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Lowering the Barriers to Innovation

Lowering the Barriers to Innovation. Jennifer Rexford Computer Science Department Princeton University http://www.cs.princeton.edu/~jrex. Flash Back to 1984. Fast Forward to Today. How computers work Electrical engineering degree at Princeton Making multiple computers work together

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Lowering the Barriers to Innovation

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  1. Lowering the Barriers to Innovation Jennifer Rexford Computer Science Department Princeton University http://www.cs.princeton.edu/~jrex

  2. Flash Back to 1984

  3. Fast Forward to Today • How computers work • Electrical engineering degree at Princeton • Making multiple computers work together • Parallel computing research at U. Michigan • Interconnecting computers via the Internet • Research at AT&T Labs • Designing the future Internet • Research and teaching with undergraduate and graduate students at Princeton

  4. How the Internet Enables Innovation

  5. Shawn Fanning Northeastern freshman Napster Meg Whitman E-Bay Innovative Applications Tim Berners-Lee CERN Researcher World Wide Web iPhone apps

  6. Innovative Communication Media Cable Satellite Cellular Ethernet DSL Bluetooth WiFi Fiber optics

  7. Telephone Network Smart Network Dumb Terminals

  8. Plain Old Telephone Service (POTS) • Dumb phones • Dial a number • Speak and listen • Smart switches • Set up and tear down a circuit • Forward audio along the path • Limited services • Audio • Later, fax, caller-id, … • A monopoly for a long time

  9. Internet Dumb Network Smart Terminals

  10. Power at the Edge End-to-End Principle Whenever possible, communications operations should occur at the end-points of a system. Programmability With programmable end hosts, new network services can be added at any time, by anyone. And then computers became powerful and ubiquitous….

  11. What Does the “Dumb” Network Do? Best-Effort Packet Delivery

  12. Internet Protocol (IP) Packet Switching • Much like the postal system • Divide information into letters • Stick them in envelopes • Deliver them independently • And sometimes they get there • What’s in an IP packet? • The data you want to send • A header with the “from” and “to” addresses

  13. Why Packets? • Data traffic is bursty • Logging in to remote machines • Exchanging e-mail messages • Don’t waste bandwidth • No traffic exchanged during idle periods • Better to allow sharing of resources • Different transfers share access to same links

  14. Why Best Effort? • Best-effort delivery • Packets may be lost, corrupted, delayed, or delivered out-of order • Keeps the network simple • No retransmission, error correction, or guarantees of packet delivery, … source destination IP network

  15. Supporting Diverse Link Technologies • Best-effort packet delivery over most anything • Serial link, fiber optic link, coaxial cable, wireless • Even birds • IP Datagrams over Avian Carriers IP over Avian Carriers was actually implemented, sending 9 packets over a distance of approximately 3 miles, each carried by an individual pigeon, and they received 4 responses, with a packet loss ratio of 55%, and a response time ranging from 3000seconds to over 6000 seconds.

  16. Power to the User’s Computer Overcome network limitations • Retransmit lost or corrupted packets • Put the received data back in order • Slow down under congestion Run neat applications! Operating System packets

  17. The Result: Tremendous Innovation Internet Protocol

  18. So, What’s the Problem? (And where do I come in?)

  19. Misplaced Trust in the End Host • Security vulnerabilities • No strict notions of identity • Powerful computers • Many attacks • Denial of service • Spam e-mail • Phishing • Identity theft • How do we protectthe Internet?

  20. Nobody is In Charge Around 50,000 independent networks 4 3 5 2 6 7 1 Web server Client How to manage a global federated network?

  21. Hard to Change the Inside of the Internet • Internet infrastructure • Scalability • Stability • Reliability • Performance • Energy-efficiency • Security Internet Protocol • Can we make the inside programmable? • To unleash a wave of innovation

  22. My Research Challenge • A future Internet worthy of our trust • More secure, scalable, stable, reliable, efficient, … • More flexible and evolvable over time • Despite all the challenges • Greedy and malicious users • Networks driven by economics and politics • Without losing all the good stuff • Innovative applications • Innovative communication media • I think this will keep me busy for awhile! 

  23. What I Love About My Job • Learn new stuff all the time • Pick the research problems I work on • Pick the people I want to work with • Have real impact on the world today • And (hopefully) bigger impact in the future • While wearing jeans to work every day!

  24. Thanks! (Any Questions?)

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