Thermal aware workload consolidation in cloud data centers

2016 IEEE 12th International Conference on Intelligent Computer Communication and Processing (ICCP) Pub Date : 2016-09-01 DOI:10.1109/ICCP.2016.7737177

Marcel Antal, Cristian Pintea, Eugen Pintea, Claudia Pop, T. Cioara, I. Anghel, I. Salomie

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引用次数: 13

Abstract

This paper addresses the problem of Data Centers (DC) energy efficiency by proposing a complex consolidation technique which aims at optimizing the DC operation such that both the IT equipment power consumption and cooling system power consumption is minimized. The paper presents a thermo-electrical DC model that defines the relation between the server utilization due to VM deployment, the server room ambient temperature and the cooling system load needed to dissipate the corresponding heat. Furthermore, a set of approximation algorithms and heuristics are presented to solve the resulting NP-hard thermal-aware consolidation problem. Finally, simulation results on some predefined scenarios show that the proposed techniques improve the DC energy consumption with 5% up to 20% compared to the well-known First-Fit algorithm by deploying VMs on servers with low thermal influence. This allows the cooling system to increase its air supply temperature with up to 10 degrees Celsius, leading to lower power consumption.

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云数据中心的热感知工作负载整合

本文通过提出一种复杂的整合技术来解决数据中心(DC)的能源效率问题，该技术旨在优化数据中心的运行，从而使IT设备的功耗和冷却系统的功耗最小化。本文提出了一个热电直流模型，该模型定义了虚拟机部署引起的服务器利用率、服务器室环境温度和散热所需的冷却系统负荷之间的关系。此外，提出了一套近似算法和启发式算法来解决由此产生的NP-hard热感知固结问题。最后，在一些预定义场景下的仿真结果表明，通过将虚拟机部署在热影响较小的服务器上，与著名的First-Fit算法相比，所提出的技术可将直流能耗提高5%至20%。这使得冷却系统可以将其供气温度提高10摄氏度，从而降低功耗。

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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来源期刊

2016 IEEE 12th International Conference on Intelligent Computer Communication and Processing (ICCP)

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