Difference between revisions of "CME Meeting 2013"

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*  [http://hypocenter.usc.edu/research/CME/Wang_SCEC2013_Poster_Wang&Jordan_v1.pdf Averaging-Based Factorization (Wang et al)] (16Mb pdf)
 
*  [http://hypocenter.usc.edu/research/CME/Wang_SCEC2013_Poster_Wang&Jordan_v1.pdf Averaging-Based Factorization (Wang et al)] (16Mb pdf)
 
*  [http://hypocenter.usc.edu/research/CME/Milner_2013_SCEC_Poster.pdf Multi-Fault Rupture Synchronization (Milner et al)] (1Mb pdf)
 
*  [http://hypocenter.usc.edu/research/CME/Milner_2013_SCEC_Poster.pdf Multi-Fault Rupture Synchronization (Milner et al)] (1Mb pdf)
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== CME Highlights in 2013 ==
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A small group of computer scientists and software developers working at USC participate in SCEC’s Community Modeling Environment collaboration that performs distributed inter-disciplinary earthquake system science research using high performance computers.
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One remarkable aspect of this group is the wide range of academic and computing organizing involved in this collaborative work. Over the last year, SCEC’s CME has involved research from many leading USC academic, governmental, and engineering organizations including U.C. San Diego, U.C. Los Angeles, U.C. Santa Barbara, Stanford, Caltech, Harvard, Carnegie Mellon, University of Wyoming, USGS Offices in Pasadena, Menlo Park, and Golden Colorado, and computer scientists from USC ISI, San Diego Supercomputer Center, Texas Advance Computing Center, National Center for Supercomputing Applications, Argonne Leadership Computing Facility, and Oak Ridge Leadership Computing Facility.
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In 2013, SCEC’s CME computational research included ground motion simulations using USC HPCC, high frequency deterministic earthquake simulations using Titan at Oak Ridge Leadership Computing Facility, earthquake rupture forecast model development using TACC Stampede, and physics-based probabilistic seismic hazard models on NCSA Blue Waters.
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SCEC’s CME group also develops and releases open-source scientific software for use by researchers. Currently available software includes, SCEC Broadband Platform for ground motion simulations, SCEC’s AWP-ODC software for parallel wave propagation software, SCEC’s Collaboratory for the Study of Earthquake Predictability earthquake forecast testing framework, and SCEC’s Unified Community Velocity Model software for building and using 3D earth structural models.
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*[http://hypocenter.usc.edu/research/CME/CME_Accomps_9Sept2013_v1.ppt CME Jan 2013 - Sept 2013 Highlights with Images] (11Mb ppt)
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== CME Animations 2013 ==
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*[http://hypocenter.usc.edu/research/viz/sYKEQ5.720x405.mov  Olsen/Cui/NCAR Chino Hills at 2.5Hz] (179MB .mov)
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*[http://hypocenter.usc.edu/research/viz/GlyphSea-720p-cbr6.mp4 Chourasia/Olsen/Cui/Smith Vector-Viz GlyphSea Technique] (146 MB .mp4)
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*[http://hypocenter.usc.edu/research/viz/Olsen_Chourasia_10Hz.mp4 Olsen/Cui/Day/Chourasia 10Hz Rough Fault Simulation] (13MB .mp4
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*[http://hypocenter.usc.edu/research/viz/so_vis+pl-1.mov Day/Olsen/Withers/Chourasia ShakeOut with Plastic Yielding Physics] (63Mb .mov)
  
 
== June 2013 CME Meeting Agenda ==
 
== June 2013 CME Meeting Agenda ==

Latest revision as of 19:54, 7 September 2013

CME at SCEC Annual Meeting September 2013

CME Highlights in 2013

A small group of computer scientists and software developers working at USC participate in SCEC’s Community Modeling Environment collaboration that performs distributed inter-disciplinary earthquake system science research using high performance computers.

One remarkable aspect of this group is the wide range of academic and computing organizing involved in this collaborative work. Over the last year, SCEC’s CME has involved research from many leading USC academic, governmental, and engineering organizations including U.C. San Diego, U.C. Los Angeles, U.C. Santa Barbara, Stanford, Caltech, Harvard, Carnegie Mellon, University of Wyoming, USGS Offices in Pasadena, Menlo Park, and Golden Colorado, and computer scientists from USC ISI, San Diego Supercomputer Center, Texas Advance Computing Center, National Center for Supercomputing Applications, Argonne Leadership Computing Facility, and Oak Ridge Leadership Computing Facility.

