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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 with take you to an alphabetically sorted list of all SCECpedia pages.

• List of All SCECpedia Pages
• Most Popular 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 may not be complete, so we recommend you use the List of All SCECpedia Pages link if you want a comprehensive list of all entries.

• Earthquake Early Warning
  • EEW Evaluation
  • ShakeAlert

• Transient Detection

• CyberShake
  • CyberShake 2.0

• UCVM
  • UCVM API
    • CVM-H
  • Z1.0 and Z2.5 SoCal Values
  • Community Velocity Model
  • Cvmbycols
  • Lin Thurber CVM

• ESP
• Early Science Program
• INCITE
• Open Science Grid

• Broadband Platform
  • Broadband User Guide

• M8
• Workflow Program Requirements
• Publications
• Goodness of Fit
• Standard Rupture Format

• OEF
• Software
  • Software License
• CME Project
  • CME Meeting 2010
• Full 3D Tomography
  • Tera3D

• SCEC Scientific Software Page
• SCEC Visualization Projects
  • GlyphSea
  • Geoff Ely Visualization Page
  • SCEC VDO
• OpenSHA
• Wall to Wall
• SCEC Websims Simulation Data Access
• Computational Pathways
• Computational Platforms
• ANSS Catalog
• CSEP
• Petascale Computing
• Coulomb Failure Stress
• Earthquake Response

• Collaboration Tools
• Software Testing
• Software Documentation
• Contact Information
• ESRI
• Git
• SAC
• TeraShake

Meetings, Conferences

• SSA
  • Grand Challenges in Data-Intensive Discovery
• TeraGrid/Blue Waters Symposium on Data-Intensive Analysis, Analytics, and Informatics
• AGU
• CME Response - ShakeOut 10/21/10

• Template

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)

Overviews and Summaries

Fig 2: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

Types of SCEC/CME Web Sites

The SCEC/CME collaboratory provides three levels of access to web-based project information. The levels differ on who can read and edit information on the web site. Default Read access is public to facilitate collaboration. Project private web pages are provided if needed.

• Public SCEC Project Pages
  • (Read Access: Public - Write Access: SCEC Communications Education and Outreach)
• SCECpedia Collaborative Wiki
  • (Read Access: Public - Write Access: SCEC)
• SCEC Private Wiki
  • (Read Access: SCEC - Write Access: SCEC)

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