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Hauptverfasser: Marinoni, Andrea, Cambria, Erik, Lin, Weisi, Mura, Mauro Dalla, Chanussot, Jocelyn, Ragusa, Edoardo, Tso, Chi Yan, Zhu, Yihao, Horton, Benjamin
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2603.20897
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author Marinoni, Andrea
Cambria, Erik
Lin, Weisi
Mura, Mauro Dalla
Chanussot, Jocelyn
Ragusa, Edoardo
Tso, Chi Yan
Zhu, Yihao
Horton, Benjamin
author_facet Marinoni, Andrea
Cambria, Erik
Lin, Weisi
Mura, Mauro Dalla
Chanussot, Jocelyn
Ragusa, Edoardo
Tso, Chi Yan
Zhu, Yihao
Horton, Benjamin
contents The strong and continuous increase of AI-based services leads to the steady proliferation of AI data centres worldwide with the unavoidable escalation of their power consumption. It is unknown how this energy demand for computational purposes will impact the surrounding environment. Here, we focus our attention on the heat dissipation of AI hyperscalers. Taking advantage of land surface temperature measurements acquired by remote sensing platforms over the last decades, we are able to obtain a robust assessment of the temperature increase recorded in the areas surrounding AI data centres globally. We estimate that the land surface temperature increases by 2°C on average after the start of operations of an AI data centre, inducing local microclimate zones, which we call the data heat island effect. We assess the impact on the communities, quantifying that more than 340 million people could be affected by this temperature increase. Our results show that the data heat island effect could have a remarkable influence on communities and regional welfare in the future, hence becoming part of the conversation around environmentally sustainable AI worldwide.
format Preprint
id arxiv_https___arxiv_org_abs_2603_20897
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The data heat island effect: quantifying the impact of AI data centers in a warming world
Marinoni, Andrea
Cambria, Erik
Lin, Weisi
Mura, Mauro Dalla
Chanussot, Jocelyn
Ragusa, Edoardo
Tso, Chi Yan
Zhu, Yihao
Horton, Benjamin
Computers and Society
Artificial Intelligence
Hardware Architecture
The strong and continuous increase of AI-based services leads to the steady proliferation of AI data centres worldwide with the unavoidable escalation of their power consumption. It is unknown how this energy demand for computational purposes will impact the surrounding environment. Here, we focus our attention on the heat dissipation of AI hyperscalers. Taking advantage of land surface temperature measurements acquired by remote sensing platforms over the last decades, we are able to obtain a robust assessment of the temperature increase recorded in the areas surrounding AI data centres globally. We estimate that the land surface temperature increases by 2°C on average after the start of operations of an AI data centre, inducing local microclimate zones, which we call the data heat island effect. We assess the impact on the communities, quantifying that more than 340 million people could be affected by this temperature increase. Our results show that the data heat island effect could have a remarkable influence on communities and regional welfare in the future, hence becoming part of the conversation around environmentally sustainable AI worldwide.
title The data heat island effect: quantifying the impact of AI data centers in a warming world
topic Computers and Society
Artificial Intelligence
Hardware Architecture
url https://arxiv.org/abs/2603.20897