In 2013, SCEC’s CME computational research included ground motion simulations using USC HPCC, high frequency deterministic earthquake simulations using Titan at Oak Ridge Leadership Computing Facility, earthquake rupture forecast model development using TACC Stampede, and physics-based probabilistic seismic hazard models on NCSA Blue Waters.

SCEC’s CME group also develops and releases open-source scientific software for use by researchers. Currently available software includes, SCEC Broadband Platform for ground motion simulations, SCEC’s AWP-ODC software for parallel wave propagation software, SCEC’s Collaboratory for the Study of Earthquake Predictability earthquake forecast testing framework, and SCEC’s Unified Community Velocity Model software for building and using 3D earth structural models.

CME Animations 2013

June 2013 CME Meeting Agenda

08:00 - 09:30 Breakfast, Hilton Tapestry Room
Session 1: Broadband Platform
09:30 - 10:00 Broadband Platform (BBP) Developments F. Silva
10:00 - 10:30 Future Broadband Use and Development C. Goulet / R. Graves
Session 2: High-F
10:30 - 11:00 Hercules J. Bielak / R. Taborda
11:00 - 11:30 Dynamic Ruptures S. Day
11:30 - 12:00 Nonlinear/plastic effects and s/s heterogeneities K. Olsen
12:00 - 12:30 AWP Code Developments Y. Cui / H. Xu
12:30 - 13:00 Lunch Break, Hilton Tapestry Room
Session 3: Ground Motion Simulation Validation and Utilization
13:00 - 13:30 GMSV and Utilization Simulations N. Luco
Session 4: CyberShake
13:30 - 13:50 CyberShake Study 13.4 R. Graves
13:50 - 14:10 Averaging-based Factorization F. Wang
14:10 - 14:30 Future CyberShake T. Jordan
Session 5: Geoinformatics
14:30 - 15:00 CVM-S Inversions E. Lee
15:00 - 15:30 CVM-H Developments and Plans J. Shaw
15:30 - 16:00 Break
Session 6: CME Planning 2014
16:00 - 16:30 CME Project and Allocation Overview P. Maechling
16:30 - 17:30 Comp Research and Allocation Planning T. Jordan
17:30 Adjourn

Participants

Brad Aagaard (USGS), Greg Beroza (Stanford), Jacobo Bielak (CMU), Yifeng Cui (SDSC), Steven Day (SDSU), Eric Dunham (Stanford), Geoff Ely (ANL), David Gill (USC), Christine Goulet (PEER), Robert Graves (USGS), Tran Huynh (SCEC), Tom Jordan (SCEC), En-Jui Lee (Wyoming), Nicolas Luco (USGS), Philip Maechling (SCEC), John McRaney (SCEC), Kim Olsen (SDSU), John Shaw (Harvard), Fabio Silva (SCEC), Ricardo Taborda (CMU), Feng Wang (USC), and Heming Xu (SDSC)

Could Not Attend: Jack Baker (Stanford), Scott Callaghan (SCEC), Po Chen (Wyoming), Kevin Milner (SCEC), Andreas Plesch (Harvard), Zheqiang Shi (SDSU), Patrick Small (USC), Jonathan Stewart (UCLA), Carl Tape, Jeroen Tromp (Princeton), and Farzin Zareian (UCI)

Venue

Organizer: Thomas H. Jordan
Date: June 2, 2013 (9:30am - 5:30pm)
Location: Palm Canyon Room, Hilton Palm Springs Resort, Palm Springs, CA
Participation: by invitation only

Agenda Topics of Interest

  • Frequency Dependent Attenuation Models
  • High-F Project
    • CVM Developments and validations
    • High Frequency Dynamic Ruptures
    • High Frequency Ground motion Simulations
  • Implementation Interface between Modelers and GMSV Tag and Utilization Committee
  • Broadband Model changes
    • New broadband models EXSIM, Irakura, Composite Source Models
  • Full 3D inversions
    • CVM-S
    • CVM-H
    • Global
  • CVM Developments
    • Santa Maria Basin
    • Small-scale heterogeneities
    • Impact of GTL
  • Code Development
    • SORD
    • Hercules
    • AWP-ODC
    • AWP-GPU and AWP-SGT-GPU
  • Recent Results
    • SORD 10Hz ruptures
    • Olsen 10Hz simulations
    • Broadband Platform
    • CyberShake 13.4 production
  • SCEC Data management

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