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“Cyberinfrastructure to Support Ocean Observatories"

“Cyberinfrastructure to Support Ocean Observatories". Invited Talk to the Oceans Studies Board National Research Council UCSD, La Jolla, CA March 18, 2005. Dr. Larry Smarr Director, California Institute for Telecommunications and Information Technology Harry E. Gruber Professor,

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“Cyberinfrastructure to Support Ocean Observatories"

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  1. “Cyberinfrastructure to Support Ocean Observatories" Invited Talk to the Oceans Studies Board National Research Council UCSD, La Jolla, CA March 18, 2005 Dr. Larry Smarr Director, California Institute for Telecommunications and Information Technology Harry E. Gruber Professor, Dept. of Computer Science and Engineering Jacobs School of Engineering, UCSD Chair, NASA Earth System Science and Applications Advisory Committee

  2. EOSDIS Archive Holdings Are Adding Several TBs/Dayto Federated Data Repositories Source: Glenn Iona, EOSDIS Element Evolution Technical Working Group January 6-7, 2005

  3. Challenge: Average Throughput of NASA Data Products to End User is Only < 50 Megabits/s Forces a Non-Interactive Data Architecture Tested from GSFC-ICESAT January 2005 http://ensight.eos.nasa.gov/Missions/icesat/index.shtml

  4. Cyberinfrastructure Breakthrough—NLR ProvidesDedicated Optical Paths Between User and Data “National LambdaRail” Partnership Serves Very High-End Experimental and Research Applications 4 x 10Gb Wavelengths Initially Capable of 40 x 10Gb wavelengths at Buildout Links Two Dozen State and Regional Optical Networks First Light September 2004 DOE and NASA Using NLR

  5. Optical Circuits to the Pacific Rim and EuropeAlready Exist and Link to U.S. Northern Light UKLight Japan CERN PNWGP Manhattan Landing US IRNC (black) –20Gb NYC—Amsterdam –10Gb LA—Tokyo GEANT/I2 (orange) –30Gb London, etc.—NYC UK to US (red) –10Gb London—Chicago SURFnet to US (light blue) –10Gb Amsterdam—NYC –10Gb Amsterdam—Chicago Canadian CA*net4 to US (white) –30Gb Chicago-Canada-NYC –30Gb Chicago-Canada-Seattle Japan JGN II to US (grey) –10Gb Chicago—Tokyo European (not GEANT) (yellow) –10Gb Amsterdam—CERN –10Gb Prague—Amsterdam –2.5Gb Stockholm—Amsterdam –10Gb London—Amsterdam IEEAF lambdas (dark blue) –10Gb NYC—Amsterdam –10Gb Seattle—Tokyo CAVEwave/PacificWave (purple) –10Gb Chicago—Seattle—SD –10Gb Seattle—LA—SD

  6. The OptIPuter Project – Creating a LambdaGrid “Web” for Gigabyte Data Objects • NSF Large Information Technology Research Proposal • Calit2 (UCSD, UCI) and UIC Lead Campuses—Larry Smarr PI • Partnering Campuses: USC, SDSU, NW, TA&M, UvA, SARA, NASA • Industrial Partners • IBM, Sun, Telcordia, Chiaro, Calient, Glimmerglass, Lucent • $13.5 Million Over Five Years • Linking Global Scale Science Projects to User’s Linux Clusters NIH Biomedical Informatics NSF EarthScope and ORION Research Network http://ncmir.ucsd.edu/gallery.html siovizcenter.ucsd.edu/library/gallery/shoot1/index.shtml

  7. Earth and Planetary Sciences are an OptIPuter Large Data Object Visualization Driver EVL Varrier Autostereo 3D Image USGS 30 MPixel Portable Tiled Display SIO HIVE 3 MPixel Panoram Schwehr. K., C. Nishimura, C.L. Johnson, D. Kilb, and A. Nayak, "Visualization Tools Facilitate Geological Investigations of Mars Exploration Rover Landing Sites", IS&T/SPIE Electronic Imaging Proceedings, in press, 2005

  8. Enabling Scientists to Analyze Large Data Objects:UCSD Campus LambdaStore Architecture SIO Ocean Supercomputer Streaming Microscope IBM Storage Cluster Extreme Switch with 2 Ten Gbps Uplinks Source: Phil Papadopoulos, SDSC, Calit2

