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All Hands Meeting

All Hands Meeting. Opening Talk UCSD La Jolla, CA January 27, 2001. The Emerging Brilliant Cloud A Mobile Internet Powered by a Planetary Computer. Wireless Access--Anywhere, Anytime Broadband to the Home and Small Businesses Vast Increase in Internet End Points Embedded Processors

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All Hands Meeting

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  1. All Hands Meeting Opening Talk UCSD La Jolla, CA January 27, 2001

  2. The Emerging Brilliant CloudA Mobile Internet Powered by a Planetary Computer • Wireless Access--Anywhere, Anytime • Broadband to the Home and Small Businesses • Vast Increase in Internet End Points • Embedded Processors • Sensors and Actuators • Information Appliances • Highly Parallel Light Waves Through Fiber • Emergence of a Distributed Planetary Computer • Storage everywhere • Scalable computing power “The all optical fibersphere in the center finds its complement in the wireless ethersphere on the edge of the network.” --George Gilder

  3. The Institute Management • Larry Smarr (UCSD), Institute Director • Ron Graham (UCSD), Institute Chief Scientist • Ramesh Rao, Director, UCSD Division • Peter Rentzepis, Director, UCI Division • Stephanie Sides, Institute Director of Communications • Bob Conn, Bill Parker, Steering Committee Co-Chairs • Phil Smith, Forest Baskett, External Advisory Board Co-Chairs

  4. A Broad Partnership Response from the Private Sector Akamai Boeing Broadcom AMCC CAIMIS Compaq Conexant Copper Mountain Emulex Enterprise Partners VC Entropia Ericsson Global Photon IBM IdeaEdge Ventures Intersil Irvine Sensors Leap Wireless Litton Industries MedExpert Merck Microsoft Mission Ventures NCR Newport Corporation Orincon Panoram Technologies Printronix QUALCOMM Quantum R.W. Johnson Pharmaceutical RI SAIC SciFrame Seagate Storage Silicon Wave Sony STMicroelectronics Sun Microsystems TeraBurst Networks Texas Instruments UCSD Healthcare The Unwired Fund WebEx Computers Communications Software Sensors Biomedical Startups Venture Firms

  5. Elements of the Cal -(IT)2 Industrial Partnerships • Endowed Chairs for Professors • Start-Up Support for Young Faculty • Graduate Student Fellowships • Research and Academic Professionals • Sponsored Research Programs • Equipment Donations for Cal-(IT)2 and Campus • Named Laboratories in new Institute Buildings • Pro Bono Services and Software

  6. San Diego Supercomputer Center Cal(IT)2 Research & Infrastructure Partner Areas of Strength & Leadership for Initial Interactions between Cal(IT)2 and Clusters Phil Papadopoulos Networking and Wireless Phil Papadopoulos, Frank Dwyer, Ronn Ritke, kc claffy, Hans-Werner Braun Data Mining/Metadata/AI Chaitan Baru, Reagan Moore, Tony Fountain Enviroinformatics/Observing Systems Alison Withey Visualization/GIS/Augmented Reality Mike Bailey, John Moreland Jay Boisseau, Mary Thomas, Allan Snavely Computing and Portals Core IT Infrastructure and Integration Mike Vildibill, Frank Dwyer, Phil Andrews, Phil P. Computer Security Infrastructure Tom Perrine Education/Outreach Ann Redelfs, Kim Baldridge, Theresa Boisseau Bioinformatics/Digitally Enabled Med./ Comp. Chemistry/Biology John Wooley, Phil Bourne, Shankar Subramaniam, Mark Ellisman, Mike Gribskov, Kim Baldridge Peter Arzberger, Anke Kamrath, Phil Papadopoulos, Chaitan Baru, Alison Withey Management

  7. Complex Problems Require a New Research and Education Framework 220 UCSD & UCI Faculty Working in Multidisciplinary Teams With Students, Industry, and the Community www.calit2.net

  8. Endpoints of the New Internet • Potential Near Term Cross Cutting Projects • Create a Prototype of Integrated Sensor, Wireless, Battery, GPS • Identify What Sensor Types are Ready for Deployment • Set up Optical Switching Evaluation Facility • Define Institute Clean Rooms and Instruments • Begin Wireless Integration of Biosensors • Potential Long Range Basic Research • Architecture and Design Tools for Wireless “Lab on a Chip” • Integration of DNA Arrays with Chemical and Physical Sensors • Develop Team for Quantum Computing and Communications • New Concepts for Ultra Long Life Power Sources for Field Devices • Privacy and Information Security Policies for Access to Data Note this Theme Title isn’t the Right Set of Words Needs to Include More M&D and Photonics

  9. Gradually Our Bodies Will Move “On-Line” Example: Israeli Video Pill Wireless Colonoscopy www.givenimaging.com

  10. Cal -(IT)2 Researchers Will Focus on Embedded Intelligence “System Chips” Protocol Stacks Wireless RTOS Network Transport Data Link Physical sensors Protocol Processors Reconf. Logic RF Memory DSP Processors SoC Design Methodologies Applications Sw/Silicon/MEMS Implementation • Now: • Develop MEMS Prototype for Coupling Sensors into SoC • Create SoC Design Methodologies • In Ten Years: • The Big: eg., Terabit Optical Core, Gigabit Wireless, ... • The Small: eg., Pervasive Self-powered Sensor “Motes” • The Cheap: eg., One-Cent Radios Source: Rajesh Gupta, UCI Center for Embedded Computer Systems Source: Sujit Dey, UCSD ECE

