Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities
At present, a co-location data center often applies an identical and low temperature setpoint for its all server rooms. Although increasing the temperature setpoint is a rule-of-thumb approach to reducing the cooling energy usage, the tenants may have different mentalities and technical constraints...
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sg-ntu-dr.10356-1628592022-11-11T04:05:55Z Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities Wang, Rongrong Le, Duc Van Tan, Rui Wong, Yew Wah School of Computer Science and Engineering Energy Research Institute @ NTU (ERI@N) Engineering::Computer science and engineering Thermal Issues Cooling Power Attribution At present, a co-location data center often applies an identical and low temperature setpoint for its all server rooms. Although increasing the temperature setpoint is a rule-of-thumb approach to reducing the cooling energy usage, the tenants may have different mentalities and technical constraints in accepting higher temperature setpoints. Thus, supporting distinct temperature setpoints is desirable for a co-location data center in pursuing higher energy efficiency. This calls for a new cooling power attribution scheme to address the inter-room heat transfers that can be up to 9% of server load as shown in our real experiments. This article describes our approaches to estimating the inter-room heat transfers, using the estimates to rectify the metered power usages of the rooms' air handling units, and fairly attributing the power usage of the shared cooling infrastructure (i.e., chiller and cooling tower) to server rooms by following the Shapley value principle. Extensive numeric experiments based on a widely accepted cooling system model are conducted to evaluate the effectiveness of the proposed cooling power attribution scheme. A case study suggests that the proposed scheme incentivizes rational tenants to adopt their highest acceptable temperature setpoints under a non-cooperative game setting. Further analysis considering distinct relative humidity setpoints shows that our proposed scheme also properly and inherently addresses the attribution of humidity control power. National Research Foundation (NRF) This project was supported by the National Research Foundation, Singapore, funded under the Energy Research Test-Bed and Industry Partnership Funding Initiative, part of the Energy Grid (EG) 2.0 program. 2022-11-11T04:05:55Z 2022-11-11T04:05:55Z 2022 Journal Article Wang, R., Le, D. V., Tan, R. & Wong, Y. W. (2022). Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities. ACM Transactions On Cyber-Physical Systems, 6(1), 1-28. https://dx.doi.org/10.1145/3494578 2378-962X https://hdl.handle.net/10356/162859 10.1145/3494578 2-s2.0-85123986068 1 6 1 28 en ACM Transactions on Cyber-Physical Systems © 2022 Association for Computing Machinery. All rights reserved. |
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Engineering::Computer science and engineering Thermal Issues Cooling Power Attribution Wang, Rongrong Le, Duc Van Tan, Rui Wong, Yew Wah Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| description |
At present, a co-location data center often applies an identical and low temperature setpoint for its all server rooms. Although increasing the temperature setpoint is a rule-of-thumb approach to reducing the cooling energy usage, the tenants may have different mentalities and technical constraints in accepting higher temperature setpoints. Thus, supporting distinct temperature setpoints is desirable for a co-location data center in pursuing higher energy efficiency. This calls for a new cooling power attribution scheme to address the inter-room heat transfers that can be up to 9% of server load as shown in our real experiments. This article describes our approaches to estimating the inter-room heat transfers, using the estimates to rectify the metered power usages of the rooms' air handling units, and fairly attributing the power usage of the shared cooling infrastructure (i.e., chiller and cooling tower) to server rooms by following the Shapley value principle. Extensive numeric experiments based on a widely accepted cooling system model are conducted to evaluate the effectiveness of the proposed cooling power attribution scheme. A case study suggests that the proposed scheme incentivizes rational tenants to adopt their highest acceptable temperature setpoints under a non-cooperative game setting. Further analysis considering distinct relative humidity setpoints shows that our proposed scheme also properly and inherently addresses the attribution of humidity control power. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Wang, Rongrong Le, Duc Van Tan, Rui Wong, Yew Wah |
| format |
Article |
| author |
Wang, Rongrong Le, Duc Van Tan, Rui Wong, Yew Wah |
| author_sort |
Wang, Rongrong |
| title |
Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| title_short |
Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| title_full |
Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| title_fullStr |
Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| title_full_unstemmed |
Real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| title_sort |
real-time cooling power attribution for co-located data center rooms with distinct temperatures and humidities |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162859 |
| _version_ |
1751548504922128384 |