通过分级选择数据中心设计实例的可靠性

2010 IEEE Industrial and Commercial Power Systems Technical Conference - Conference Record Pub Date : 2010-05-09 DOI:10.1109/ICPS.2010.5489890

By Robert Arno, A. Friedl, P. Gross, R. Schuerger

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引用次数: 8

摘要

当可靠性的概念在50年代开始正式成为一种综合工程方法时，可靠性与故障率联系在一起。如今，“可靠性”一词被用作涵盖各种主题的总括性定义，包括可用性、耐用性、质量，有时还包括产品的功能。可靠性工程的发展是为了量化一个组件、产品或系统在特定时间内用于特定应用时的“可靠性”。数据中心行业已经开始依赖于Uptime Institute[1]的许多论文中提出的“层分类”，作为数据中心配置和要求的梯度尺度，从最低(第1层)到最可靠(第4层)。本文将把可靠性工程的原理和建模技术应用于基于层分类提供的梯度尺度选择的具体示例，并讨论结果。还将包括对正在使用的可靠性工程指标的回顾。

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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Reliability of example data center designs selected by tier classification

When the concept of reliability began to formally become an integrated engineering approach in the 50's, reliability was associated with failure rate. Today the term “reliability” is used as an umbrella definition covering a variety of subjects including availability, durability, quality and sometimes the function of the product. Reliability engineering was developed to quantify “how reliable” a component, product or system was when used in a specific application for a specific period of time. The data center industry has come to rely on “tier classifications” as presented in a number of papers by the Uptime Institute [1] as a gradient scale of data center configurations and requirements from least (Tier 1) to most reliable (Tier 4). This paper will apply the principles and modeling techniques of reliability engineering to specific examples that were selected based on gradient scale provided by the Tier Classifications and discuss the results. A review of the metrics of reliability engineering being used will also be included.

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2010 IEEE Industrial and Commercial Power Systems Technical Conference - Conference Record

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