面向网络功能虚拟化的公平感知动态速率控制和流量调度

Sheng Tao, Lin Gu, Deze Zeng, Hai Jin, Kan Hu
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引用次数: 7

摘要

网络功能虚拟化(network function virtualization, NFV)技术将传统的专用硬件功能软件化为可在标准商用服务器上运行的虚拟化网络功能(virtual network function, VNFs),从而保证了高效率、灵活性和可扩展性。对于NFV服务提供商来说,最大限度地提高网络吞吐量和缩短服务时间是一个主要问题。为了实现这一目标,需要解决两个主要挑战:1)如何调度不可预测和突发的网络流量;2)如何在不同资源需求的各个流之间公平分配资源。在本文中,我们被激励研究一个吞吐量最大化问题,联合考虑多个流之间的公平性使用离散时间排队模型。利用李雅普诺夫优化技术,提出了一种低复杂度的在线分布式算法,该算法可以通过调整公平性偏差来实现不同公平性水平下的任意最优效用。理论分析和大量的仿真研究验证了我们的方案的高效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fairness-aware dynamic rate control and flow scheduling for network function virtualization
By softwarizing traditional dedicated hardware based functions to virtualized network functions (VNFs) that can run on standard commodity servers, network function virtualization (NFV) technology promises high efficiency, flexibility and scalability. To NFV service providers, one primary concern is to maximize network throughput and reduce service time. To reach this goal, two main challenges should be tackled: 1) how to schedule the unpredictable and burst network flows; 2) how to fairly allocate resources between various flows with different resource requirements. In this paper, we are motivated to investigate a throughput maximization problem with joint consideration of fairness between multiple flows using a discrete time queuing model. By taking advantages of Lyapunov optimization techniques, we propose a low-complexity online distributed algorithm that can achieve arbitrary optimal utility with different fairness levels by tuning the fairness bias. The high efficiency of our proposal is validated by both theoretical analysis and extensive simulation studies.
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