Rd network services

Podlesny, Maxim; Gorinsky, Sergey

doi:10.1145/1402946.1402988

Cited by 18 publications

(1 citation statement)

References 43 publications

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“…Several methods have been proposed for latency support in a best-effort service model, such as equivalent differentiated services, asymmetric best-effort, and rate-and-delay network services [5], [6], [7]. These methods share the idea that latencysensitive flows cannot achieve higher bandwidth throughputs than ordinary flows by imposing higher drop rates as a tradeoff for higher scheduling priorities.…”

Section: Related Workmentioning

confidence: 99%

LAWIN: A Latency-AWare InterNet architecture for latency support on best-effort networks

Kobayashi

2015

2015 IEEE 16th International Conference on High Performance Switching and Routing (HPSR)

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While strict latency restrictions are imposed on network applications, current best-effort Internet architecture entirely lacks this support. In this paper, we propose a "Latency AWare InterNet" (LAWIN) architecture that supports various latency requirements while retaining the best-effort service model. In the LAWIN architecture, applications specify their desired network latency limits, or deadlines, into all packets, and routers schedule these packets according to their deadlines. To this end, we propose two earliest-deadline-first (EDF)-based packet schedulers. The first imposes the same packet loss rate on all applications regardless of the latency specified by each, and provides rough flow-rate fairness. The second scheduler imposes a biased packet loss probability. The biased scheduler also provides an efficient latency and bandwidth trading mechanism for application settings, which motivates applications to set optimal latencies in order to improve efficiency.

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Section: Related Workmentioning

confidence: 99%

LAWIN: A Latency-AWare InterNet architecture for latency support on best-effort networks

Kobayashi

2015

2015 IEEE 16th International Conference on High Performance Switching and Routing (HPSR)

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ABS: Adaptive buffer sizing for heterogeneous networks

Zhang¹,

Loguinov

2010

Computer Networks

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Most existing criteria [3], [5], [9] for sizing router buffers rely on explicit formulation of the relationship between buffer size and characteristics of Internet traffic. However, this is a non-trivial, if not impossible, task given that the number of flows, their individual RTTs, and congestion control methods, as well as flow responsiveness, are unknown. In this paper, we undertake a completely different approach that uses controltheoretic buffer-size tuning in response to traffic dynamics. Motivated by the monotonic relationship between buffer size and loss rate and utilization, we design a mechanism called Adaptive Buffer Sizing (ABS), which is composed of two Integral controllers for dynamic buffer adjustment and two gradient-based components for intelligent parameter training. We demonstrate via ns2 simulations that ABS successfully stabilizes the buffer size at its minimum value under given constraints, scales to a wide spectrum of flow populations and link capacities, exhibits fast convergence rate and stable dynamics in various network settings, and is robust to load changes and generic Internet traffic (including FTP, HTTP, and non-TCP flows). All of these demonstrate that ABS is a promising mechanism for tomorrow's router infrastructure and may be of significant interest for the ongoing collaborative research and development efforts (e.g., GENI and FIND) in reinventing the Internet.

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FIFO Service with Differentiated Queueing

Karsten

2011

2011 ACM/IEEE Seventh Symposium on Architectures for Networking and Communications Systems

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Rd network services

Cited by 18 publications

References 43 publications

LAWIN: A Latency-AWare InterNet architecture for latency support on best-effort networks

LAWIN: A Latency-AWare InterNet architecture for latency support on best-effort networks

ABS: Adaptive buffer sizing for heterogeneous networks

FIFO Service with Differentiated Queueing

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