Dynamic control of NFV forwarding graphs with end-to-end deadline constraints

Victor Millnert, J. Eker, Enrico Bini
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引用次数: 5

Abstract

There is a strong industrial drive to use cloud computing technologies and concepts for providing timing sensitive services in the networking domain since it would provide the means to share the physical resources among multiple users and thus increase the elasticity and reduce the costs. In this work, we develop a mathematical model for user-stateless virtual network functions forming a forwarding graph. The model captures uncertainties of the performance of these virtual resources as well as the time-overhead needed to instantiate them. The model is used to derive a service controller for horizontal scaling of the virtual resources as well as an admission controller that guarantees that packets exiting the forwarding graph meet their end-to-end deadline. The Automatic Service and Admission Controller (AutoSAC) developed in this work uses feedback and feedforward making it robust against uncertainties of the underlying infrastructure. Also, it has a fast reaction time to changes in the input.
端到端截止日期约束下NFV转发图的动态控制
使用云计算技术和概念在网络领域提供对时间敏感的服务具有强大的工业驱动力,因为它将提供在多个用户之间共享物理资源的方法,从而增加弹性并降低成本。在这项工作中,我们建立了一个用户无状态虚拟网络函数形成转发图的数学模型。该模型捕获了这些虚拟资源性能的不确定性以及实例化它们所需的时间开销。该模型用于导出用于水平扩展虚拟资源的服务控制器,以及保证退出转发图的数据包满足端到端截止日期的许可控制器。在这项工作中开发的自动服务和准入控制器(AutoSAC)使用反馈和前馈,使其对底层基础设施的不确定性具有鲁棒性。此外,它对输入的变化有快速的反应时间。
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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