Leveraging tenant flexibility in resource allocation for virtual networks

2014 23rd International Conference on Computer Communication and Networks (ICCCN) Pub Date : 2014-09-29 DOI:10.1109/ICCCN.2014.6911766

S. Zhang, Zhuzhong Qian, Jie Wu, Sanglu Lu

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引用次数: 3

Abstract

Virtual networks that allow tenants to explicitly specify their computing as well as networking resources are recently proposed to be better interfaces between cloud providers and tenants. Many virtual networks have time-varying resource demands, as evidenced in prior studies [1-3]. New opportunities emerge when such variation is exploited. In this paper, we design a novel resource demand model for tenants to flexibly trade off between application performance and cost, and propose a work-conserving allocation algorithm, WCA, for deploying virtual networks with time-varying resource demands. WCA places virtual nodes in a first-fit fashion, and places virtual links through path-splitting. In each physical node or link, by opportunistically sharing physical resources among multiple variable parts of resource demands, physical utilization can be improved, and more virtual networks can be deployed concurrently. Our evaluation results show that WCA achieves a 4% higher physical resource utilization and rejects 18% less virtual network requests than a state-of-the-art algorithm [4].

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利用租户在虚拟网络资源分配中的灵活性

允许租户显式指定其计算和网络资源的虚拟网络最近被提议作为云提供商和租户之间更好的接口。许多虚拟网络具有时变的资源需求，这在先前的研究中得到了证明[1-3]。当这种变化被利用时，新的机会就出现了。本文设计了一种新的资源需求模型，使租户能够灵活地在应用性能和成本之间进行权衡，并提出了一种节省工作的分配算法WCA，用于部署具有时变资源需求的虚拟网络。WCA以首拟合方式放置虚拟节点，并通过路径分割放置虚拟链接。在每个物理节点或链路上，通过在资源需求的多个可变部分之间机会地共享物理资源，可以提高物理利用率，同时可以部署更多的虚拟网络。我们的评估结果表明，与最先进的算法相比，WCA的物理资源利用率提高了4%，拒绝的虚拟网络请求减少了18%[4]。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 23rd International Conference on Computer Communication and Networks (ICCCN)

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