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Back to the Future—The Increasing Importance of the States
in Setting the Research Agenda
Lecture in the Series
“Defining Values of Research and Technology: The University's Changing Role”
Center for Advanced Study
University of Illinois at Urbana-Champaign, IL
April 11, 2001
Land Grant InstitutionsFounding Principles
• The Universities Were Founded to:– Educate a Broad Workforce and Citizenry– Perform Research to Create More Productive
Economy– Provide Services to the Economic Creators
• Clear Coupling to Economy:– Agriculture– Manufacturing– Embedded in a Liberal Arts Education
• Morrill Act– Federal Support for State Functions
The Land Grant Values are Reflected in the University of Illinois Seal
The Critical Role of Federal Funding in Creating the Information Economy
Source: Brooks-Sutherland Report (1995)www.nap.edu/catalog/4948.html
The Critical Role of Federal Funding in Creating the Information Economy
Source: Brooks-Sutherland Report (1995)www.nap.edu/catalog/4948.html
PITAC Findings and Recommendations
• Federal Funding Has:– Seeded High-Risk Research– Yielded Many Billion-Dollar Industries – Trained Most of Our Leading IT Researchers – Created Ideas Which Freely Flow From
Universities and National Labs to Existing and New Companies
• The United States Must Not Only Continue, but Also Substantially Increase, Long-term Fundamental Information Technology Research Programs in Universities
Large Federal Programs Can Make Major Changes in Infrastructure
• NSF Supercomputer Centers Program– Access to Supercomputers– Large Dataset Archive– NSFnet– Scientific Visualization and Virtual Reality– The Web Browser and Server Software
• Partnerships in Advanced Computational Infrastructure (PACI)– Access Grid– Superclusters– User Portals– Optical and International Networks– Distributed Terascale Facility
Characteristics of PACI
• Federal Government is Primary Fund Source– Defines the Program, Holds the Competition– Evaluates the Progress
• State Supports Fed Initiative Thru Cost Sharing– Major Source for Staff Salary– Extra Funds for New Buildings
• Industrial Partners Leverage Federal Funding:– Proprietary Projects Which Led to New Capabilities– Funds for New Initiatives – Focus on Large Companies Using Information Tech.
• Community Outreach Created New Organizations – CCnet
Private Donors Can Link Public Universities, Industry, and Federal Funds
• UIUC Beckman Institute– $30M Private Donor– Recurring State
Operational Funds– New Building and
Facilities– Enhances Federal
Funding Opportunities– Active Tech Transfer– Strong Overlap with
NCSA/Alliance
Biological Intelligence
Human-Computer Intelligent Interaction
Molecular and Electronic Nanostructures
Governor Davis Created New Institutes for Science, Innovation, and Tech Transfer
UCSBUCLA
The California NanoSystems Institute
UCSFUCB
The California Institute for Bioengineering, Biotechnology,
and Quantitative Biomedical Research
UCI
UCSD
The California Institute for Telecommunications
and Information Technology
The Center for Information Technology Research
in the Interest of Society(Proposed-UCB, UCD, UCSC, UCM)
UCSC
California Institutes Characteristics
• State Provides Core Funding– Defined the Overall Structure– Allowed UC Campuses to Choose Research Topics– Holds the Competition– Funds for New Buildings and Equipment– Major Source for Staff Salary (proposed)
• Requirement for 2:1 Cost Sharing– State Seeks Leverage– Increase Competitiveness for Federal Grants– Tight Coupling with Industry
UC San Diego and UC Irvine California Institute for Telecommunications and Information Technology
• New Funding Model (4 Years)– State $100M– Industry $140M– Private $30 M– Campus $30M– Federal $100-200M (anticipated)– Total $400-500M
• Institute Directors– Larry Smarr (UCSD), Institute Director– Ron Graham (UCSD), Institute Chief Scientist– Ramesh Rao, UCSD Campus Director– Peter Rentzepis, UCI Campus Director
www.calit2.net
• 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 of Data Everywhere
– Scalable Computing Power
Beyond Today’s Internet
Complex Problems Require a New Research and Education Framework
www.calit2.net
220 UCSD & UCI FacultyWorking in Multidisciplinary Teams
With Students, Industry, and the Community
System Integrated ApproachFocus on Intersections
The Southern High Tech CoastIs Well Organized for Partnering
• From Bandwidth Bay to Wireless Valley– 70,000 Fiber Strand-Miles Under Downtown SD– Nation’s Center for Wireless Companies
• San Diego Telecom Council – www.sdtelecomcouncil.org – 200 Member Companies– SIGs on Optical, Wireless, Satellite, etc.
