Trading off Power Consumption and Delay in the Execution of Network Functions by Dynamic Activation of Processing Units

2022 IEEE 8th International Conference on Network Softwarization (NetSoft) Pub Date : 2022-06-27 DOI:10.1109/NetSoft54395.2022.9844039

R. Bolla, R. Bruschi, A. Carrega, F. Davoli, C. Lombardo

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Abstract

Beside increasing flexibility and programmability, the current network “softwarization” trend is believed to be beneficial also in respect of energy efficiency, owing to the consolidation of resources made possible by virtualized networking components. However, the widespread use of general-purpose hardware may jeopardize energy saving, unless proper control strategies are put in operation. In this context, the paper addresses a “smart sleeping” control problem, where computing resources in multi-core processors executing network functions are modelled as multi-server queues, and the number of active processing units (either physical or virtual) can be dynamically adjusted by parametric control over a time scale compatible with the long-term dynamics of the traffic flows that require processing. We show that, on average, up to 25% of processing capacity of a network node can be turned off in the presence of bursty traffic with low load without significantly affecting packet latency.

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通过动态激活处理单元来权衡网络功能执行中的功耗和延迟

除了增加灵活性和可编程性外，目前的网络“软件化”趋势据信在能源效率方面也有好处，因为虚拟化的网络组件可以整合资源。然而，通用硬件的广泛使用可能会危及节能，除非采取适当的控制策略。在这种情况下，本文解决了一个“智能睡眠”控制问题，其中执行网络功能的多核处理器中的计算资源被建模为多服务器队列，并且活动处理单元(物理或虚拟)的数量可以通过参数控制在与需要处理的流量的长期动态兼容的时间尺度上动态调整。我们表明，平均而言，在低负载的突发流量存在时，可以关闭网络节点高达25%的处理能力，而不会显着影响数据包延迟。

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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2022 IEEE 8th International Conference on Network Softwarization (NetSoft)

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