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Tapestry: A Resilient Global-scale Overlay for Service Deployment (2004)
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| Venue: | IEEE Journal on Selected Areas in Communications |
| Citations: | 598 - 14 self |
BibTeX
@ARTICLE{Zhao04tapestry:a,
author = {Ben Y. Zhao and Ling Huang and Jeremy Stribling and Sean C. Rhea and Anthony D. Joseph and John D. Kubiatowicz},
title = {Tapestry: A Resilient Global-scale Overlay for Service Deployment},
journal = {IEEE Journal on Selected Areas in Communications},
year = {2004},
volume = {22},
pages = {41--53}
}
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Abstract
We present Tapestry, a peer-to-peer overlay routing infrastructure offering efficient, scalable, locationindependent routing of messages directly to nearby copies of an object or service using only localized resources. Tapestry supports a generic Decentralized Object Location and Routing (DOLR) API using a self-repairing, softstate based routing layer. This paper presents the Tapestry architecture, algorithms, and implementation. It explores the behavior of a Tapestry deployment on PlanetLab, a global testbed of approximately 100 machines. Experimental results show that Tapestry exhibits stable behavior and performance as an overlay, despite the instability of the underlying network layers. Several widely-distributed applications have been implemented on Tapestry, illustrating its utility as a deployment infrastructure.
Keyphrases
service deployment resilient global-scale overlay infrastructure offering efficient deployment infrastructure present tapestry generic decentralized object location tapestry deployment underlying network layer stable behavior peer-to-peer overlay several widely-distributed application nearby copy tapestry architecture locationindependent routing global testbed localized resource experimental result
