云数据中心结构虚拟化

Q1 Computer Science

IEEE Cloud Computing Pub Date : 2022-07-01 DOI:10.1109/CLOUD55607.2022.00048

Ali Sydney, A. Alim, Chris Ward, C. Basso, B. Karaçali

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引用次数: 0

摘要

云网络支持具有多种特征的工作负载。云提供商面临的一个关键挑战是如何满足在共享基础设施上运行的这些不同应用程序的严格性能和安全需求。为了应对这一挑战，一些提供商构建峰值容量，甚至构建带有专用网络的专用集群，这些网络有时可能未得到充分利用。我们提出了一种虚拟化方法，可以根据应用程序的需要定制数据中心网络资源。我们的方法基于按需切片数据中心网络资源，并根据工作负载定制这些切片。这些片可以根据工作负载需求动态地、程序化地增长或缩小。这种弹性提供了比构建专用集群更有效的解决方案。在我们的方法中，可以针对一组给定的工作负载定制一个片，这些工作负载具有类似的安全性和性能要求，并从底层网络中分割出来。它利用软件定义的底层网络控制器和分段路由来实现细粒度的路径控制和服务链。我们已经实现了基于网络切片的fabric虚拟化解决方案的原型。在本文中，我们首先介绍了我们的原型的架构。其次，我们给出了在不同大小的网络和交换操作系统中切片供应时间的实证结果。实验结果表明，我们的原型可以支持几十到几百秒的切片配置，可以满足生产网络的配置要求。

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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Cloud Data Center Fabric Virtualization

Cloud networks support workloads with diverse characteristics. A key challenge facing cloud providers is how to meet the stringent performance and security needs of these diverse applications running over a shared infrastructure. To address this challenge, some providers build for peak capacity or even build dedicated clusters with specialized networks, which may be under-utilized at times. We propose a virtualization approach that customizes data center network resources to the needs of applications. Our approach is based on slicing data center network resources on-demand and customizing these slices to target workloads. Such slices can grow or shrink dynamically and programmatically based on workload demands. This elasticity provides a more efficient solution over building dedicated clusters. In our approach, a slice can be customized to a given set of workloads with similar security and performance requirements carved out of the underlying network. It leverages a software-defined underlay network controller and segment routing for fine-grained path control and service chaining. We have implemented a prototype of our fabric virtualization solution based on network slicing. In this paper, we first present the architecture of our prototype. Second, we present empirical results of slice provisioning times in networks of varying sizes and switch operating systems. Empirical results indicate that our prototype can support slice provisioning in the order of tens to hundreds of seconds and can meet the provisioning requirements of production networks.

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来源期刊

IEEE Cloud Computing Computer Science-Computer Networks and Communications

CiteScore

11.20

自引率

0.00%

发文量

期刊介绍： Cessation. IEEE Cloud Computing is committed to the timely publication of peer-reviewed articles that provide innovative research ideas, applications results, and case studies in all areas of cloud computing. Topics relating to novel theory, algorithms, performance analyses and applications of techniques are covered. More specifically: Cloud software, Cloud security, Trade-offs between privacy and utility of cloud, Cloud in the business environment, Cloud economics, Cloud governance, Migrating to the cloud, Cloud standards, Development tools, Backup and recovery, Interoperability, Applications management, Data analytics, Communications protocols, Mobile cloud, Private clouds, Liability issues for data loss on clouds, Data integration, Big data, Cloud education, Cloud skill sets, Cloud energy consumption, The architecture of cloud computing, Applications in commerce, education, and industry, Infrastructure as a Service (IaaS), Platform as a Service (PaaS), Software as a Service (SaaS), Business Process as a Service (BPaaS)