A quantitative analysis of cooling power in container-based data centers

2011 IEEE International Symposium on Workload Characterization (IISWC) Pub Date : 2011-11-06 DOI:10.1109/IISWC.2011.6114197

Amer Qouneh, Chao Li, Tao Li

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引用次数: 23

Abstract

Cooling power is often represented as a single taxed cost on the total energy consumption of the data center. Some estimates go as far as 50% of the total energy demand. However, this view is rather simplistic in the presence of a multitude of cooling options and optimizations. In response to the rising cost of energy, the industry introduced modular design in the form of containers to serve as the new building block for data centers. However, it is still unclear how efficient they are compared to raised-floor data centers and under what conditions they are preferred. In this paper, we provide comparative and quantitative analysis of cooling power in both container-based and raised-floor data centers. Our results show that a container achieves 80% and 42% savings in cooling and facility powers respectively compared to a raised-floor data center and that savings of 41% in cooling power are possible when workloads are consolidated onto the least number of containers. We also show that cooling optimizations are not very effective at high utilizations; and that a raised-floor data center can approach the efficiency of a container at low utilizations when employing a simple cooling optimization.

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基于容器的数据中心冷却功率的定量分析

冷却功率通常表示为数据中心总能耗的单一纳税成本。一些估计数字高达总能源需求的50%。然而，在存在大量冷却选项和优化的情况下，这种视图相当简单。为了应对不断上升的能源成本，业界引入了容器形式的模块化设计，作为数据中心的新构建块。然而，与架空数据中心相比，它们的效率如何，以及在什么条件下它们更受欢迎，目前还不清楚。在本文中，我们对基于容器和架空数据中心的冷却功率进行了比较和定量分析。我们的结果表明，与架空数据中心相比，容器在冷却和设施功耗方面分别节省了80%和42%，当工作负载被整合到最少数量的容器上时，可以节省41%的冷却功耗。我们还表明，冷却优化在高利用率下不是很有效;并且，当采用简单的冷却优化时，高架地板数据中心可以在低利用率下接近容器的效率。

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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2011 IEEE International Symposium on Workload Characterization (IISWC)

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