在支持SDN/ nfv的环境中部署弹性路由功能

2015 IEEE Conference on Network Function Virtualization and Software Defined Network (NFV-SDN) Pub Date : 2015-11-01 DOI:10.1109/NFV-SDN.2015.7387398

S. V. Rossem, W. Tavernier, Balázs Sonkoly, D. Colle, János Czentye, M. Pickavet, P. Demeester

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引用次数: 38

摘要

SDN和NFV是为电信网络带来前所未见的灵活性的两种范例。以前的电信服务是由专用硬件和相关(特定于供应商的)协议提供的，而SDN能够通过运行在控制器上的专用软件来控制电信网络。NFV使高度优化的数据包处理网络功能能够在通用/多用途硬件(如x86服务器)上运行。尽管SDN和NFV的可能性众所周知，但具体的控制和编排架构仍在设计中，并且很少有原型验证可用。在本演示中，我们将演示支持基于nfv的网络管理(例如VPN服务中需要的网络管理)的弹性路由器的动态伸缩。实现这种弹性的框架是UNIFY ESCAPE环境，它是一个遵循ETSI NFV mano - compliant架构的PoC。这个演示是第一个演示在SDN/NFV控制和编排架构中扩展NFs的完全封闭控制回路的演示之一。

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Deploying elastic routing capability in an SDN/NFV-enabled environment

SDN and NFV are two paradigms that introduce unseen flexibility in telecom networks. Where previously telecom services were provided by dedicated hardware and associated (vendor-specific) protocols, SDN enables to control telecom networks through specialized software running on controllers. NFV enables highly optimized packet-processing network functions to run on generic/multi-purpose hardware such as x86 servers. Although the possibilities of SDN and NFV are well-known, concrete control and orchestration architectures are still under design and few prototype validations are available. In this demo we demonstrate the dynamic up- and downscaling of an elastic router supporting NFV-based network management, for example needed in a VPN service. The framework which enables this elasticity is the UNIFY ESCAPE environment, which is a PoC following an ETSI NFV MANO-conform architecture. This demo is one of the first to demonstrate a fully closed control loop for scaling NFs in an SDN/NFV control and orchestration architecture.

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来源期刊

2015 IEEE Conference on Network Function Virtualization and Software Defined Network (NFV-SDN)

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