A Node Plug-In Architecture for Evolving Network Virtualization Nodes

2013 IEEE SDN for Future Networks and Services (SDN4FNS) Pub Date : 2013-11-01 DOI:10.1109/SDN4FNS.2013.6702531

Y. Kanada

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引用次数: 8

Abstract

"Virtualization nodes" (VNodes) for programmable network-virtualization platforms enable mutually independent evolution of computational node-component called programmer and networking node-component called redirector; however, no method for this evolution has been available. Accordingly, a method for evolving programmer and redirector and developing new types of virtualized networking and/or computational functions in two steps is proposed. The first step is to develop a new function without updating the original VNode, which continues services to existing slices, using a proposed plug-in architecture. This architecture defines predefined interfaces called open VNode plug-in interfaces (OVPIs), which connect a data and a control plug-ins to a VNode. The second step is to merge the completed plug-ins into the original programmer or redirector. A prototype implementation of the above plug-in architecture was developed, tested, and evaluated. The prototype extends the redirector by adding new types of virtual links and new types of network accommodation. Estimated throughputs of a VLAN-based network accommodation and a VLAN-based virtual link using network processors are close to a wire rate of 10 Gbps.

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演进网络虚拟化节点的节点插件体系结构

用于可编程网络虚拟化平台的“虚拟化节点”(VNodes)使称为编程器的计算节点组件和称为重定向器的网络节点组件能够相互独立地进化;然而，目前还没有这种进化的方法。据此，提出了一种分两步发展编程器和重定向器以及开发新型虚拟化网络和/或计算功能的方法。第一步是在不更新原始VNode的情况下开发一个新功能，该功能使用建议的插件架构将服务延续到现有的切片。该体系结构定义了预定义的接口，称为ovpi (open VNode plug-in interface)，用于将数据插件和控制插件连接到VNode。第二步是将完成的插件合并到原始程序员或重定向器中。开发、测试和评估了上述插件体系结构的原型实现。该原型通过添加新型虚拟链路和新型网络容纳来扩展重定向器。使用网络处理器的基于vlan的网络容纳和基于vlan的虚拟链路的估计吞吐量接近10 Gbps的线速。

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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2013 IEEE SDN for Future Networks and Services (SDN4FNS)

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