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Intel Berkeley Extreme Interconnected Systems Lablet http:www'intelresearch'netberkeley

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James Demmel Large-scale computational science. Michael Franklin Sensor Databases ... James Landay User Interfaces. Jennifer Mankoff HCI. David Patterson Architecture ... – PowerPoint PPT presentation

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Title: Intel Berkeley Extreme Interconnected Systems Lablet http:www'intelresearch'netberkeley


1
Intel Berkeley Extreme Interconnected Systems
Lablethttp//www.intel-research.net/berkeley
  • David Culler
  • UCB EECS Academic Director

Shattuck and Center, 13th floor, between BWRC and
ICSI, great view!
2
New model for ind/acad collaboration
  • Key challenges ahead in EECS are fundamentally
    problems of scale
  • require level of investigation and of engineering
    that is beyond what is sustainable within the
    university and beyond what a company can commit
    outside product scope
  • industry possesses key technology and expertise
  • requires insights from many perspectives
  • A new lab stucture built around deep research
    collaboration and intimate ties to the EECS
    department
  • industry contributes substantial effort of high
    quality
  • projects span boundaries
  • faculty co-direct lab
  • student / faculty cycles drive the continuous
    motion
  • Operate in uniquely open fashion

3
Intel Research Network of Lablets Concept
  • Network of small labs working closely with top
    computer science departments around the world on
    deeply collaborative projects.
  • currently Berkeley, Washington, CMU
  • Complement the corporate labs
  • explore off the roadmap, long range, high risk
  • Complement the external research council
  • drive projects of significant scale and impact
  • Expand the channel
  • bidirectional transfer of people, ideas,
    technology

4
Mission for the Network of Labs
  • Bold new form of Industry-University
    collaboration that reflects the changing nature
    of the information age.
  • Conduct the highest quality research in emerging,
    important areas of CS and IT.
  • Join the unique strengths of Universities and the
    company in concurrent, collaborative efforts that
    are both broad in scope and deeply penetrating in
    exploration.
  • Operate in a uniquely open fashion, promoting a
    powerful, bidirectional exchange of
    groundbreaking ideas, technology, and people.
  • Leadership role in the creation of new research
    ecosystems spanning the continuum from academic
    study to product development.
  • Labs will be project-focused with an active,
    constantly evolving agenda involving Intel
    researchers, University researchers, and members
    of the larger research community

5
Scale and structure
  • Active day-to-day involvement
  • 15 full-time Intel Researchers and Engineers
  • 5 part-time Intel folks
  • 20 faculty, students, visitors, research
    consultants
  • Two-in-a-box co-directors
  • University Direction Intel Director
  • Report to David Tennenhouse, VP Research
  • Project focused
  • 6-year projects starting about every two years

6
Berkeley Focus
  • Extreme Interconnected Systems
  • Invent, develop, explore, analyze, and understand
    highly interconnected systems at the extremes of
    the computing and networking spectrum - the very
    large, the very small, and the very numerous
  • Do leading-edge Computer Science on problems of
    scale, cutting across traditional areas of
    architecture, operating systems, networks, and
    languages to enable a wide range of explorations
    in ubiquitous computing, both embedded in the
    environment or carried easily on moving objects
    and people

7
Areas of Emphasis
  • endonets
  • dense, fine-grain networked systems deeply
    embedded in or interacting with physical
    environment
  • sensor networks
  • ubiquitous computing architectures
  • computational fabrics, surfaces, structures
  • exonets
  • broad coverage networked systems at societal
    scale
  • world-wide storage systems
  • composable infrastructure services
  • massive servers for millions of users

8
Initial Projects
  • Open experimental platform for Networked Embedded
    Systems Technology (NEST)
  • collaborative with UCB DARPA project
  • supporting 10 other DARPA projects
  • Goal
  • new approach to networked embedded SW
  • enable research in algorithms, real-time systems,
    ...
  • explore platform system architecture in new space
  • Components
  • Low-cost flexible wireless sensor device for
    large-scale experimentation
  • Extensible Event-driven Tiny OS
  • Tiny Networking Security
  • FSM-based Development Environment
  • Scalable, Adversarial Simulation
  • Infrastructure services
  • Building blocks for ubiquitous computing
  • Pocket-change computing dot

9
Current Research Team
  • Kevin Fall UCSD, ISI, UCB, NetBoost, Intel
  • high speed ip networking
  • Alan Mainwaring TMC, UCB, Sun, Intel
  • virtual networks, deep scalable network systems
  • Anind Dey Georgia Tech, aware house
  • framework for context aware applns
  • David Gay UCB
  • Prog. Lang. design/Imp for novel comm. layers
  • Deborah Estrin, Faculty consultant
  • internet, multicast, rsvp,...sensor nets
  • Paul Wright, Faculty consultant
  • infopad, BWRC, cybercut
  • Justin Tomilson
  • optimization, IEOR PhD Student

10
Current Faculty Research Associates
  • James Demmel Large-scale computational science
  • Michael Franklin Sensor Databases
  • Steven Glaser structural dynamics
  • Joe Hellerstein Streaming Databases
  • John Kubiatowicz planetary storage
  • James Landay User Interfaces
  • Jennifer Mankoff HCI
  • David Patterson Architecture
  • Kris Pister MEMS, Smart Dust
  • Jan Rabaey Low power systems
  • Satish Rao Distr. Systems Theory
  • Ion Stoika Networking
  • Vivek Subramanian Disposable devices
  • David Wagner Security
  • Kathy Yelick Parallel Languages

11
Summer Interns 2001
  • UCB Tiny OS team
  • Jason Hill, Rob Scewczyk, Alec Woo
  • UCLA directed diffusion
  • Depak Ganesan, Solomon Bein
  • UCB sensor database
  • Sam Madden (with Michael Franklin)
  • UCB IP/Infiniband SAN
  • Philip Buonadonna
  • UCB ocean store
  • Hakim Weatherspoon (with John Kubiatowicz)
  • visiting grad from Cornel other UCB grads

12
Where this is going?
  • Deep involvement in CITRIS
  • societal sensor network infrastructure
  • New networking foundations at each of the levels
  • Design principles
  • HW structures, OS support
  • Media access, transmission control, Routing,
    Security
  • Theory
  • Applications
  • New set of concerns
  • dynamic self-organization, adaptation
  • harsh resource constraints
  • collective behavior
  • Unique opportunity in the union
  • microscopic devices (really)
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