全会概念:提高数据中心的可扩展性、安全性和效率

D. Hackenberg
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引用次数: 3

摘要

数据中心是非常昂贵的结构,无论是资本支出还是运营支出。IT业务的高创新率与数据中心的长期性相矛盾。为了确保终生可用性,灵活性是任何数据中心设计的主要关注点。数据中心空气冷却的最新发展,特别是用于冷热空气分离的密封解决方案,使人们能够重新思考传统的数据中心设计方法。在本文中,我们提出了全会的概念,代表了传统设计原则的重大改革。我们的方法需要建造一个完整的额外建筑层,而不是传统的高架地板。然后,我们将机房空气处理(CRAH)单元直接放置在机架的热通道下方。热空气的向下流动方向使得严格使用冷热空气分离成为强制性的。我们的方法最大限度地减少或消除了IT层的支撑空间,将几乎所有的支撑结构移动到全会室内,并在两个空间之间创建非常干净的界面。这大大减少了对IT层支持人员的需求。反之亦然,IT人员不需要访问支持空间,从而简化了数据中心的操作。德累斯顿工业大学(TU Dresden)目前正在建设的一个5mw数据中心的规划过程表明,在IT层以下建造一个完整的建筑楼层,而不是传统的高架楼层,并不一定会增加建筑体积。通道的简化和IT人员与支持人员的分离减少了走廊和通道空间。我们表明,与传统方法相比,整体建筑体积甚至可以减少。我们的设计在一个高效的CRAH工作点上轻松支持每个机架超过15 kW的平均热负荷,具有n+1 CRAH单元冗余,并且在机房大小方面几乎没有可扩展性限制。
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The Plenum concept: Improving scalability, security, and efficiency for data centers
Data centers are very costly structures, both in terms of capital and operational expenditures. The high innovation rate in the IT business conflicts with the long-term character of data centers. In order to ensure lifetime usability, flexibility is a major concern for any data center design. Recent developments of data center air-cooling, in particular containment solutions for hot/cold air separation, allow rethinking of traditional data center design approaches. In this paper we present the Plenum concept that represents a major overhaul of traditional design principles. Our approach requires the construction of a full additional building story instead of a traditional raised floor. We then position the computer room air-handling (CRAH) units directly below the hot aisle of a block of racks. The down- ward flow direction of hot air makes the strict use of hot/cold air separation mandatory. Our approach minimizes or eliminates support space on the IT floor, moves almost all support structures into the Plenum, and creates very clean interfaces between both spaces. This greatly reduces the need for support personnel on the IT floor. Vice versa, IT personnel does not need to access support spaces, allowing for simplified data center operations. Insight from the planning process of a 5 MW data center currently under construction at TU Dresden shows that the construction of a full building story below the IT floor instead of a traditional raised floor does not necessarily increase the building volume. The simplified access and the separation of IT and support personnel reduces corridor and access spaces. We show that the overall building volume can even be decreased in comparison to classical approaches. Our design easily supports more than 15 kW average heat loads per rack with n+1 CRAH unit redundancy at a highly efficient CRAH operating point and with little scalability limitations regarding computer room size.
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