  11. Nanotechnology Is Becoming Essential for Photonics Source: UCSD Ultrafast and Nanoscale Optics Group, Shaya Fainman

  12. Possible Multiple Qubit Quantum Computer 500 nm • SEM picture of posts fabricated at the Cornell Nanofabrication Facility • PI John Goodkind (UCSD Physics) & Roberto Panepucci of the CNF • Electrons Floating over Liquid He • One Electron per Gold Post NSF ITR PROGRAM CASE WESTERN RESERVE UNIVERSITY/ UCSD/MICHIGAN STATE

  13. Nanotechnology Blurs the Distinction Between Biology and Physics Human Rhinovirus IBM Quantum Corral Iron Atoms on Copper 50 nanometers

  14. Architecting the Living Laboratories • Potential Near Term Cross Cutting Projects • Develop Plan for Wireless/Optical Grids on and Between Campuses • Deploy Several High Bandwidth Wireless Internet Systems • Architecture Planning for Smart House, Sixth College • Define Telecom, IT Needs for Arts Performance Spaces • Artificial Intelligence Technology Watch • Policy and Comm./CS Study of Spectrum Interference in Unlicensed Regime • Potential Long Term Basic Research • Integrate Theoretical and Measurement Approaches to Scalable Networks • Wireless Software Extensions of the Grid • New Highly Scalable Algorithms for Bioinformatics • Security and Authentication for Wireless Internets • Quality of Service in Wireless Internet • Data Structures to Support Biological and Environmental Sciences • Emergence of Mass Markets from Wireless Internet and Home Broadband

  15. The UCSD “Living Laboratory”—Fiber, Wireless, Compute, Data, Software • Commodity Internet, Internet2 • High-speed WAN (OC48+) • Link UCSD and UCI SDSC • High-speed optical core • 8 Gigabit now • 80 Gigabit in 18 months • 1 Terabit in 36 Months Eng. / Cal-(IT)2 CS Hosp Med Chem • Campus Wireless ½ Mile SIO Source: Phil Papadopoulos

  16. Augmented Reality Requires Overlaying the Physical and Cyber Realities Source: Virginia Tech/Univ. Illinois, MIT, Univ Washington, UCSD

  17. Cal-(IT)2 Will Pioneer Links Between Art, Technology, & Science ” “UCSD

  18. Web Interface to Grid ComputingThe NPACI GridPort Architecture 802.11b Wireless • Interactive Access to: • State of Computer • Job Status • Application Codes

  19. Bridging Internet Data Collection and Theoretical Scaling Analysis • Network Graph Theory • Sparse • Clustered • Hierarchical • Power Laws • Goal • IT First Principles • Quantitative Laws • Verify Against Reality • Use for Optimal Design 100,000 nodes Colored by Node IP Address Bill Cheswick, Lucent Bell Labs and Hal Burch, CMU Fan Chung Graham, UCSD www.caida.org/projects/internetatlas/gallery/

  20. Instrumenting the High Tech Coast • Potential Near Term Cross Cutting Projects • Create a GIS Database of the Region • Existing Sensor Census and Integration of Their Data Streams • Build a Prototype Control Room for Data Fusion, Analysis, & Visualization • Field and Lab Tests of “Smart Bridges” Concepts • Establish Instrumented Traffic Probe Fleet • Develop Learning Platform Courses Using Realtime Data and GIS • Potential Long Term Basic Research • Adapt Earth Movement GPS Algorithms to Vehicle Tracking • Develop Software and System Architecture for AUTONET • Use Sensor Net Simulations to Optimize Systems of Sensors • Create a Coastal Biological Detection SensorNet • Policy and Management of Environmental and Civil Infrastructure Systems

  21. Cal-(IT)2 Will Bring the Southern High Tech Coast into Cyberspace • Partnering with: • UCSD SDSC • UCSD SIO • UCI ITS • Add Wireless Sensor Array • Build GIS Data • Focus on: • Pollution • Water Cycle • Earthquakes • Bridges • Traffic • Policy UCI Huntington Beach High Tech Coast UCSD Mission Bay San Diego Bay

  22. The High PerformanceWireless Research and Education Network • Cal-(IT)2 Will Build on This Pioneering Experiment • Add New Science Sensor Arrays • Instrument Civil Infrastructure • Try Out New Wireless Technologies • Data Analysis • Outreach and Education NSF Funded PI, Hans-Werner Braun, SDSC Co-PI, Frank Vernon, SIO 45mbps Duplex Backbone

  23. The Wireless Internet Adds Bio-Chemical-Physical Sensors to the Grid • From Experiments to Wireless Infrastructure • Scripps Institution of Oceanography • San Diego Supercomputer Center • Cal-(IT)2 • Building on Pioneering Work of Hans-Werner Braun & Frank Vernon Source: John Orcutt, SIO

  24. The Wireless Internet Will Improve the Safety of California’s 25,000 Bridges New Bay Bridge Tower with Lateral Shear Links Cal-(IT)2 Will Develop and Install Wireless Sensor Arrays Linking Orange and San Diego County Bridges to Crisis Management Control Rooms Combined Efforts of UCI and UCSD

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