NOVA: Towards on-demand equivalent network view abstraction for network optimization

K. Gao, Qiao Xiang, Xin Wang, Y. Yang, J. Bi
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引用次数: 9

Abstract

As many applications today migrate to distributed computing and cloud platforms, their user experience depends heavily on network performance. Software Defined Networking (SDN) makes it possible to obtain a global view of the network, introducing the new paradigm of developing adaptive applications with network views. A naive approach of realizing the paradigm, such as distributing the whole network view to applications, is not practical due to scalability and privacy concerns. Existing approaches providing network abstractions are limited to special cases, such as bottlenecks exist only at networks edges, resulting in potentially suboptimal or infeasible decisions. In this paper, we introduce a novel, on-demand network abstraction service that provides an abstract network view supporting not only accurate end-to-end QoS metrics, which satisfy the requirements of many peer-to-peer applications, but also multi-flow correlation, which is essential for bandwidth-sensitive applications containing many flows to conduct global network optimization. We prove that our abstract view is equivalent to the original network view, in the sense that applications can make the same optimal decision as with the complete information. Our evaluations demonstrate that the abstraction guarantees feasibility and optimality for network optimizations and protects the network service providers' privacy. Our evaluations also show that the service can be implemented efficiently; for example, for an extreme large network with 30,000 links and abstraction requests containing 3,000 flows, an abstract network view can be computed in less than one second.
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NOVA:面向网络优化的按需等效网络视图抽象
随着今天许多应用程序迁移到分布式计算和云平台,它们的用户体验在很大程度上取决于网络性能。软件定义网络(SDN)使得获得网络的全局视图成为可能,引入了开发具有网络视图的自适应应用程序的新范例。由于可伸缩性和隐私问题,实现范式的简单方法(例如将整个网络视图分发给应用程序)是不实际的。提供网络抽象的现有方法仅限于特殊情况,例如瓶颈仅存在于网络边缘,从而导致潜在的次优或不可行的决策。在本文中,我们介绍了一种新颖的按需网络抽象服务,它提供了一个抽象的网络视图,不仅支持精确的端到端QoS指标,满足许多点对点应用的需求,而且支持多流关联,这对于包含许多流的带宽敏感应用进行全局网络优化至关重要。我们证明了我们的抽象视图与原始网络视图是等价的,在某种意义上,应用程序可以做出与完全信息相同的最优决策。我们的评估表明,抽象保证了网络优化的可行性和最优性,并保护了网络服务提供商的隐私。我们的评估还表明,该服务可以有效地实施;例如,对于具有30,000个链接和包含3,000个流的抽象请求的超大型网络,可以在不到一秒的时间内计算出抽象网络视图。
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