Peer-to-peer (p2p), initially conceived for the purpose of sharing
music in the Internet, promises to be a more general paradigm for
organizing large-scale distributed applications. We define p2p systems
broadly as self-organizing, decentralized, distributed systems where
most or all communication is symmetric. The self-organization,
decentralization, diversity and redundancy of resources inherent in
the approach lend themselves to a large domain of applications beyond
file sharing, anonymity and anti-censorship. At the same time, the
decentralization and diversity also pose difficult problems,
particularly in resource management and security.
Recent work on p2p overlay networks like CAN, Chord, Pastry and
Tapestry has made significant strides towards providing a general
substrate that simplifies the construction of a wide range of p2p
applications. These overlay networks effectively shield applications
from the complexities of organizing and maintaining a secure overlay
network, tolerating node failure, and from distributing and locating
resources.
In this talk, I'll present an overview of Pastry, a p2p overlay
network that provides self-organization, fault-tolerance, efficient
resource location and distribution, and incorporates interesting
heuristics that exploit proximity in the underlying Internet. I will
also sketch two applications built upon Pastry to date: PAST, an
archival, cooperative file storage and distribution facility, and
SCRIBE, a highly scalable event notification system. I'll conclude
with an outlook on key research problems and future directions.
Date and Time
Friday November 30, 2001 4:00pm -
5:30pm
Location
Computer Science Small Auditorium (Room 105)
Event Type
Speaker
Peter Druschel, from Rice University
Host
Larry Peterson