C.4. Milestones and Schedule

The SCEC Community Modeling Environment will be developed by collaborative efforts between the SCEC institutions and ISI, SDSC, IRIS, and USGS. The research and development tasks will be supported by teams consisting nominally of supervisory staff, one or more post docs, and one or more graduate students. The teams will be constructed to ensure the linkage of expertise in information technology and geoscience, with supervisory staff in geoscience provided by SCEC, USGS, and IRIS, and supervisory staff in computer science provided by ISI and SDSC.

Geophysics activities will be supervised by primarily by senior scientists from the Scripps Institution of Oceanography, Carnegie Mellon University, University of California at Santa Barbara, University of Southern California, and San Diego State University. However, we expect many other geoscientists to be involved through their participation in SCEC research, which will be tightly coordinated with this project. Activities associated with knowledge-based collection management will be centered at the San Diego Supercomputer Center, while Grid, knowledge-base and knowledge-acquisition activities will be centered at the Information Sciences Institute. Integration activities will be the responsibility of all participants, but they will be coordinated by the P.I. and the SCEC Information Architect, who will act as Project Manager.

Each year of this five-year project will have an overarching goal and a series of specific objectives, listed below. For the purpose of indicating the division of task responsibilities, the efforts of USGS personnel, who will participate at no cost to this project (and are thus not in our budget), are not listed separately, but rather combined as part of SCEC.

Year 1: Constructing Basic Building Blocks

• Workshop to assess end-user needs for SCEC community models (SCEC/IRIS/SDSC/ISI).
• Ontology design and knowledge servers for Pathway 1 (SCEC/ISI).
• Workshop to structure initial SCEC community model components (SCEC/IRIS/SDSC/ISI).
• Extension of FISSURES data model to geodetic and geologic data sets (SCEC/IRIS).
• Deployment of initial Grid testbed with support for SCEC virtual organization (ISI/SDSC).
• Pathway assembly tool for Pathway 1 templates (ISI/SCEC/SDSC).
• Execution framework for Pathway 2 simulations (ISI/SCEC).
• Collection management including recording execution environment and results (SDSC).
• Delivery of tools and prototypes to SCEC community (SCEC/ISI/SDSC).

Year 2: Integration and Prototype System

• Initial integration of Grid, pathway assembly, collection management, and knowledge representation, focused on Pathway 1 specification and execution (SCEC/ISI/SDSC).
• End-to-end demonstration of integrated prototype for Pathway 1 (SCEC/ISI/SDSC).
• Workshops to demonstrate SCEC community model components to end-users (SCEC/IRIS/SDSC/ISI).
• Code verification and ontology design for Pathway 2 (SCEC/IRIS/ISI).
• Basic end-user interface for instantiation of simple pathways (ISI/SCEC).
• Knowledge base and collection integration through PowerLoom/Topic Map translation (ISI/SDSC).
• Delivery of tools and prototypes to SCEC community (SCEC/ISI/SDSC).

Year 3 : Initial Technology Transition and Complex Pathways

• Incorporation of resource constraints into Pathway assembly planning (ISI).
• Incorporation of Pathway 2 into end-to-end demonstration (SCEC/ISI/SDSC).
• Workshops to evaluate SCEC community model components by end-users (SCEC/IRIS/SDSC/ISI).
• Mediators to existing seismic collections (SDSC).
• Characterize of consistency between pathway resource constraints and simulation collection attributes (SDSC).
• Unified structural representation for Southern California (SCEC/ISI/SDSC).
• End-user interfaces for multi-pathway instantiation (ISI/SCEC).
• Design of simulation comparison tools for validating pathway results (SDSC).
• Delivery of tools and prototypes to SCEC and earthquake-engineering communities (SCEC/ISI/SDSC).

Year 4: Catalog Integration and Advanced Planning

• Investigate use of replanning to handle resource failure and unavailability (ISI).
• Workshops to plan enhancements to the SCEC community model components and extensions to EarthScope/USArray applications (SCEC/IRIS/SDSC/ISI).
• Mediators to existing seismic collections and simulation collections (SDSC).
• Analysis of consistency between pathway resource constraints and simulation collection attributes (SDSC).
• Code verification and ontology design for Pathway-4 inverse problems, including waveform inversion for 3D structure (SCEC/IRIS/ISI).
• Development of simulation comparison tools for validating pathway results (SDSC).
• Delivery of tools and prototypes to SCEC and IRIS communities (SCEC/IRIS/ISI/SDSC).

Year 5: Evaluation, Catalog Integration, and Transfer

• Integration of pathway assembly and execution planning (ISI).
• Workshops to promote use of the SCEC community model components by national geoscience community (SCEC/IRIS/SDSC/ISI).
• Extension of unified structural representation to other geographic regions (IRIS/SCEC).
• Mediators to researcher simulation collections for publishing output (SDSC).
• Validation of consistency between pathway resource constraints and simulation collection attributes (SDSC).
• Implementation of unified structural representation for the SCEC community (SCEC/ISI/SDSC).
• Characterization and analysis of accuracy of pathway models (SDSC).
• Technology transition to EarthScope (IRIS/SCEC).
• Delivery of tools and prototypes to national geoscience and earthquake-engineering communities (SCEC/IRIS/ISI/SDSC).

Section C.5: Knowledge Transfer, Education and Outrreach

Proposal: Table of Contents

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