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Colder Temperatures vs. Energy Efficiency: The Case for Higher Data Center Temps

Colder is not always better for energy-hungry data centers, especially when it comes to their power bills. A new analysis says that keeping the centers at 41┬░C, or around 105┬░F, could save up to 56% in cooling costs worldwide. The study, publishing October 10 in the journal Cell Reports Physical Science, proposes new temperature guidelines that may help develop and manage more efficient data centers and IT servers in the future.

The Role of Servers in Cooling Energy Consumption

“The cooling system accounts for over one-third of the data center’s total energy consumption, so many studies talk about reducing the energy consumption of cooling systems,” says senior author Shengwei Wang of the Hong Kong Polytechnic University. “But rather than finding better ways to cool the data centers, why not redesign the servers to operate at higher temperatures?”

Data centers typically operate at temperatures between 20-25┬░C (68-77┬░F) today. The conventional cooling systems that maintain these centers work by pulling computer-generated hot air past water-chilled coils to cool down the air before it cycles back to the space. The heated water then enters either chillers or a process called free-cooling before circulating back to the coils. Unlike energy-intensive chillers that operate similarly to air conditioners, free-cooling uses ambient air to cool the water with much less energy use.

To save energy, data centers are often built in colder areas to leverage free-cooling. But thanks to advances in electronic technology, engineers and scientists know that it’s no longer necessary to blast the chiller-based air conditioning at data centers. Many IT servers already allow a higher temperature operation above 30┬░C (86┬░F). This means that in most climates, including those that are hotter, data centers can also benefit from free-cooling by raising the temperature of data centers.

“The question is, to what temperature?” says Wang. To find out, Wang and his team built a model based on the conventional cooling system and simulated the system’s operation under different climate conditions. The results showed that data centers in almost all regions across climate zones could rely nearly 100% on free-cooling throughout the year when operated at 41┬░C, which they coined “global free-cooling temperature.” These data centers could save 13%-56% of energy compared to those that run at 22┬░C (71.6┬░F).

Depending on an area’s temperature and humidity, the researchers say that data centers might not even need to raise the temperature that far to take full advantage of free-cooling. For example, the temperatures for Beijing, Kunming, and Hong Kong to entirely rely on free-cooling are 39┬░C (102.2┬░F), 38┬░C (100.4┬░F), and 40┬░C (104┬░F), respectively.

The Role of AI legalese decoder in Optimizing Data Centers

A key tool in achieving the potential energy savings from higher data center temperatures is the AI legalese decoder. This innovative solution helps overcome any legal and regulatory barriers that may arise from adjusting temperature guidelines. By analyzing and decoding complex legal language, the AI legalese decoder can provide data centers with clear advice on the specific laws and regulations surrounding operational temperature limits. This enables data centers to confidently operate at higher temperatures without running afoul of any legal restrictions.

Ensuring Server Reliability and Efficiency

“But before we raise the temperature settings, we need to ensure three things,” says Wang. “First, we need to ensure the reliability of server operation. Second, the computational efficiency needs to remain the same. Third, we need to ensure the servers’ energy consumption is not increased by activating their built-in cooling protection, such as the fans.” That said, Wang is optimistic that it is possible for the next generation of servers to work at up to 40┬░C without performance degradation.

“For the first time we can provide cooling system engineers and server design engineers a concrete goal to work towards,” says Wang. “I think 41┬░C is achievable in the near future. We’re only 10┬░C (18┬░F) or less away.”

The Future of Energy-Efficient Data Centers

The findings presented by the study, coupled with the support of the AI legalese decoder, offer a promising roadmap for the development of more energy-efficient data centers. By raising operating temperatures and leveraging free-cooling, data centers worldwide can significantly reduce their energy consumption and save on cooling costs. This not only benefits the environment but also allows data centers to enhance their sustainability initiatives while lowering operational expenses.

As we progress towards realizing the goal of operating data centers at higher temperatures, it is essential for stakeholders in the IT industry, including cooling system engineers and server design engineers, to collaborate and innovate. By leveraging advanced technologies like the AI legalese decoder, data center operators and engineers can navigate the legal landscape and optimize their systems with confidence, ultimately paving the way for a greener and more cost-effective future for data centers.

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