Growing importance of metadata for synthetics: Calculating and Sharing Synthetic Seismic Data

1. Growing importance of metadata for synthetics:Calculating and Sharing Synthetic Seismic Data Dogan SeberUniversity of California, San DiegoSan Diego Supercomputer Center

2. Metadata: Two definitions • Used to refer to “attributes in data sets” • Used as “data about data: archival information for a data set following a certain standard (e.g, Dublin Core, FGDC)”

3. Challenges faced in a community-based synthetic seismogram calculations and exchange • Inaccessibility of software • Complexity of software • Lack of computational resources • Lack of reliable high resolution earth models • Lack of data exchange standards and metadata

4. What IT could offer … • The Grid • Distributed computing environment (e.g., TeraGrid) • Seamless access to distributed data resources (e.g., GEON) • Service-based architecture design (e.g., Web services) • Metadata (in XML format?) • Attribute level • Archival/Librarian level

5. An Example from GEON • Grid-enabled synthetic seismogram calculation system for research and education • In collaboration with LLNL (Bill Glassley and Shawn Larsen) • Service-based access to resources and data • Sharable control files for reproducible calculations • Long term archival of results

6. 3D Seismic Wave Propagation

7. HPCCenters • Earthquakes • Stations • Waveform IRIS LLNL SDSC Gsat Digital Libraries/GEON Data Grid Earth model Earth model Earth model Modeling earthquake recordings in 2D/3D environment to study the interior of the Earth e3d