NASA Awards 2012 Software of the Year


altQuakeSim, developed at NASA’s Jet Propulsion Laboratory (JPL) in Pasadena, CA, is a comprehensive, state-of-the-art software tool for simulating and understanding earthquake fault processes and improving earthquake forecasting. Initiated in 2002, QuakeSim uses NASA remote sensing and other earthquake- related data to simulate and model the behavior of faults in 3D, both individually and as part of complex, interacting systems. This provides long-term histories of fault behavior that can be used for statistical evaluation. QuakeSim also is used to identify regions of increased earthquake probabilities called hotspots.

QuakeSim provides model and analysis tools, computational infrastructure, access to data, and an interface for understanding the complete cycle of earthquakes. The software assimilates data of crustal deformation that leads to and follows earthquakes, together with seismicity data of earthquakes and geologic data. QuakeSim’s integrated, map-based interfaces and applications make an unprecedented amount of complex geophysical data from the ground, air, and space available and accessible to a broad range of scientists and end users, including emergency responders, commercial disaster companies, the insurance industry, and civil engineers. The software allows them to explore and analyze observations, model earthquake processes, and analyze patterns to focus attention and identify significant and/or subtle features in the data.

QuakeSim has had a number of notable accomplishments to date. It produced the first readily accessible set of digital fault models of California. It was used to identify regions in extreme southern California at risk for earthquakes, guiding the collection of data by NASA’s Uninhabited Aerial Vehicle Synthetic Aperture Radar (UAVSAR) prior to a magnitude 7.2 earthquake in Baja, Mexico in 2010, which led to the first-ever airborne radar images of deformation in Earth’s surface caused by a major earthquake. It helped define NASA’s planned synthetic aperture radar satellite mission, and was used to rule out tectonic deformation of Earth’s surface as a factor when water pipe breaks afflicted Los Angeles in 2009. The software also was used in several recent government earthquake response exercises, including the 2008 California ShakeOut, 2011 National Level Exercise, and the 2012 Golden Guardian Exercise. QuakeSim approaches are being adopted by numerous organizations, including the Southern California Earthquake Center, United States Geological Survey, and the California Geological Survey.

Studies have shown QuakeSim to be the most accurate tool of its kind for intermediate earthquake forecasting, and detecting the subtle, transient deformation in Earth’s crust that precedes and follows earthquakes. Its varied applications include scientific studies, developing earthquake hazard maps that can be used for targeted retrofitting of earthquake-vulnerable structures, providing input for damage and loss estimates after earthquakes, guiding disaster response efforts, and studying fluid changes in reservoirs.

The multidisciplinary QuakeSim team includes principal investigator Andrea Donnellan, Jay Parker, Robert Granat, Charles Norton, and Greg Lyzenga of JPL; Geoffrey Fox and Marlon Pierce of Indiana University, Bloomington; John Rundle of the University of California, Davis; Dennis McLeod of the University of Southern California, Los Angeles; and Lisa Grant Ludwig of the University of California, Irvine.

For more information, visit www.quakesim.org.


John H. Glenn Research Center
Cleveland, OH

The creativity of Multidisciplinary Design Analysis and Optimization (MDAO) software lies in the generality and customizability of the application with user involvement in the continued development. It allows users to tie related simulation tools together for holistic designs of related systems.

Honorable Mentions

Goddard Space Flight Center
Greenbelt, MD

GO-Sim tests the Global Precipitation Mission spacecraft software for solar array deployment, communications systems, instrument simulations, and the ability to run, debug, and develop the actual, unmodified flight software as if it were running on the spacecraft.

Lyndon B. Johnson Space Center
Houston, TX

RITRACKS provides algorithms/calculations to examine radiation damage to molecular components like DNA mitochondria.

The U.S. Government does not endorse any commercial product, process, or activity identified on this web site.