Green Cloud? An Empirical Analysis of Cloud Computing and Energy Efficiency

Manag. Sci. Pub Date : 2022-06-07 DOI:10.1287/mnsc.2022.4442
Jiyong Park, Kunsoo Han, Byungtae Lee
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引用次数: 9

Abstract

The rapid, widespread adoption of cloud computing over the last decade has sparked debates on its environmental impacts. Given that cloud computing alters the dynamics of energy consumption between service providers and users, a complete understanding of the environmental impacts of cloud computing requires an investigation of its impact on the user side, which can be weighed against its impact on the vendor side. Drawing on production theory and using a stochastic frontier analysis, this study examines the impact of cloud computing on users’ energy efficiency. To this end, we develop a novel industry-level measure of cloud computing based on cloud-based information technology (IT) services. Using U.S. economy-wide data from 57 industries during 1997–2017, our findings suggest that cloud-based IT services improve users’ energy efficiency. This effect is found to be significant only after 2006, when cloud computing started to be commercialized, and becomes even stronger after 2010. Moreover, we find heterogeneous impacts of cloud computing, depending on the cloud service models, energy types, and internal IT hardware intensity, which jointly assist in teasing out the underlying mechanisms. Although software-as-a-service (SaaS) is significantly associated with both electric and nonelectric energy efficiency improvement across all industries, infrastructure-as-a-service (IaaS) is positively associated only with electric energy efficiency for industries with high IT hardware intensity. To illuminate the mechanisms more clearly, we conduct a firm-level survey analysis, which demonstrates that SaaS confers operational benefits by facilitating energy-efficient production, whereas the primary role of IaaS is to mitigate the energy consumption of internal IT equipment and infrastructure. According to our industry-level analysis, the total user-side energy cost savings from cloud computing in the overall U.S. economy are estimated to be USD 2.8–12.6 billion in 2017 alone, equivalent to a reduction in electricity use by 31.8–143.8 billion kilowatt-hours. This estimate exceeds the total energy expenditure in the cloud service vendor industries and is comparable to the total electricity consumption in U.S. data centers. This paper was accepted by Chris Forman, information systems.
绿云?云计算与能源效率的实证分析
在过去十年中,云计算的迅速、广泛采用引发了关于其环境影响的争论。鉴于云计算改变了服务提供商和用户之间的能源消耗动态,要全面了解云计算对环境的影响,就需要调查其对用户端的影响,并将其与对供应商端的影响进行权衡。利用生产理论和随机前沿分析,本研究考察了云计算对用户能源效率的影响。为此,我们基于基于云的信息技术(IT)服务开发了一种新的行业级云计算度量。利用1997-2017年美国57个行业的经济数据,我们的研究结果表明,基于云的IT服务提高了用户的能源效率。这种影响仅在2006年云计算开始商业化之后才显现出来,并在2010年之后变得更加强烈。此外,我们发现云计算的异构影响取决于云服务模型、能源类型和内部IT硬件强度,这些影响共同有助于梳理出底层机制。尽管软件即服务(SaaS)与所有行业的电力和非电力能源效率改进都有显著关联,但基础设施即服务(IaaS)仅与IT硬件强度高的行业的电力能源效率呈正相关。为了更清楚地阐明这一机制,我们进行了一项公司层面的调查分析,该分析表明,SaaS通过促进节能生产来带来运营效益,而IaaS的主要作用是减轻内部IT设备和基础设施的能源消耗。根据我们的行业层面分析,仅在2017年,云计算在美国整体经济中节省的总用户侧能源成本估计为28 - 126亿美元,相当于减少用电量318 - 1438亿千瓦时。这一估计超过了云服务供应商行业的总能源消耗,与美国数据中心的总电力消耗相当。这篇论文被信息系统的Chris Forman接受。
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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