Transcript Internet
California Institute for Telecommunications
and Information Technology
Invited Joint Briefing to
UCSD CONNECT & the San Diego Telecom Council
La Jolla, CA
January 25, 2001
By Larry Smarr, Director, Cal-(IT)2
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
– 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
The Internet is Poised to Move
Throughout the Physical World
Radio
(1940s)
Internet
(1990s)
Layered Software Approach to
Building the Planetary Grid
Science Portals & Workbenches
Twenty-First Century Applications
Access
Grid
Computational
Grid
Access Services &
Technology
Computational Services
Grid Services
(resource independent)
Grid Fabric
(resource dependent)
“A source book for the history
of the future” -- Vint Cerf
Networking, Devices and Systems
Edited by Ian Foster and Carl Kesselman
www.mkp.com/grids
P
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m
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The Era of Guerilla Infrastructure
• Guerilla vs. Commercial Infrastructure
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Bottom Up
Completely Decentralized
Self-Assembling
Use at Your Own Risk
Paves the Way for Commercial Deployment
• Examples
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NSFnetInternet
NCSA MosaicWeb
NapsterPeer-to-Peer Storage
SETI@homePeer-to-Peer Computing
IEEE 802.11Broadband Wireless Internet
UC San Diego and UC Irvine
California Institute for Telecommunications and Information Technology
• New Funding Model (4 Years)
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State $100M
Industry $140M
Private $30 M
Campus $30M
Federal $100-200M (anticipated)
Total $400-500M
• Institute Directors
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Larry Smarr (UCSD), Institute Director
Ron Graham (UCSD), Institute Chief Scientist
Ramesh Rao, Director, UCSD Division
Peter Rentzepis, Director, UCI Division
www.calit2.net
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
Computers
Communications
Software
Sensors
Biomedical
Startups
Venture Firms
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
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
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
Novel Materials and Devices
are Needed in Every Part of the New Internet
New Clean Room Facilites
at Both Campuses
Materials and Devices Team, UCSD
Creating Tiny and Inexpensive
Wireless Internet Sensors Combining…
Fluids
Stresses and Strains
0.1 millimeter
100,000 nanometers
Optics and Lasers
UCI Integrated Nanosystems Research Facility
Cal -(IT)2 Researchers Will Focus on
Semiconductor “System Chips”
• Two Trends:
– Increasing Use of “Embedded Intelligence”
– Networking of Embedded Intelligence
• 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
– Short-range (10-100m), Low Power (10nJ/bit), Low Bit
Rate (1-100kbps)
• The Consequence:
– Smart Spaces, Intelligent Interfaces, Ad Hoc Networks
Source: Rajesh Gupta, UCI Center for
Embedded Computer Systems
Goal: Design of Configurable Wireless Embedded
Sensing/Computing/Communicating Appliances
Wireless
RTOS
Applications
sensors Reconf.
Logic
Processors
Memory
Protocol
Processors
Protocol
Stacks
Network
Transport
Data Link
Physical
RF
Protocols
Sw/Hw/Sensor/RF
Co-design
Reconfiguration
DSP
SoC Design
Methodologies
Sw/Silicon/MEMS
Implementation
Source: Sujit Dey, UCSD ECE
Internet
Nanotechnology Is Becoming
Essential for Photonics
Source: UCSD Ultrafast
and Nanoscale Optics Group,
Shaya Fainman
Near Term Fiber Optics Goal:
Build an International Lambda Grid
• Establish PACI High Performance Network
– SDSC to NCSA to PSC LambdaNet
• Link to:
– State Dark Fiber
– Metropolitan Optical Switched Networks
– Campus Optical Grids
– International Optical Research Networks
• NSF Fund Missing Dark Fiber Links For:
– Scientific Applications
– Network Research
From Telephone Conference Calls to
Access Grid International Video Meetings
Linking Researchers with IP Multicast from
UCSD, UCI and Partners
Access Grid Lead-Argonne
NSF STARTAP Lead-UIC’s Elec. Vis. Lab
Bridging Internet Data Collection and
Theoretical Scaling Analysis
• Network Graph Theory
100,000 nodes Colored by Node IP Address
Bill Cheswick, Lucent Bell Labs and Hal Burch, CMU
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Sparse
Clustered
Hierarchical
Power Laws
• Goal
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IT First Principles
Quantitative Laws
Verify Against Reality
Use for Optimal Design
Fan Chung Graham, UCSD
