Difference between revisions of "CME Meeting 2011"

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[[File:BroadbandCyberShake.png|256px|thumb|right|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)]]
 
[[File:BroadbandCyberShake.png|256px|thumb|right|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.
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Meeting Format: Researchers and research groups present their current and planned calculations with a two slide limit and a 10 minute limit including presentation and discussion.
  
 
'''Session One: 1:00pm - 2:20pm Current Computational Projects'''
 
'''Session One: 1:00pm - 2:20pm Current Computational Projects'''
  
#Ma-FE on Cobalt - Shuo Ma
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#[http://hypocenter.usc.edu/research/CME_Meetings/Ma_CME_2011.pptx Ma-FE on Cobalt] - Shuo Ma
#SORD at TACC and ALCF - Geoff Ely
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#[http://hypocenter.usc.edu/research/CME_Meetings/Ely_cme_slides_2011.pdf SORD at TACC and ALCF] - Geoff Ely
#Hanging Wall Problem for NGA-W - Sandarsh Kumar
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#[http://hypocenter.usc.edu/research/CME_Meetings/Kumar_bbp_FwHw_scec_am_2011.ppt Hanging Wall Problem for NGA-W] - Sandarsh Kumar
#Parallel Broadband - Gaurang Mehta/Mats Rynge
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#[http://hypocenter.usc.edu/research/CME_Meetings/Rynge_2011_Broadband.pptx Parallel Broadband] - Mats Rynge
#Short-period EQ simulation, Vs_min effects, and DRM in Hercules - Jacobo Bielak
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#[http://hypocenter.usc.edu/research/CME_Meetings/Bielak_SCEC_CME_2011-CMU-2-slides.ppt Short-period EQ simulation, Vs_min effects, and DRM in Hercules] - Jacobo Bielak
#California SI Inversion - En-Jui Lee/Po Chen
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#[http://hypocenter.usc.edu/research/CME_Meetings/Lee_2011_CME_Po_group.pptx California SI Inversion] - En-Jui Lee
 
#[http://hypocenter.usc.edu/research/CME_Meetings/Callaghan_Broadband_CyberShake_2011.pptx Broadband CyberShake] - Scott Callaghan
 
#[http://hypocenter.usc.edu/research/CME_Meetings/Callaghan_Broadband_CyberShake_2011.pptx Broadband CyberShake] - Scott Callaghan
#AWP-ODC-SGT and AWP-ODC-GPU - Jun Zhou
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#[http://hypocenter.usc.edu/research/CME_Meetings/Zhou_SCEC2011.pptx AWP-ODC-SGT and AWP-ODC-GPU] - Jun Zhou
#UCERF3 "Grand" Inversion: A Distributed Simulated Annealing Approach - Kevin Milner
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#[http://hypocenter.usc.edu/research/CME_Meetings/Milner_Parallel_Simulated_Annealing.pptx UCERF3 "Grand" Inversion: A Distributed Simulated Annealing Approach] - Kevin Milner
 
#[http://hypocenter.usc.edu/research/CME_Meetings/Tape_CME_2011_slides.ppt California Velocity Model Development] - Carl Tape
 
#[http://hypocenter.usc.edu/research/CME_Meetings/Tape_CME_2011_slides.ppt California Velocity Model Development] - Carl Tape
  
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#Earthquake Simulators - James H. Dieterich
 
#Earthquake Simulators - James H. Dieterich
#Dynamic Rupture Modeling - Jeremy Kozdon
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#[http://hypocenter.usc.edu/research/CME_Meetings/Kozdon-CME-SCEC11.pdf Dynamic Rupture Modeling] - Jeremy Kozdon
#UCVM Development - Brad Aagaard
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#[http://hypocenter.usc.edu/research/CME_Meetings/Aagaard_USRcme.pdf UCVM Development] - Brad Aagaard
#Impact of small-scale CVM heterogeneity on Ground Motion Sims - Kim Olsen
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#[http://hypocenter.usc.edu/research/CME_Meetings/Olsen_scec11cme.ppt Impact of small-scale CVM heterogeneity on Ground Motion Sims] - Kim Olsen
#CyberShake 3.0 Map - Philip Maechling
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#[http://hypocenter.usc.edu/research/CME_Meetings/Maechling_CyberShake3_Estimates.pptx CyberShake 3.0 Map] - Philip Maechling
 
#[http://hypocenter.usc.edu/research/CME_Meetings/Cui_SCEC11_v2.pptx DOE and other Computational Science Research Proposals] - Yifeng Cui
 
#[http://hypocenter.usc.edu/research/CME_Meetings/Cui_SCEC11_v2.pptx DOE and other Computational Science Research Proposals] - Yifeng Cui
#NSF Earth Cube - David Okaya/Eva Zanzerkia  
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#[http://www.nsf.gov/geo/earthcube/ NSF Earth Cube] - Eva Zanzerkia  
#NSF Geoinformatics - TBD
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#[http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=503447 NSF Geoinformatics] - SCEC Science Planning
  
 
[[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,  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)]]
 
[[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,  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)]]
  
