Detour: informed Internet routing and transport

Savage, Stefan; Anderson, Tom; Aggarwal, Amit; Becker, D.; Cardwell, Neal; Collins, Andy; Hoffman, Eric; Snell, John; Vahdat, Amin; Voelker, Geoff; Zahorjan, John

doi:10.1109/40.748796

Cited by 224 publications

(175 citation statements)

References 12 publications

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“…Extensive research on overlay routing has also been conducted, such as [10] and [3]. Such research has shown that overlay routing schemes are effective in solving some of the deficiencies in today's Internet.…”

Section: Related Workmentioning

confidence: 99%

“…But today, extensive research has been done on neighbor selection, and selecting neighbors with the lowest latency has become mainstream [16], [17]. Service overlay networks such as Detour [10] and RON [3] also take latency as the most important performance metric. One of the main objectives of the CDN networks such as Akamai is to minimize end-to-end latency by choosing alternative paths [4].…”

Section: Assumption 2 the Isp Can Distinguish Between Overlay Traffimentioning

confidence: 99%

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A Routing Strategy for Multihomed ISP to Mitigate the Impact of Overlay Traffic

Shao

Hasegawa

Taniguchi

et al. 2013

IEICE Trans. Inf. & Syst.

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Xun SHAO †a) , Student Member, Go HASEGAWA † †b) , Yoshiaki TANIGUCHI † †c) , and Hirotaka NAKANO † †d) , Members SUMMARY Multihoming is widely used by Internet service providers (ISPs) to obtain improved performance and reliability when connecting to the Internet. Recently, the use of overlay routing for network application traffic is rapidly increasing. As a source of both routing oscillation and cost increases, overlay routing is known to bring challenges to ISPs. In this paper, we study the interaction between overlay routing and a multihomed ISP's routing strategy with a Nash game model, and propose a routing strategy for the multihomed ISP to alleviate the negative impact of overlay traffic. We prove that with the proposed routing strategy, the network routing game can always converge to a stable state, and the ISP can reduce costs to a relatively low level. From numerical simulations, we show the efficiency and convergence resulting from the proposed routing strategy. We also discuss the conditions under which the multihomed ISP can realize minimum cost by the proposed strategy.

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Section: Related Workmentioning

confidence: 99%

Section: Assumption 2 the Isp Can Distinguish Between Overlay Traffimentioning

confidence: 99%

A Routing Strategy for Multihomed ISP to Mitigate the Impact of Overlay Traffic

Shao

Hasegawa

Taniguchi

et al. 2013

IEICE Trans. Inf. & Syst.

View full text Add to dashboard Cite

show abstract

“…The X-Bone's complete overlays are similar to VON's but di er from the partial deployment of Darwin/VNS [7], Detour [24], and VANs [32]. In Darwin/VNS, the overlay is deployed among a set of routers via tunnels, and end hosts are attached via ®lter-based translators, stationed upstream of the end-hosts.…”

Section: End-to-end Overlaysmentioning

confidence: 99%

“…This supports unmodi®ed end-host applications, even though VNS requires OS mod-i®cations (i.e., DARWIN) in the remainder of its deployment. Detour [24] deploys individual tunnels to override ine cient or inoperative routing, rather than deploying an entire overlay network. VANs [32] deploy only links, inside an active networks layer.…”

Section: End-to-end Overlaysmentioning

confidence: 99%

“…All three abstract network infrastructure for the purposes of simplicity, scalability, provisioning, and containment. Like VONs [23] (and Detour [24]), the X-Bone supports fault tolerance. The X-Bone uniquely uses the ability to deploy existing dynamic routing protocols to support fault tolerance within an overlay, and its capability to support stackable overlays to support more advanced fault tolerance (see future work, below).…”

Section: Vpnsmentioning

confidence: 99%

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Dynamic Internet overlay deployment and management using the X-Bone

Touch

2001

Computer Networks

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The X-Bone dynamically deploys and manages Internet overlays to reduce con®guration e ort and increase network component sharing. The X-Bone discovers, con®gures, and monitors network resources to create overlays over existing IP networks. Overlays are useful for deploying overlapping virtual networks on shared infrastructure and for simplifying topology. The X-Bone extends current overlay management by adding dynamic resource discovery, deployment, and monitoring, and allows network components (hosts, routers) to participate simultaneously in multiple overlays. Its two-layer IP in IP tunneled overlays support existing applications and unmodi®ed routing, multicast, and DNS services in unmodi®ed host operating systems. This two-layer scheme uniquely supports recursive overlays, useful for fault tolerance and dynamic relocation. The X-Bone uses multicast to simplify resource discovery, and provides secure deployment as well as secure overlays. This paper presents the X-Bone architecture, and discusses its components and features, and their performance impact. Ó

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The File Mover: high‐performance data transfer for the grid

Anglano

Canonico

2007

Concurrency and Computation

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SUMMARYThe exploration in many scientific disciplines (e.g. High-Energy Physics, Climate Modeling, and Life Sciences) involves the production and the analysis of massive data collections, whose archival, retrieval, and analysis require the coordinated usage of high-capacity computing, network, and storage resources. To obtain satisfactory performance, these applications require the availability of a high-performance, reliable data transfer mechanisms, able to minimize the data transfer time that often dominates their execution time. In this paper we present the File Mover, an efficient data transfer system specifically tailored to the needs of data-intensive applications, that exploits the overlay networks paradigm to provide superior performance with respect to conventional file transfer systems. An extensive experimental evaluation, carried out by means of a proof-of-concept implementation of the File Mover for a variety of network scenarios, shows the ability of the File Mover to outperform alternative data transfer systems. Copyright

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Detour: informed Internet routing and transport

Cited by 224 publications

References 12 publications

A Routing Strategy for Multihomed ISP to Mitigate the Impact of Overlay Traffic

A Routing Strategy for Multihomed ISP to Mitigate the Impact of Overlay Traffic

Dynamic Internet overlay deployment and management using the X-Bone

The File Mover: high‐performance data transfer for the grid

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