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Community Modeling Environment (CME)

This is a collaborative wiki site for SCEC's Community Modeling Environment (CME). The CME is a collaborative, interdisciplinary research group that applies advanced computer science technology to the problem of seismic hazard analysis. This SCEC community wiki is configured to support our distributed research by providing a collection point for information about SCEC scientific computing research projects.

List of All SCECpedia Pages

The following link will take you to an alphabetically sorted list of all SCECpedia pages.

• List of All SCECpedia Pages

The following link will take you to a list of the most frequently visited SCECpedia pages .

• Most Frequently Visited Pages

Recent CME Wiki Entries

The following list of SCECpedia topics are sorted chronologically with new and recently updated entries shown at the top of the list. This list of topics is not complete, so we recommend you use the List of All SCECpedia Pages link if you want a comprehensive list of all entries.

Recently Updated Entries

• SI2 Meeting 2015
• CAAR
• CVM-H
• SEISM Project
• High_Frequency_CyberShake
  • CyberShake_Source_Filtering
  • CyberShake MCER
  • CyberShake_1Hz
• UGMS
  • SCEC UGMS Committee Meeting
  • CyberShake_MCER
• Broadband Platform
  • Broadband_Platform_15_3_0
• INCITE
• SCEC Web Development and Deployment
• 3D Modeling
• 2015 SCEC SSI Workshop
• HighF_v14.12
• Evaluation of SCEC Broadband Platform Phase 1 Ground Motion Simulations Results
• 2014 SCEC-ERI Summer School for Earthquake Science
• CFM-5
• Exascale Computing
• SCEC AM 2014
• SCEC Web Site
• Fall AGU 2014
• IDC Award Notice Nov. 2013
• NCEE Meeting 2014
• OLCF Users Meeting
• Chino Hills 1D and 3D
• Blue Water Project
• CVM-S5
• La Habra Simulations on Titan
• Kraken
• UseIT
• SSA
  • SSA_2014
• UCVM

• UCERF3
• SCEC Data Storage
• F3DT
• CVM-S5
• XP Bill of Rights
• IRIS DMS Meeting March 2014
• BBP 14.10 Image

CME Project Information

• Domain Reduction Method
• Geoinformatics Project
• Geoinformatics Phase II Project
• High-F Project
• SEISM Project
• PetaSHA3 Project
• High-F
• CyberShake Project
• Blue Waters
• INCITE
• CME Project

CME Software

• Broadband Platform
• UCVM 14.3.0
• UCERF3.0
• CSEP Distribution
• IRC

CME Studies

• CyberShake Study 14.2
• UCVM_v14.3
• Northridge 10Hz

CME Outcomes

• Publications
• Press Coverage

CME Activities

• SCEC UGMS Committee Meeting
• SI2 PI Meetings
• CISN
• SCEC Web Site
• SCEC Software
• CyberShake 1D Model
• UCVM
  • UCVM - Latest Version
  • UCVM Workshop
  • UCVM User Guide
  • CVM-H
  • CVM-SI
  • Community Velocity Model
  • Z1.0 and Z2.5 SoCal Values
  • Cvmbycols
  • Lin Thurber CVM
  • CVM-H User Guide
  • CVM Evaluation
• SWUS Project
• Hadley-Kanamori
• Northridge 10Hz
• Earthquake Simulation Animations
• SSA
• Credits
• CMM4
• AGU
  • AGU Fall 2014
  • AGU Fall 2013
  • AGU Fall 2012
  • AGU Fall 2011
• SC
  • SC13 SC'13 Denver
  • SC12 SC'12 Salt Lake City
  • UCERF3 Extended Earthquake Rupture Forecast
• CVM-S4.26 Proposed Final Model
• MFA
• GTL
• ShakeOut 2013 Response Planning
  • CME Meeting 2013
  • Broadband User Guide v13.9.0
  • Broadband Internal Wiki
• UCVM 13.9.0
  • UCVM 13.9.0 User Guide
  • UCVM 13.9.0 Advanced User Guide
  • UCVM 13.9.0 Developer Guide
• CVM-H
  • SEISM Project Internal Wiki
  • Software Documentation
  • Geoinformatics Project Internal wiki
• CISN Testing Center
• AWP ODC GPU

• SCEC Technical Activity Groups
  • Ground Motion Simulation Validation (GMSV) Coordination Meeting
• Related Project Sites
• Staff
• Wiki Statistics
• Usability
• XSEDE/PRACE Workflow Workshop
• California CVM Meeting - 3 April 2012
• Data Management
  • Data Management Meeting - 24 Feb 2012
• SCEC Visualization Projects
  • GlyphSea
• Cloud Computing
• Geoinformatics Project
  • CIG/Quest/IRIS Seismic Imaging Workshop
• NWSC ASD
  • SI2 Metrics
• CME Project
  • CME Meeting 2013
  • CME Meeting 2012
  • CME Meeting 2011
  • CME Meeting 2010
• Broadband Platform
  • Broadband Internal Wiki
  • Broadband Study 13.5 Internal Wiki Page
  • Broadband Study 13.6 Internal Wiki Page
• ALCF Early Science Program Investigators Meeting
• XSEDE13 Meeting Web Site - San Diego, California
• SC13 Meeting Web Site - Denver, Colorado
• CyberShake Study 13.4

