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Bayeux: An architecture for scalable and fault-tolerant wide-area data dissemination (2001)

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by Shelley Q. Zhuang , Ben Y. Zhao , Anthony D. Joseph , Randy H. Katz , John D. Kubiatowicz
Citations:465 - 12 self
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BibTeX

@INPROCEEDINGS{Zhuang01bayeux:an,
    author = {Shelley Q. Zhuang and Ben Y. Zhao and Anthony D. Joseph and Randy H. Katz and John D. Kubiatowicz},
    title = {Bayeux: An architecture for scalable and fault-tolerant wide-area data dissemination},
    booktitle = {},
    year = {2001},
    pages = {11--20},
    publisher = {}
}

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Abstract

The demand for streaming multimedia applications is growing at an incredible rate. In this paper, we propose Bayeux, an efficient application-level multicast system that scales to arbitrarily large receiver groups while tolerating failures in routers and network links. Bayeux also includes specific mechanisms for load-balancing across replicate root nodes and more efficient bandwidth consumption. Our simulation results indicate that Bayeux maintains these properties while keeping transmission overhead low. To achieve these properties, Bayeux leverages the architecture of Tapestry, a fault-tolerant, wide-area overlay routing and location network.

Keyphrases

fault-tolerant wide-area data dissemination    efficient bandwidth consumption    network link    transmission overhead    replicate root node    specific mechanism    wide-area overlay routing    large receiver group    incredible rate    location network    efficient application-level multicast system    multimedia application    simulation result   

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