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A. Venkataramani, R. Kokku, M. Dahlin, TCP nice: a mechanism for background transfers, Proceedings of the USENIX Operating Systems Design and Implementation Conference, Boston, MA, 2002.

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This paper is cited in the following contexts:
Evaluation of an Adaptive Transport Protocol - Atkin, Birman (2003)   (1 citation)  (Correct)

....of TCP algorithms on bandwidth allocation between concurrent connections. Congestion Manager [10] and Ensemble TCP [22] share state information between connections to a remote host and allow the aggregate bandwidth to be divided among state sharing connections by a priority mechanism. TCP Nice [23] adjusts TCP s congestion control algorithm to ensure that background TCP flows have lower priority than regular flows. These systems improve performance without compromising TCP congestion control. In contrast, ATP aims to provide an mechanism which allows applications to adapt bursty network ....

Arun Venkataramani, Ravi Kokku, and Mike Dahlin, "TCP Nice: A mechanism for background transfers," in Proceedings of the 5th Symposium on Operating Systems Design and Implementation. USENIX Association, Dec. 2002.

PRACTI Replication for Large-Scale Systems - Dahlin, Gao, Nayate.. (2004)   Self-citation (Venkataramani Dahlin)   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A mechanism for background transfers. In OSDI02, December 2002.

Data Invalidation and Prefetching for Transparent - Amol   Self-citation (Dahlin)   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A mechanism for background transfers. In OSDI02, December 2002.

End-to-end WAN Service Availability - Extended Version Mike   Self-citation (Dahlin)   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A mechanism for background transfers. In OSDI02, December 2002.

NPS: A Non-interfering Deployable Web Prefetching System - Kokku, Yalagandula.. (2003)   (2 citations)  Self-citation (Venkataramani Kokku Dahlin)   (Correct)

....cations to the HTTP protocol and existing infrastructure. To avoid interference at the server, NPS monitors the server load externally and restricts the prefetch load imposed on it accordingly. To avoid interference in the underlying network, NPS uses TCPNice for low priority network transfers [51]. Finally, it uses a set of heuristics to control resource usage at the client. To work with existing infrastructure, NPS modi es HTML pages to include JavaScript code to issue prefetch requests, and wraps the server infrastructure with simple external modules that require no knowledge of, or ....

....is not easily deployable in the near future. We focus on server based control because of the relative ease of deployability of server based mechanisms and their e ectiveness in avoiding both self and cross interference. In particular, we use a transport level solution at the server TCP Nice [51]. TCP Nice is a congestion control mechanism at the sender that is speci cally designed to support background data transfers like prefetching. Background connections using Nice operate by utilizing only spare bandwidth in the network. They react more sensitively to congestion and backo when a ....

[Article contains additional citation context not shown here]

A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A Mechanism for Background Transfers. In OSDI, December 2002.

A Non-interfering Deployable Web Prefetching System - Kokku, Yalagandula.. (2002)   (1 citation)  Self-citation (Venkataramani Kokku Dahlin)   (Correct)

....cations to the HTTP protocol and the existing infrastructure. To avoid interference, Prefetch Nice monitors the server load externally and tunes the prefetch aggressiveness of the clients accordingly, it uses TCP Nice, a network level solution speci cally designed for low priority data transfer [52], and it uses a set of heuristics to control the resource usage on the clients. To work with existing infrastructure, Prefetch Nice is implemented by modifying html pages to include javascript code that issues prefetch requests and by augmenting the server infrastructure with several simple ....

....is not easily deployable in the foreseeable future. We focus on server based control because of the relative ease of deployability of server based mechanisms and their e ectiveness in avoiding both self and crossinterference. In particular, we use a server assisted technique called TCP Nice [52]. TCP Nice is a congestion control mechanism at the sender that is speci cally designed to support background data transfers like prefetch data. Connections using Nice operate by utilizing only spare bandwidth in the network. They react more sensitively to congestion and backo when a possibility ....

[Article contains additional citation context not shown here]

A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A mechanism for background transfers. In To appear in the Proceedings of 5th OSDI, 2002.

End-to-end WAN Service Availability - Dahlin, Chandra, Gao, Nayate (2001)   (42 citations)  Self-citation (Dahlin)   (Correct)

....of simultaneously downloaded extensions in order to replicate a significant fraction of accessed sites. Furthermore, some of the services may require large amounts of system resources to mask long failures. We examine the resource management challenges posed by such a workload in a separate study [5, 40]. 4.2 Network routing In this section, we evaluate strategies that route around network failures. To simplify the analysis, we classify strategies into two broad categories: 1) network re routing and (2) server replication and selection. The following discussion states the type of failures ....

A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A mechanism for background transfers. In OSDI02, December 2002.

