Difference between revisions of "CVM-H"

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CVM-H v11.1 requires use of CVM-H v6.3 which is released under its original Harvard license. All CVM-H v11.1 not part of the CVM-H v6.3 distribution is released as part of CVM-H v11.1 under the Apache 2.0 license which is described here.
 
CVM-H v11.1 requires use of CVM-H v6.3 which is released under its original Harvard license. All CVM-H v11.1 not part of the CVM-H v6.3 distribution is released as part of CVM-H v11.1 under the Apache 2.0 license which is described here.
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*[[CVM-H License]]
  
 
== Release History ==
 
== Release History ==

Revision as of 02:16, 26 January 2011

SCEC Community Velocity Model - Harvard (CVM-H)

Overview

The CVM-H is a velocity model of crust and upper mantle structure in southern California developed by the SCEC community for use in fault systems analysis, strong ground motion prediction, and earthquake hazards assessment. The model describes seismic P- and S-wave velocities and densities, and is comprised of basin structures embedded in tomographic and teleseismic crust and upper mantle models.

This latest release of the CVM-H (11.1.0_RC) is an important milestone for SCEC, as it represents the integration of various model components, including fully 3D waveform tomographic results. The CVM-H 11.1.0 consists of basin structures defined using high-quality industry seismic reflection profiles and tens of thousands of direct velocity measurements from boreholes (Plesch et al., 2009; Süss and Shaw, 2003). The basin structures are also compatible with the locations and displacements of major faults represented in the SCEC Community Fault Model (CFM) (Plesch et al., 2007). These basin structures were used to develop travel time tomographic models of the crust (after Hauksson, 2000) extending to a depth of 35 km, and upper mantle teleseismic and surface wave models extending to a depth of 300 km (Prindle and Tanimoto, 2006). These various model components were integrated and used to perform a series of 3D adjoint tomographic inversions that highlight areas of the model that were responsible for mismatches between observed and synthetic waveforms (Tape et al, 2009). Sixteen tomographic iterations, requiring 6800 wavefield simulations, yielded perturbations to the starting model that have been incorporated in the latest model release. CVM-H 11.1.0 also incorporates a new Moho surface (Yan and Clayton, 2007) and an upgraded geotechnical layer (GTL) based on a Vs30 map (Ely 2010), the Vp-density scaling relationship, and the code that delivers the model.

Current Release

SCEC CVM-H is currently an initial release candidate, labeled 11.1.0_RC.

Dependencies

None.

Source code

SCEC CVM-H: cvmh_11.1.0_RC.tgz

md5sum: cvmh_11.1.0_RC.tgz.md5

Documentation

User Guide (includes installation instructions): CVM-H User Guide

Development version

If you're interested in working with the latest development version of the platform, you can check it out from:

svn co https://source.usc.edu/svn/cvmh/trunk

Details about working with the development version are provided in the User Guide.

Help

For assistance with the SCEC CVM-H, you may:

  • Email software@scec.org with specific questions

License

This software is released under two license agreements.

CVM-H v11.1 requires use of CVM-H v6.3 which is released under its original Harvard license. All CVM-H v11.1 not part of the CVM-H v6.3 distribution is released as part of CVM-H v11.1 under the Apache 2.0 license which is described here.

Release History

11.1.0 - January 2011 - Initial release.

See Also

References

  1. Suess, M. P., and J. H. Shaw, 2003: P-wave seismic velocity structure derived from sonic logs and industry reflection data in the Los Angeles basin, California, Journal of Geophysical Research, 108/B3.
  2. Plesch, A., C. Tape, J. H. Shaw, and members of the USR working group, 2009, CVM-H 6.0: Inversion integration, the San Joaquin Valley and other advances in the community velocity model, in 2009 Southern California Earthquake Center Annual Meeting, Proceedings and Abstracts, vol. 19, pp. 260–261.
  3. Tape, C., Q. Liu, A. Maggi, and J. Tromp, 2009: Adjoint tomography of the southern California crust, Science, v. 325, p. 988-992.
  4. Ely, G., 2010: Vs30 Derived GTL