• UCSD CONNECT – www.connect.org – UCSD Program in Technology and Entrepreneurship
• Many Others– BIOCOM – Mayor’s Science and Technology Commission– UCI Chief Executive Roundtable– …
A Broad Partnership Response from the Private Sector
Akamai Boeing
BroadcomAMCC CAIMISCompaq
Conexant Copper Mountain
EmulexEnterprise Partners VC
EntropiaEricsson
Global PhotonIBM
IdeaEdge VenturesIntersil
Irvine SensorsLeap Wireless
Litton IndustriesMedExpert
Merck Microsoft
Mission VenturesNCR
Newport CorporationOrincon
Panoram Technologies Printronix
QUALCOMMQuantum
R.W. Johnson Pharmaceutical RISAIC
SciFrameSeagate Storage
Silicon Wave Sony
STMicroelectronicsSun Microsystems
TeraBurst Networks Texas InstrumentsUCSD Healthcare The Unwired Fund
WebEx
ComputersCommunications
SoftwareSensors
BiomedicalStartups
Venture Firms
Large Partners>$10M Over 4 Years
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
The Institute is Built on Existing UCSD/UCI Faculty Strengths
Broadband Wireless
LOW-POWEREDCIRCUITRY
ANTENNAS AND PROPAGATION
COMMUNICATIONTHEORY
COMMUNICATIONNETWORKS
MULTIMEDIAAPPLICATIONS
RFMixed A/D
ASICMaterials
Smart AntennasAdaptive Arrays
ModulationChannel CodingMultiple Access
Compression
ArchitectureMedia Access
SchedulingEnd-to-End QoS
Hand-Off
ChangingEnvironment
ProtocolsMulti-Resolution
Center for Wireless Communications
Source: UCSD CWC
MicroSensors Will Radically Alterthe Human-Computer Interface
Valveless Microfluidics
Mechanical Stress and Acceleration Sensors
Micro Optical Assemblies(Lenses and Mirrors)
MEMS structures fabricated and tested at the UCI Integrated Nanosystems Research Facility
0.1 mm
The Perfect Storm: Convergence of Engineering with BioMed, Physics, & IT
5 nanometersHuman Rhinovirus
IBM Quantum CorralIron Atoms on Copper400x
Magnification
New Clean Facilities
VCSELaser
500x Magnification 2 mm
Nanogen MicroArray
The UCSD Cal-(IT)2 BuildingPreliminary Design
• New Media Arts Spaces– Research Lab– Visualization Labs– Audiovisual Editing Facilities– Gallery Space– Helping Design Auditorium
Occupancy 2004220,000 Gross SF
Cal-(IT)2 Will Seek to Foster Links Between Art, Technology, & Science
“UCSD ”
½ Mile
•Commodity Internet, Internet2•High-speed WAN (OC48+)•Link UCSD and UCI
• Campus Wireless
The UCSD “Living Grid Laboratory”—Fiber, Wireless, Compute, Data, Software
SIO
SDSC
CS
ChemMed
Eng. / Cal-(IT)2
Hosp
• High-speed optical core• 8 Gigabit now• 80 Gigabit in 18 months• 1 Terabit in 36 Months
Source: Phil Papadopoulos, SDSC
Institute Relies on PACI Infrastructure and Developments
802.11b Wireless
Interactive Access to:• State of Computer• Job Status• Application Codes
The High PerformanceWireless Research and Education Network
NSF FundedPI, Hans-Werner Braun, SDSC
Co-PI, Frank Vernon, SIO45mbps Duplex Backbone
http://hpwren.ucsd.edu/Presentations/HPWREN
Wireless Antennas Anchor Network High Speed Backbone
http://hpwren.ucsd.edu/Presentations/HPWREN
Source: Hans-Werner Braun, SDSC
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
The Wireless Internet Will Improve the Safety of California’s 25,000 Bridges
New Bay Bridge Tower with Lateral Shear Links
Cal-(IT)2 WillDevelop and Install
Wireless Sensor ArraysLinked to
Crisis Management Control Rooms
Source: UCSD Structural Engineering Dept.
High Resolution Data Analysis FacilityLinked by Optical Networks to PACI TeraGrid
Planned for Fall 2001 at SIOSupport from SDSC and SDSU
Panoram Technologies, SGI, Sun, TeraBurst Networks,
Cox Communications, Global PhotonInstitute Industrial Partners
The Institute Will Expand Our CapabilitiesUsing NCSA/Alliance Developments
• Cluster in a Box
• Computational Grid Software in a Box
• Access Grid Software In a Box
• Display Wall in a Box
Source: Dan Reed, NCSA Alliance
Can Use of These Technologies Help Us Avoid the Downsides of Prolonged Growth?
• Add Wireless Sensor Array
• Build GIS Data• Focus on:
– Pollution– Water Cycle– Earthquakes– Bridges– Traffic– Policy
• Work with the Community to Adapt to Growth
HuntingtonBeach
Mission Bay
San Diego Bay
UCSD
UCI
High Tech Coast
Wireless “Pad” Web Interface
The Institute Facilitates Faculty Teams to Compete for Large Federal Grants
Deep Web
Surface Web
Proposal-Form a National Scale Testbed for Federating Multi-scale Brain Databases
Using NIH High Field NMR Centers
Source: Mark Ellisman, UCSD
DukeUCLA
Cal Tech
StanfordU. Of MN
Harvard
NCRR Imaging and Computing Resources UCSD
Cal-(IT)2SDSC
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