基于 CSO 的高效资源管理实现可持续云计算

K. Shanmugam, Satyam K, T. Rajasekhar
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引用次数: 0

摘要

云数据中心的广泛使用导致了对云托管应用服务的普遍需求。不仅如此,当前应用程序的资源需求也急剧增加,特别是在数据密集型企业中。这导致可用的云服务器数量增加,增加了能源使用量,引发了环境问题。传统的启发式和基于强化学习的技术只能部分解决云资源管理中的可扩展性和适应性难题。许多现有研究忽视了主机温度、任务资源使用和调度决策之间的相互依存关系。特别是在资源需求波动的情况下,这会导致可扩展性差和计算资源需求激增。该研究推荐了一种基于资源调度的整体资源管理策略,用于持久云计算,以解决这些限制。该模型将能源、热能和冷却模型都考虑在内,将数据中心能效优化表述为一个多目标调度问题。为了在给定系统状态下生成最优调度决策和近似服务质量(QoS),该模型采用了基于猫群优化的代理模型。我们利用中国远洋运输总公司(COSCO)框架进行了实验,证明在模拟和真实世界的云环境中,云服务编排器(CSO)在能量摄取、时间跨度和执行开销方面的性能均优于最先进的基线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CSO-based Efficient Resource Management for Sustainable Cloud Computing
The pervasive need for cloud-hosted application services has resulted from the widespread use of cloud data centers. Not only that, but there has been a dramatic increase in the resource demands of current applications, especially in data-intensive businesses. This has resulted in an increase in the number of cloud servers made available, which has increased energy usage and prompted environmental concerns. Only partially do the difficulties of scalability and adaptability in cloud resource management get addressed by conventional heuristics and reinforcement learning-based techniques. Many existing works overlook the interdependencies between host temperature, task resource usage, and scheduling decisions. Especially in contexts with fluctuating resource demands, this results in poor scalability and an upsurge in computing resource requirements. The study recommended a holistic resource management strategy based on resource scheduling for enduring cloud computing as a solution to these restrictions. Energy, thermal, and cooling models are all taken into account in the proposed model, which expresses the optimization of data center energy efficiency as a multi-objective scheduling issue. To generate optimal scheduling decisions and approximate the quality of service (QoS) for a given system state, the model employs cat-based swarm optimization as a surrogate model. Using the China Ocean Shipping Company (COSCO) framework, we conducted experiments that demonstrate cloud service orchestrator (CSO)’s superior performance compared to state-of-the-art baselines in terms of energy ingesting, makespan, and execution overhead in both simulated and real-world cloud environments.
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