Danger, Danger, High Voltage! Cooling the Data Centre in the AI Era

By Chris Carreiro, CTO, Park Place Technologies.

As we approach the era of artificial intelligence (AI), the data centre industry faces an unprecedented challenge. The question on every data centre operator's mind: How massive will the AI wave be, and will we have the energy and resource to manage it?

McKinsey projects that by 2030, data centres will consume a staggering 35 gigawatts of power annually, more than double the 17 gigawatts they're expected to use in 2022. These startling figures underscore the urgent need for more efficient cooling solutions to manage the energy consumption of our data-driven world. And just this month, the National Grid CEO warned that bold action is needed to create a network that can cope with the growing energy demand of AI and quantum computing. 

As operators design and manage data centres, the focus must be on energy-efficient hardware and software. Diversifying power sources is also key to providing the secure and plentiful power AI needs to thrive. The future of data centres in the AI era may be high voltage, but with careful planning and innovative cooling solutions, we can adapt to manage growing workloads.

So, how do we meet these increased power demands of AI while minimising its impact on the environment? One innovative solution is immersion cooling - and explores how it could help shape the future of sustainable data centres. Alongside this, we'll also touch upon other crucial aspects like upgrading and maintaining data centre equipment for optimal energy efficiency.

Cooling reimagined

With the number of internet users doubling in the last decade, and global internet traffic increasing 25-fold, the data centre industry is working hard to reduce the energy footprint in a number of areas. This includes cooling.

Immersion cooling is a revolutionary technology that's making waves in the data centre industry. It involves submerging servers in a non-conductive liquid, which allows for superior heat dissipation. Unlike air-based cooling systems, immersion cooling can handle the high-density loads of AI workloads without guzzling excessive energy or taking up valuable space.

This novel approach to cooling represents a significant departure from traditional methods. Instead of relying on air to cool servers, immersion cooling uses a special dielectric fluid. This fluid has 1,200 times the heat removal capacity of air, enabling it to effectively manage the extreme heat generated by today's high-performance servers.

But this technology isn't just about keeping things cool, it also offers substantial energy savings and environmental benefits. By eliminating the need for air conditioning units, immersion cooling can slash energy consumption by up to 90% compared to traditional air-conditioning. This reduction in energy use lowers operating costs and reduces carbon emissions, contributing to global efforts to combat climate change.

Making the transition

Despite its many advantages, transitioning to immersion cooling isn't a walk in the park. Data centre operators are challenged by several factors, including compatibility with existing infrastructure, cost implications, and the need for specialised maintenance.

Compatibility issues can pose significant challenges. Not all equipment is designed to be submerged in liquid, and modifications are necessary to make sure that servers and other components can withstand the immersion process. 

The introduction of a new cooling method can also disrupt established workflows and require additional training for staff to understand and manage the new system effectively. Employees must become proficient in managing and troubleshooting the new systems, as well as understanding the intricacies of how immersion cooling impacts server performance and longevity.

Cost is another critical factor. While immersion cooling can lead to significant savings in the long run, the initial investment can be substantial. Operators must consider the cost of purchasing and installing the necessary equipment, as well as ongoing maintenance expenses.

Maintenance of immersion cooling systems also requires specialised knowledge and skills. Regular checks are necessary to ensure the dielectric fluid remains clean and effective, and any leaks or spills must be promptly addressed to prevent damage to equipment.

The future of cooling

As we sail into the uncharted waters of the AI era, it's becoming increasingly clear that traditional cooling methods are no longer cutting it. Immersion cooling stands out as a promising solution, offering the potential to meet our escalating data needs while minimising environmental impact.

However, realising the full potential of this technology will require more than just plugging in and switching on. It calls for meticulous planning and strategic implementation. But with the right approach, immersion cooling could be the key to unlocking a cooler, greener future for data centres in the AI era.

Upgrading and maintaining for efficiency, beyond cooling

While cooling solutions are crucial in managing the power demands of AI, it's equally important to consider other aspects of data centre operations. Regularly updating hardware and software ensures that data centres are running at peak performance, reducing unnecessary energy consumption. For instance, older servers tend to consume more power than newer models designed with energy efficiency in mind. Replacing outdated equipment with modern, energy-efficient alternatives can lead to substantial energy savings.

Maintenance also plays a vital role in keeping data centres energy efficient. Routine checks can help identify potential issues before they become significant problems, saving both energy and costs in the long run. Regular maintenance ensures that all components are functioning optimally, preventing wastage of energy due to malfunctioning parts or systems.

Moreover, using energy management software can provide valuable insights into energy usage patterns, helping operators make informed decisions about where to focus their energy-saving efforts. Such software can identify areas of inefficiency, allowing operators to address these issues promptly.

The journey may be met with challenges, but the rewards promise to be well worth the effort. As we continue to push the boundaries of what's possible, one thing is certain: the future of sustainable data centres looking cooler than ever. By embracing innovative solutions like immersion cooling, we can ensure that our data centres are equipped to handle the demands of the AI era, while also doing our part to protect the planet.

By Marc Caiola – nVent Vice President of Global Data Solutions.
By Kamlesh Patel, VP Data Center Market Development at CommScope.
Relocation and replacement of cooling infrastructure on mission critical live data centre.
The positive impact of data centres on people, society, business and government. By Ed Ansett,...
By Sujatha Iyer, manager of AI in security, ManageEngine.
By Chris Wellfair, projects director at Secure I.T. Environments takes a look at data centre...
By Mike Meyer, Managing Director of Portman Partners.
By Ian Jeffs, UK&I Country General Manager at Lenovo Infrastructure Solutions Group.