  9. Expanding the OptIPuter LambdaGridProviding 1-10 Gbps Bandwidth StarLight Chicago UIC EVL U Amsterdam PNWGP Seattle NU NetherLight Amsterdam CAVEwave/NLR NASA Ames NASA Goddard NASA JPL NLR NLR 2 2 ISI 2 SDSU CENIC Los Angeles GigaPOP CalREN-XD 8 UCI CICESE CENIC/Abilene Shared Network UCSD 8 via CUDI CENIC San Diego GigaPOP 1 GE Lambda 10 GE Lambda

  10. Interactive Retrieval and Hyperwall Display of Earth Sciences Images Using NLR Enables Scientists To Perform Coordinated Studies Of Multiple Remote-Sensing Datasets Source: Milt Halem & Randall Jones, NASA GSFC & Maxine Brown, UIC EVL Eric Sokolowsky Earth science data sets created by GSFC's Scientific Visualization Studio were retrieved across the NLR in real time from OptIPuter servers in Chicago and San Diego and from GSFC servers in McLean, VA, and displayed at the SC2004 in Pittsburgh http://esdcd.gsfc.nasa.gov/LNetphoto3.html

  11. Calit2 is Partnering with the New SIOCenter for Earth Observations and Applications • Viewing and Analyzing Earth Satellite Data Sets • High Accuracy Topographic Measurements • Project Atmospheric Brown Clouds • Climate Modeling • Coastal Zone Data Assimilation • Ocean Observatories

  12. NSF’s Ocean Observatories Initiative (OOI)Envisions Global, Regional, and Coastal Scales LEO15 Inset Courtesy of Rutgers University, Institute of Marine and Coastal Sciences

  13. A Broad Collaboratory to Prototype a Future Cyberinfrastructure of Interactive Ocean Observatories • LOOKING NSF ITR with PIs: • John Orcutt & Larry Smarr – UCSD • Scripps Institution of Oceanography • California Institute of Telecommunications and Information Technology • John Delaney & Ed Lazowska –UW • Neptune Project • Department of Computer Science • Mark Abbott – OSU • Collaborators at: • Southern California Coastal Ocean Observing System • Monterey Bay Aquarium Research Institute (MBARI) • Woods Hole Oceanographic Institute (WHOI) • CalPoly, San Luis Obispo • University of Victoria, CANARIE, NEPTUNE-Canada • Centro de Investigacion Cientifica y de Educacion Superior de Ensenada • National Center for Supercomputing Applications (NCSA) • University of Illinois @ Chicago (UIC) • Microsoft

  14. Coupling Regional and Coastal Ocean Observatories Using OptIPuter and Web/Grid Services www.neptune.washington.edu www.mbari.org/mars/ LOOKING: (Laboratory for the Ocean Observatory Knowledge Integration Grid) www.sccoos.org/

  15. Looking High Level System Architecture

  16. LOOKING Service Architecture

  17. LOOKING Builds on the Multi- Institutional SCCOOS Program, OptIPuter, and CENIC-XD Yellow—Initial LOOKING OptIPuter Backbone Over CENIC-XD Pilot Project Components • SCCOOS is Integrating: • Moorings • Ships • Autonomous Vehicles • Satellite Remote Sensing • Drifters • Long Range HF Radar • Near-Shore Waves/Currents (CDIP) • COAMPS Wind Model • Nested ROMS Models • Data Assimilation and Modeling • Data Systems www.cocmp.org www.sccoos.org/

  18. Use OptIPuter to Couple Data Assimilation Models to Remote Data Sources and Analysis in Near Real Time Goal is Real Time Local Digital Ocean Models Long Range HF Radar Similar Work on SoCal Coast at SIO Regional Ocean Modeling System (ROMS) http://ourocean.jpl.nasa.gov/

  19. MARS Cable Observatory Testbed – LOOKING Living Laboratory Central Lander MARS Installation Oct 2005 -Jan 2006 Tele-Operated Crawlers Source: Jim Bellingham, MBARI OptIPuter

  20. Goal – From Expedition to Cable Observatories with Streaming Stereo HDTV Robotic Cameras http://disney.go.com/disneypictures/aliensofthedeep/alienseduguide.pdf Scenes from The Aliens of the Deep, Directed by James Cameron & Steven Quale

  21. Proposed Experiment for iGrid 2005 –Remote Interactive HD Imaging of Deep Sea Vent Source John Delaney & Deborah Kelley, UWash

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