Proactive Load Shifting for Distributed SDN Control Plane Architecture

Oluwatobi Akanbi, Amer Aljaedi, Xiaobo Zhou
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引用次数: 4

Abstract

Balancing the workload among distributed SDN controllers plays a critical role for both the network performance and the control plane scalability. Several distributed SDN controller architectures have been proposed to mitigate the risk of controller overload and failures. However, many of these architectures fall short for maintaining the same level of complexity in the control plane. A core implication of complex control plane can translate to a limitation in functional improvements of existing implementation. To address this issue, we propose a novel Proactive Load Shift (PLS) technique that augments the traditional SDN architecture with a shim layer to diminish the complexities in existing distributed SDN controller architectures. While our primary focus is on efficient workload distribution among SDN controllers in a distributed architecture, our shim layer also serves as a programmable abstraction for supporting new network functionalities in the SDN control plane and the data plane without infringing the SDN principles. To achieve optimal network performance in our proposed technique, we eliminate the need for inter-controller synchronization by delegating the synchronization sequence to the shim layer at a per-need based only. Our experimental results show that the PLS technique provides efficient responses to load balancing triggers with less overhead on the control plane.
分布式SDN控制平面架构的主动负载转移
分布式SDN控制器之间的工作负载均衡对于网络性能和控制平面的可扩展性至关重要。已经提出了几种分布式SDN控制器架构来降低控制器过载和故障的风险。然而,这些体系结构中的许多都无法在控制平面中保持相同级别的复杂性。复杂控制平面的核心含义可以转化为对现有实现的功能改进的限制。为了解决这个问题,我们提出了一种新的主动负载转移(PLS)技术,该技术通过一个衬垫层来增强传统的SDN架构,以减少现有分布式SDN控制器架构的复杂性。虽然我们主要关注的是分布式架构中SDN控制器之间的高效工作负载分配,但我们的shim层也可以作为可编程抽象,在不违反SDN原则的情况下支持SDN控制平面和数据平面中的新网络功能。为了在我们提出的技术中实现最佳的网络性能,我们通过仅根据需要将同步序列委托给shim层来消除控制器间同步的需要。我们的实验结果表明,PLS技术提供了有效的响应负载平衡触发器与较少的开销在控制平面上。
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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