))]]

Revision as of 01:36, 1 April 2011

SCEC scientists use the DOE Oak Ridge and Argonne Leadership Computing Facilities, as well as NSF supercomputers, to develop petascale seismic hazard simulations that can provide ground motion forecasts for the largest earthquakes at frequencies higher than 1 Hz.

File:Anderson
Fig 1:Map of velocity profile lines of interest. Pins represent CyberShake hazard curve sites. GAVI is a precarious rock site and a CyberShake hazard curve site. (Image Credit: John Anderson (UNR))

SCEC INCITE 2011

Title: Deterministic Simulations of Large Regional Earthquakes at Frequencies Up to 4 Hz PI and Co-PI(s): Thomas H. Jordan (PI), Yifeng Cui (Co-PI), Kim Olsen (Co-PI), Jacobo Bielak (Co-PI), Po Chen (Co-PI)

SCEC INCITE 2010

Related Entries

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