 
[[File:M8-1.0-Vmag-Height-Field (00153).png|256px|thumb|right|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)]]
 
[[File:M8-1.0-Vmag-Height-Field (00153).png|256px|thumb|right|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)]]
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== CME-related 2011 Meeting Posters ==
 +
 +
*[http://hypocenter.usc.edu/research/CME_Meetings/Kumar_bbp_scec_2011_v1.pdf Broadband Platform Poster] (3Mb) - Sandarsh Kumar et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Liukis_CSEPTestingCenterPosterFinal.pdf CSEP Testing Center Poster] (2.4Mb) - Maria Liukis et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Graves_scec2011_poster-v1.pdf Evaluation of CVM-H Riverside Basin] (7.1Mb) - Robert Graves et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Callaghan_CyberShake_poster_2011.pdf CyberShake 2011 Results Poster] (6.7Mb) - Scott Callaghan et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Small_UCVM_SCEC_AM_2011_v4.pdf Unified California Velocity Model Framework (UCVM)] (2.9Mb) - Patrick Small et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Rynge_pegasus-poster-scec-11-v2.pdf Pegasus Workflows Poster] (1.4Mb) - Mats Rynge et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Feng_SCEC2011_poster.pdf Quantifying Basin Coupling and Directivity] (65.8Mb) - Feng Wang et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Milner_parallel_sa_2011_poster.pdf Parallel Simulated Annealing] (4.7Mb) - Kevin Milner et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Lee_SCEC_2011_CMT_v1.pdf Centroid Moment Tensor] (3.7Mb) - En-Jui Lee et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Lee_SCEC_2011_F3DT_v1.pdf Full 3D Tomography] (14.6Mb) - En-Jui Lee et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Ma_scec2011_poster.pdf Station-to-Station Greens Functions] (5.2Mb) - Shuo Ma et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Kozdon_2011_SCEC_AMR.pdf Adaptive Mesh Refinement] (3.6Mb) - Jeremy Kozdon
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*[http://hypocenter.usc.edu/research/CME_Meetings/Song_SCEC11_Poster_Final.pdf AWP-ODC-SGT] (1Mb) - Shiyu Song et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Zhou_SCEC2011_Poster.pdf AWP-ODC-GPU] (1Mb) - Jun Zhou et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Isbiliroglu_SCEC_2011_Final.pdf Ground Motion and Building Motion Interactions] (3.8Mb) - Yigit Isbiliroglu et al
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*[http://hypocenter.usc.edu/research/CME_Meetings/Karaoglu_SCEC_2011.pdf 2Hz Northridge Simulation with Finite Elements] (5.3Mb) - Haydar Karaoglu et al
  
 
== CME Research Accomplishsments 2010-2011 ==
 
== CME Research Accomplishsments 2010-2011 ==
*[http://hypocenter.usc.edu/research/CME_Meetings/CME_RA_SAM_2011_v3.pdf CME Project Research Accomplishments 2010-2011]
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SCEC CME special project summarizes its research accomplishments for the 2011 SCEC annual meeting.
 
 
== CME-related 2011 Meeting Posters ==
 
  
*[http://hypocenter.usc.edu/research/CME_Meetings/Kumar_bbp_scec_2011_v1.pdf Broadband Platform Poster] (3Mb)
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*[http://hypocenter.usc.edu/research/CME_Meetings/CME_RA_SAM_2011_v3.pdf Summary of CME Project Research Accomplishments 2010-2011]
*[http://hypocenter.usc.edu/research/CME_Meetings/Liukis_CSEPTestingCenterPosterFinal.pdf CSEP Testing Center Poster] (2.4Mb)
 
*[http://hypocenter.usc.edu/research/CME_Meetings/Graves_scec2011_poster-v1.pdf Evaluation of CVM-H Riverside Basin] (7.1Mb)
 
*[http://hypocenter.usc.edu/research/CME_Meetings/Callaghan_CyberShake_poster_2011.pdf CyberShake 2011 Results Poster] (6.7Mb)
 
  
 
== CME-related Web Sites ==
 
== CME-related Web Sites ==

Latest revision as of 23:46, 19 October 2011

SCEC/CME Computational Science Planning Meeting 2011

Fig 0: Simulated Annealing results.(Image Credit: Kevin Milner (SCEC/USC), Morgan Page)
  • 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)
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)

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 10 minute limit including presentation and discussion.

Session One: 1:00pm - 2:20pm 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 - Mats Rynge
  5. Short-period EQ simulation, Vs_min effects, and DRM in Hercules - Jacobo Bielak
  6. California SI Inversion - En-Jui Lee
  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
  10. California Velocity Model Development - Carl Tape

Session Two: 2:30pm - 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. DOE and other Computational Science Research Proposals - Yifeng Cui
  7. NSF Earth Cube - Eva Zanzerkia
  8. NSF Geoinformatics - SCEC Science Planning
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)
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 Research Accomplishsments 2010-2011

SCEC CME special project summarizes its research accomplishments for the 2011 SCEC annual meeting.

CME-related Web Sites

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