www.caida.org/projects/internetatlas/gallery/
CWC Brings Deep Wireless Expertise to
the Heart of The Institute
Center for
Wireless Communications
Broadband Wireless
LOW-POWERED
CIRCUITRY
RF
Mixed A/D
ASIC
Materials
ANTENNAS AND
PROPAGATION
COMMUNICATION
THEORY
COMMUNICATION
NETWORKS
MULTIMEDIA
APPLICATIONS
Architecture
Changing
Modulation
Media Access
Smart Antennas
Environment
Channel
Coding
Scheduling
Adaptive Arrays
Protocols
Multiple Access End-to-End QoS Multi-Resolution
Compression
Hand-Off
Broadband Wireless Internet is Here Today
• Create Wireless Internet “Watering Holes”
– Ad Hoc IEEE 802.11 Domains
– Real Broadband--11 mbps Going to 54 mbps
– Home, Neighborhoods, Office
– MobileStar--Admiral Clubs, Major Hotels, Restaurants, …
– UCSD—Key Campus Buildings, Dorms, Coffee Shops…
• Upsides
– Ease of Use
– Unlicensed so Anyone can Be a Wireless ISP
– Will Accelerate Innovation—”Living in the Future”
• Downsides
– Not Secure
– Shared Bandwidth
– Short Range Coverage
“The future is already here, it’s just not evenly distributed”
William Gibson, Author of Neuromancer
The UCSD “Living Laboratory”—
Fiber, Wireless, Compute, Data, Software
•Commodity Internet, Internet2
•High-speed WAN (OC48+)
•Remote Wireless Data Ingestion
SDSC
• High-speed optical core
• 8 Gigabit now
• 80 Gigabit in 18 months
• 1 Terabit in 36 Months
CS
Eng. / Cal-(IT)2
Hosp
Med
Chem
• Campus Wireless
SIO
½ Mile
Web Interface to Grid Computing
The NPACI GridPort Architecture
802.11b Wireless
Interactive Access to:
• State of Computer
• Job Status
• Application Codes
Cal-(IT)2 Will Bring the
Southern High Tech Coast into Cyberspace
• Partnering with:
– UCSD SDSC
– UCSD SIO
– UCI ITS
UCI
Huntington
Beach
• Add Wireless
Sensor Array
• Build GIS Data
• Focus on:
High Tech Coast
UCSD
Mission Bay
San Diego Bay
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Pollution
Water Cycle
Earthquakes
Bridges
Traffic
Policy
The High Performance
Wireless 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
NSF Funded
PI, Hans-Werner Braun, SDSC
Co-PI, Frank Vernon, SIO
45mbps Duplex Backbone
• Outreach and
Education
The Wireless Internet Adds
Bio-Chemical-Physical Sensors to the Grid
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From Experiments to
Wireless Infrastructure
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Scripps Institution of
Oceanography
San Diego
Supercomputer Center
Cal-(IT)2
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Source: John Orcutt, SIO
Building on Pioneering
Work of Hans-Werner
Braun & Frank Vernon
Bringing the Civil Infrastructure Online
New Bay Bridge Tower
with Lateral Shear Links
Wireless Sensor Arrays
Linked to Crisis Management
Control Rooms
Source: UCSD Structural Engineering Dept.
Gradually Our Bodies Will Move On-Line
• Example of New Sensors—Israeli Video Pill
– Battery, Light, Video Camera
– Wireless Transmitter
– Images Stored on Hip
• Next Step—Putting You On-Line!
– Key Metabolic and Physical Variables
– Model -- Dozens of Embedded Processors
Inside of our Vehicles
– Why Do Airplanes Have “Black Boxes” and
Our Bodies Don’t?
• Post-Genomic Individualized Medicine
– Combine Your Genetic Code with Your Body’s
Data Flow
– Use Powerful AI Data Mining Techniques
www.givenimaging.com
Cal-(IT)2 Will Pioneer
Links Between Art, Technology, & Science
“UCSD
”
Broadband Will Connect 30 Million Homes
and Small Businesses in Three Years
• PCs Always On
• High Bandwidth Access
• Corporate Drivers
16
US Installed (Millions)
DSL
Cable Modems
– Ford Motor Co. is Buying
Home PCs for All its
Employees
– IBM Is Using SBC to
Supply 12,000
Employees with Home
DSL Internet
Connections
12
8
• Stage is Set for
Explosion of Internet
Computing
4
0
1997
1999
2001
Source: Kinetic Strategies Inc.,
Gilder Technology Report
Pioneer Consulting
2003
– Tie PCs Together as
Virtual Megacomputer
SETI@home Demonstrated that PC Internet
Computing Could Grow to Megacomputers
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Running on 500,000 PCs, ~1000 CPU Years per Day
– Over Half a Million CPU Years so far!
– 22 Teraflops sustained 24x7
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Sophisticated Data & Signal Processing Analysis
Distributes Datasets from Arecibo Radio Telescope
Arecibo
Radio Telescope
Next StepAllen Telescope Array
Evolving Drugs to Match Evolving AIDS Virus
Varying Both Target Molecules and Target Proteins
AutoDock Application Software Has Been Downloaded to Over 10,000 PCs
In Silico
Drug Design
Art Olson,
TSRI