Difference between revisions of "CME Meeting 2011"

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[[File:UCVM_at_0m.png‎|256px|thumb|right|Fig 3: S-wave velocity at 0m depth produced using the SCEC Unified California Velocity Model Framework (UCVM) software combining 4 velocity models including CVM-H 11.2 (southern California) USGS Central California (Northern West Coast), Lin Thurber State Wide (North East), and Hadley-Kanamori 1D background model.(Image Credit: Patrick Small (USC), Brad Aagaard, John Shaw (Harvard), Andreas Plesch (Harvard)]]
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[[File:UCVM_at_0m.png‎|256px|thumb|right|Fig 3: S-wave velocity at 0m depth produced using the SCEC Unified California Velocity Model Framework (UCVM) software combining 4 velocity models including CVM-H 11.2USGS Central California, Lin Thurber State Wide, and Hadley-Kanamori 1D background model.(Image Credit: Patrick Small (USC), Brad Aagaard, John Shaw (Harvard), Andreas Plesch (Harvard)]]
  
 
== SCEC Meeting Times ==
 
== SCEC Meeting Times ==

Revision as of 00:12, 10 September 2011

SCEC/CME Computational Science Planning Meeting 2011

Fig 1: Goodness of Fit comparing peak ground acceleration from 10hz seismograms produced by the Broadband Platform v11.2 against PGA observations from the Northridge earthquake, using a map-based Mayhew-Olsen GOF PGA scale of 0 (worst) to 100 (best).(Image Credit: Sandarsh Kumar (USC), Scott Callaghan (USC), Kim Olsen (SDSC)
  • Organizers: T. H. Jordan, P. Maechling
  • Date: Sunday, September 11, 2011 (1:00pm – 3:30pm)
  • Location: Hilton Palm Springs Resort, Palm Springs, CA
  • Address: 400 East Tahquitz Canyon Way, Palm Springs, CA,92262-6605
  • Room: Oasis Room III (3rd Floor)

SCEC/CME Meeting Agenda Sept 11, 2011

Fig 2: SCEC Broadband CyberShake PSHA hazard calculations produce PSHA hazard curves at frequencies up to 10Hz by combining 0.5Hz deterministic waveform-based UCERF2.0 hazard curves with stochastic high frequencies from the SCEC Broadband Platform v11.2.0. The resulting PSHA hazard curves provide peak ground motion estimates at frequencies and time-scales needed to validate PSHA hazard curves using precariously balanced rocks and other fragile geological structures. (Image Credit: Scott Callaghan (USC), Robert Graves, Kim Olsen (SDSU), Gaurang Mehta (USC/ISI)

Meeting Format: Researchers and research groups present their current and planned calculations with a two slide limit and a strict 10 minute limit including presentation and discussion.

Session One: 1:00pm - 2:10pm Current Computational Projects

  1. Ma-FE on Cobalt - Shuo Ma
  2. SORD at TACC and ALCF - Geoff Ely
  3. Hanging Wall Problem for NGA-W - Sandarsh Kumar
  4. Parallel Broadband - Gaurang Mehta/Mats Rynge
  5. Chino Hills Higher Frequency - Jacobo Bielak
  6. California SI Inversion - En-Jui Lee/Po Chen
  7. Broadband CyberShake - Scott Callaghan
  8. AWP-ODC-SGT and AWP-ODC-GPU - Jun Zhou
  9. UCERF3 "Grand" Inversion: A Distributed Simulated Annealing Approach - Kevin Milner

Session Two: 2:20pm - 3:30pm: Future Computational Projects

  1. Earthquake Simulators - James H. Dieterich
  2. Dynamic Rupture Modeling - Jeremy Kozdon
  3. UCVM Development - Brad Aagaard
  4. Impact of small-scale CVM heterogeneity on Ground Motion Sims - Kim Olsen
  5. CyberShake 3.0 Map - Philip Maechling
  6. Computational Science Research Opportunities - Yifeng Cui
  7. NSF Earth Cube - TBD
  8. NSF Geoinformatics - TBD


Fig 3: S-wave velocity at 0m depth produced using the SCEC Unified California Velocity Model Framework (UCVM) software combining 4 velocity models including CVM-H 11.2, USGS Central California, Lin Thurber State Wide, and Hadley-Kanamori 1D background model.(Image Credit: Patrick Small (USC), Brad Aagaard, John Shaw (Harvard), Andreas Plesch (Harvard)

SCEC Meeting Times

We recognize that the CME meeting times overlap with related SCEC workshops listed here: [1]. Several CME group members want to participate in both meetings. To support these collaborative meetings, we will keep the CME meeting informal so that CME participants can move freely moving between meetings. We will try to keep the CME meeting on schedule so that you can determine when specific topics will be discussed at the CME meeting.


Fig 4: Twenty one seconds after origin time for the SCEC M8 simulation showing instantaneous velocity magnitude as exaggerated topography. Image shows formation of a Mach cone at the leading of the M8 rupture as it progresses south at supershear velocity on Southern San Andreas Fault. (Image Credit: Amit Chourasia (SDSC), Yifeng Cui (SDSC), Kim Olsen (SDSU)

CME-related 2011 Meeting Posters

CME-related 2010 Meeting Posters

CME-related Web Sites