• • CyberShake Data Request
  • Project Discussion Calls
  • CyberShake PBR Study
  • CyberShake Data
• Software Metrics
• CME Project
  • CME Meeting 2013
  • CME Meeting 2012
  • CME Meeting 2011
  • CME Meeting 2010
• Dublin Core Metadata
• UCVM
  • CVM-H
  • CVM-S
  • CVM-SI
  • CVM Evaluation
  • Next Gen UCVM Design Notes
  • UCVM User Guide
  • GTL
• CVMS4 versus CVMSI22 plots
• UCERF3 Images
• CyberShake Wiki - Internal
  • CyberShake_Study_2.2 - Completed 6 March 2013
  • CyberShake Study 2.3 - In Progress
  • CyberShake Modules - Internal
  • CyberShake Post Processing - Internal
  • CTC Results
• SCECpedia Public Wiki
  • SCEC Internal Wiki
• Broadband Platform
  • Broadband Release Info
  • Broadband Internal Wiki
  • Broadband User Guide v13.9.0
  • Production Run Readiness Review
  • Broadband Platform on HPCC
  • Broadband Sprints
  • Fling Study
  • Broadband Platform on HPCC
  • Broadband Validation Events
  • Broadband Platform Meeting - 7 March 2012
  • Broadband User Guide Current
  • PEER Data Format
  • Broadband Platform Working Group
• Blue Waters
• CyberShake
  • CyberShake Study 2.2
  • CyberShake Meeting - 4 April 2012
  • CyberShake Science Plan
  • CyberShake Software Plan
• Seismic Intensity
• Null Hypothesis

Fig 1: SCEC/CME computational pathways provide a scientific framework for improving seismic ground motion forecasts. The SCEC/CME Project began as an NSF information technology research (ITR) project in 2001. (Image Credit: Thomas H. Jordan)

Recent Earthquake Information

An important goal of SCEC earthquake research is to reduce the hazard from future earthquakes by developing physics-based predictive models of earthquake processes.

• USGS Recent California Earthquakes
• USGS Recent Worldwide Earthquakes

SCEC and CME-related Web Sites

Fig 1: SCEC Full 3D Inversion research is using ALCF Mira.

Fig 2: Petascale wave propagation simulation was run in April 2013 on NCCS Titan.

Fig 3: M8 Dynamic Rupture simulation was run in March 2010 on NICS Kraken.

Fig 4: M8 Wave propagation simulation was run in April 2010 on NCCS Jaguar.

Fig 5: Two minutes after origin time for the SCEC M8 simulation showing velocity magnitude through local elevation. (Image Credit: Amit Chourasia)

Fig 6: Geographical distribution of SCECpedia visitors between Jan 2014 and Jan 2015 (Image Credit: Google Analytics)

• Public CME Website
• Collaborative SCEC Wiki
• SCEC Home Page
• SDSC High Performance Geocomputing Laboratory
• PetaSHA3 Project
• CME Movies and Animations
• CVM-Toolkit
• SCEC Websims Data Management Site
• SCEC CSEP Testing Center

SCEC Computer Science Collaborative Organizations and Resource Providers

• SDSC
• SDSC HPGeoC
• SDSC Visualization Services
• Scientific Workflows at USC/ISI
• Fault Tolerant Computing at CSM
• USC HPCC
• PSC
• NICS
• NCCS
• TACC
• NCSA
• Blue Waters
• Open Science Grid

Overviews and Summaries

Fig 5:SCEC's M8 simulation of a Mag 8.0 rupture on southern San Andreas modeled wave propagation throughout a large region in Southern California as shown. (Image Credit: Geoff Ely)

• CME Project
• PetaSHA3 Project
• CME Scientific Software Projects

• SCEC People
• SCEC Special Projects
• SCEC Organizations

CME Research Support

Southern California Earthquake Center (SCEC) and SCEC/CME research is funded by National Science Foundation (NSF) Cooperative Agreements EAR-0106924 and USGS Cooperative Agreement 02HQAG0008, and NSF awards EAR- 074493, EAR-0949443, OCI-0832698, and OCI-0832698. This research is supported by an allocation of advanced computing resources provided by the National Science Foundation (NSF). Computations are performed on Kraken (a Cray XT5) at the National Institute for Computational Sciences. Computations and data management are performed at San Diego Supercomputer Center, where the iRODS Data System is used. The Texas Advanced Computing Center (TACC) at The University of Texas at Austin, the National Center for Supercomputer Applications (NCSA) and the Pittsburgh Supercomputer Center (PSC) provide HPC resources. Computations are supported by the University of Southern California Center for High-Performance Computing and Communications (HPCC). Our research uses HPC resources provided by the U.S. Department of Energy (DOE) through an Innovative and Novel Computational Impact on Theory and Experiment (INCITE) program allocation award. Computations were performed on Jaguar, which is part of the National Center for Computational Science (NCCS) at the Oak Ridge National Laboratory which is supported by under DOE Contract No. DE-AC05-00OR22725. This research uses resources of the Argonne Leadership Computing Facility at Argonne National Laboratory, which is supported by the Office of Science of the U.S. Department of Energy under contract DE-AC02- 06CH11357. The Ohio State University one-sided MPI Communication research was supported through NSF HECURA-1 (CCF- 0833169/139/155). This research received technical and user support through the Advanced Support for TeraGrid Applications (ASTA) program.

See Also

Additional information about SCEC earthquake system science research is available on related SCEC web sites including:

• SCEC Home Page
• List of All SCECpedia Pages
• Getting Wiki Help

License

Work on this site is licensed under a Creative Commons Attribution 3.0 Unported License.