Optimizing rules placement in OpenFlow networks: trading routing for better efficiency

Proceedings of the third workshop on Hot topics in software defined networking Pub Date : 2014-08-22 DOI:10.1145/2620728.2620753

X. Nguyen, D. Saucez, C. Barakat, T. Turletti

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引用次数: 60

Abstract

The idea behind Software Defined Networking (SDN) is to conceive the network as one programmable entity rather than a set of devices to manually configure, and OpenFlow meets this objective. In OpenFlow, a centralized programmable controller installs rules onto switches to implement policies. However, this flexibility comes at the expense of extra overhead as the number of rules might exceed the memory capacity of switches, which raises the question of how to place most profitable rules on board. Solutions proposed so far strictly impose paths to be followed inside the network. We advocate instead that we can trade routing requirements within the network to concentrate on where to forward traffic, not how to do it. As an illustration of the concept, we propose an optimization problem that gets the maximum amount of traffic delivered according to policies and the actual dimensioning of the network. The traffic that cannot be accommodated is forwarded to the controller that has the capacity to process it further. We also demonstrate that our approach permits a better utilization of scarce resources in the network.

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优化OpenFlow网络中的规则放置:交易路由以提高效率

软件定义网络(SDN)背后的思想是将网络设想为一个可编程实体，而不是一组需要手动配置的设备，OpenFlow满足了这一目标。在OpenFlow中，集中式可编程控制器将规则安装到交换机上以实现策略。然而，这种灵活性是以额外的开销为代价的，因为规则的数量可能超过交换机的内存容量，这就提出了如何将最有利可图的规则放在主板上的问题。目前提出的解决方案严格规定了网络内部必须遵循的路径。相反，我们主张我们可以在网络内交换路由要求，专注于将流量转发到哪里，而不是如何转发。为了说明这一概念，我们提出了一个优化问题，根据策略和网络的实际尺寸获得最大的流量。无法容纳的流量被转发到有能力进一步处理的控制器。我们还证明了我们的方法可以更好地利用网络中的稀缺资源。

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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Proceedings of the third workshop on Hot topics in software defined networking

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