Scalability of a mobile cloud management system

MCC '12 Pub Date : 2012-08-17 DOI:10.1145/2342509.2342514

R. Bifulco, M. Brunner, R. Canonico, P. Hasselmeyer, F. Mir

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引用次数: 42

Abstract

Ubiquitous network access allows people to access an ever increasing range of services from a variety of mobile terminals, including laptops, tablets and smartphones. A flexible and economically efficient way of provisioning such services is through Cloud Computing. Assuming that several cloud-enabled datacenters are made available at the edges of the Internet, service providers may take advantage of them by optimally locating service instances as close as possible to their users. By localizing traffic at the edges of access networks, such an approach may result beneficial for both service and network providers. In this paper we present Follow-Me Cloud (FMC), a technology developed at NEC Laboratories Europe that allows transparent migration of services in TCP/IP networks, thanks to the dynamic configuration of a set of coordinated OpenFlow switches located at the edge of the network. In particular, in this paper we analyze the scalability properties of an FMC-based system and propose a role separation strategy based on distribution of control plane functions which enables scale-out of the system. By means of simulation, we prove that the application of the proposed separation strategy results in less state retained by individual OpenFlow controllers and in more effective localization of network traffic.

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移动云管理系统的可扩展性

无处不在的网络接入使人们能够从各种移动终端(包括笔记本电脑、平板电脑和智能手机)获取越来越多的服务。提供此类服务的一种灵活且经济高效的方式是通过云计算。假设在互联网的边缘提供了几个支持云的数据中心，服务提供商可以通过将服务实例最佳地定位到尽可能靠近其用户的位置来利用它们。通过在接入网的边缘对流量进行本地化，这种方法可能对服务和网络提供商都有利。在本文中，我们介绍了Follow-Me Cloud (FMC)，这是NEC欧洲实验室开发的一项技术，由于位于网络边缘的一组协调的OpenFlow交换机的动态配置，该技术允许TCP/IP网络中的服务透明迁移。本文特别分析了基于fmc的系统的可扩展性，提出了一种基于控制平面功能分布的角色分离策略，实现了系统的可扩展性。通过仿真，我们证明了所提出的分离策略的应用可以减少单个OpenFlow控制器保留的状态，并且可以更有效地定位网络流量。

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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来源期刊

MCC '12

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