Energy Efficiency Support for Software Defined Networks: a Serverless Computing Approach

arXiv - CS - Distributed, Parallel, and Cluster Computing Pub Date : 2024-09-17 DOI:arxiv-2409.11208

Fatemeh Banaie, Karim Djemame, Abdulaziz Alhindi, Vasilios Kelefouras

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Abstract

Automatic network management strategies have become paramount for meeting the needs of innovative real-time and data-intensive applications, such as in the Internet of Things. However, meeting the ever-growing and fluctuating demands for data and services in such applications requires more than ever an efficient and scalable network resource management approach. Such approach should enable the automated provisioning of services while incentivising energy-efficient resource usage that expands throughout the edge-to-cloud continuum. This paper is the first to realise the concept of modular Software-Defined Networks based on serverless functions in an energy-aware environment. By adopting Function as a Service, the approach enables on-demand deployment of network functions, resulting in cost reduction through fine resource provisioning granularity. An analytical model is presented to approximate the service delivery time and power consumption, as well as an open-source prototype implementation supported by an extensive experimental evaluation. The experiments demonstrate not only the practical applicability of the proposed approach but significant improvement in terms of energy efficiency.

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软件定义网络的能效支持：无服务器计算方法

要满足创新型实时和数据密集型应用（如物联网）的需求，自动网络管理策略已变得至关重要。然而，要满足此类应用中不断增长和波动的数据和服务需求，比以往任何时候都更需要高效和可扩展的网络资源管理方法。这种方法应能自动提供服务，同时鼓励在从边缘到云的整个过程中高效使用能源。本文首次在能源感知环境中实现了基于无服务器功能的模块化软件定义网络概念。通过采用 "功能即服务"（Function asa Service），该方法实现了网络功能的按需部署，通过精细的资源调配粒度降低了成本。本文提出了一个用于估算服务交付时间和功耗的分析模型，以及一个开源原型实施方案，并辅以广泛的实验评估。实验证明，所提出的方法不仅具有实际应用性，而且在能效方面也有显著提高。

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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arXiv - CS - Distributed, Parallel, and Cluster Computing

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