Coordinated data prefetching for web contents - Xin Chen Xiaodong   (Correct)

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A. Venkataramani, R. Kokku, M. Dahlin, TCP nice: a mechanism for background transfers, Proceedings of the USENIX Operating Systems Design and Implementation Conference, Boston, MA, 2002.

Proactive Replication for Data Durability - Emil Sit Andreas (2006)   (Correct)

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VENKATARAMANI, A., KOKKU, R., AND DAHLIN, M. TCP Nice: a mechanism for background transfers. In Proc. of the 5th Symposium on Operating Systems Design and Implementation (Dec. 2002).

Proactive Replication for Data Durability - Emil Sit Andreas (2006)   (Correct)

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VENKATARAMANI, A., KOKKU, R., AND DAHLIN, M. TCP Nice: a mechanism for background transfers. In Proc. of the 5th Symposium on Operating Systems Design and Implementation (Dec. 2002).

Approximate Replication - Olston (2003)   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A mechanism for background transfers. In Proceedings of the Fifth Symposium on Operating Systems Design and Implementation, Boston, Massachusetts, December 2002.

USENIX Association - Fast Nd Usenix (1992)   (2 citations)  (Correct)

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VENKATARAMANI,A.,KOKKU,R.,AND DAHLIN,M. TCPNice: a mechanism for background transfers. In Proceedings of the 5th Symposium on Operating Systems Design and Implementation (Boston, MA, December 2002), pp. 329--343.

Data Staging on Untrusted Surrogates - Shafeeq (2002)   (7 citations)  (Correct)

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VENKATARAMANI, A., KOKKU, R., AND DAHLIN, M. TCPNice: a mechanism for background transfers. In Proceedings of the 5th Symposium on Operating Systems Design and Implementation (Boston, MA, December 2002), pp. 329--343.

Transforming Policies into Mechanisms with Infokernel - Arpaci-Dusseau.. (2003)   (3 citations)  (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. Tcp-nice: A mechanism for background transfers. In Proceedings of the 5th Symposium on Operating Systems Design and Implementation (OSDI '02), pages 329--344, Boston, Massachusetts, December 2002.

A Framework for Dynamic Byzantine Storage - Jean-Philippe Martin Lorenzo (2004)   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP-Nice: A mechanism for background transfers. In 5th Symp. on Operating Systems Design and Implementation, Dec 2003. A. Dissemination Protocol A.1. U-Dissemination provides atomic semantics We show that transquorums suffice to prove that the Udissemination protocol of

Emulating Low-priority Transport at the Application Layer: - Background Transfer Service   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A mechanism for background transfers. In Proc. Operating Systems Design and Implementation, December 2002.

TCP Meets Mobile Code - Parveen Patel David (2003)   (Correct)

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A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A Mechanism for Background Transfers. In OSDI, 2002.

Approximate Replication - Olston (2003)   (Correct)

No context found.

A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A mechanism for background transfers. In Proceedings of the Fifth Symposium on Operating Systems Design and Implementation, Boston, Massachusetts, December 2002.

Data Staging on Untrusted Surrogates - Flinn, Sinnamohideen, Tolia.. (2003)   (7 citations)  (Correct)

No context found.

VENKATARAMANI, A., KOKKU, R., AND DAHLIN, M. TCPNice: a mechanism for background transfers. In Proceedings of the 5th Symposium on Operating Systems Design and Implementation (Boston, MA, December 2002), pp. 329--343.

Emulating Low-priority Transport at the Application Layer: - Background Transfer Service   (Correct)

No context found.

A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A mechanism for background transfers. In Proc. Operating Systems Design and Implementation, December 2002.

Upgrading Transport Protocols Using Untrusted Mobile Code - Patel, Whitaker.. (2003)   (2 citations)  (Correct)

No context found.

A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A Mechanism for Background Transfers. In Proc. of the Fifth Symposium on Operating Systems Design and Implementation, Dec. 2002.

Network Aware Applications: A Background Transfer Service - Peter Key Laurent   (Correct)

No context found.

A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A mechanism for background transfers. In Proc. Operating Systems Design and Implementation, December 2002.

Upgrading Transport Protocols Using Untrusted Mobile Code - Patel, Whitaker.. (2003)   (2 citations)  (Correct)

No context found.

A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A Mechanism for Background Transfers. In Proc. of the Fifth Symposium on Operating Systems Design and Implementation, Dec. 2002.

Transparent Information Dissemination - Nayate, Dahlin, Iyengar (2004)   (1 citation)  (Correct)

No context found.

A. Venkataramani, R. Kokku, et al. TCP-Nice: A mechanism for background transfers. In OSDI02. Dec. 2002.

Approximate Replication - Olston (2003)   (Correct)

No context found.

A. Venkataramani, R. Kokku, and M. Dahlin. TCP Nice: A mechanism for background transfers. In Proceedings of the Fifth Symposium on Operating Systems Design and Implementation, Boston, Massachusetts, December 2002.

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