Search This Blog

Powered by Blogger.

Blog Archive

Labels

Showing posts with label Data Centre. Show all posts

Five Challenges to Adoption of Liquid Cooling in Data Centers

 

Data centre liquid cooling systems are becoming increasingly popular due to their greater heat management effectiveness when compared to traditional air cooling methods. However, as technology advances, new security issues emerge, such as cybersecurity and physical risks. 

These concerns are critical to industry professionals as they can result in data breaches, system disruptions, and considerable operational downtime. Understanding and minimising these risks ensures that a data centre is reliable and secure. This method emphasises the significance of a comprehensive approach to digital and physical security in the changing landscape of data centre cooling technology. 

But the transition from air to liquid is not easy. Here are some of the main challenges to the implementation of liquid cooling in data centres: 

Two cooling systems instead of one

It is rarely practical for an established data centre to switch to liquid cooling one rack at a time. The facilities personnel will have to operate two cooling systems rather than one, according to Lex Coors, chief data centre technology and engineering officer of Interxion, the European colocation behemoth. This makes liquid cooling a better option for new data centres or those in need of a major overhaul. 

No standards 

The lack of industry standards for liquid cooling is a significant barrier to widespread use of the technology. "The customer, first of all, has to come with their own IT equipment ready for liquid cooling," Coors stated. "And it's not very standardized -- we can't simply connect it and let it run.” Interxion does not currently have consumers using liquid cooling, but the company is prepared to support it if necessary, according to Coors. 

Corrosion

Corrosion is a challenge in liquid cooling, as it is in any system that uses water to flow through pipes. "Corrosion in those small pipes is a big issue, and this is one of the things we are trying to solve today," Mr. Coors added. Manufacturers are improving pipelines to reduce the possibility of leaks and to automatically close if one occurs. 

Physical security 

Physical tampering with data centre liquid cooling systems poses serious security threats since unauthorised modifications can disrupt operations and jeopardise system integrity. Malicious insiders, such as disgruntled or contractors, can use their physical access to change settings, introduce contaminants, or disable cooling devices. 

Such acts can cause overheating, device failures, and protracted downtime, compromising data centre performance and security. Insider threats highlight the importance of rigorous access controls, extensive background checks, and ongoing monitoring of personnel activities. These elements help to prevent and respond promptly to physical sabotage. 

Operational complexity 

The company that offers colocation and cloud computing services, Markley Group, plans to implement liquid cooling in a high-performance cloud data centre early next year. According to Jeff Flanagan, executive VP of Markley Group, the biggest risk could be increased operational complexity. 

"As a data center operator, we prefer simplicity," he said. "The more components you have, the more likely you are to have failure. When you have chip cooling, with water going to every CPU or GPU in a server, you're adding a lot of components to the process, which increases the potential likelihood of failure.”

The Rising Energy Demand of Data Centres and Its Impact on the Grid

 



In a recent prediction by the National Grid, it's anticipated that the energy consumption of data centres, driven by the surge in artificial intelligence (AI) and quantum computing, will skyrocket six-fold within the next decade. This surge in energy usage is primarily attributed to the increasing reliance on data centres, which serve as the backbone for AI and quantum computing technologies.

John Pettigrew, the Chief Executive of National Grid, emphasised the urgent need for proactive measures to address the escalating energy demands. He highlighted the necessity of transforming the current grid infrastructure to accommodate the rapidly growing energy needs, driven not only by technological advancements but also by the rising adoption of electric cars and heat pumps.

Pettigrew underscored the pivotal moment at hand, stressing the imperative for innovative strategies to bolster the grid's capacity to sustainably meet the surging energy requirements. With projections indicating a doubling of demand by 2050, modernising the ageing transmission network becomes paramount to ensure compatibility with renewable energy sources and to achieve net-zero emissions by 2050.

Data centres, often referred to as the digital warehouses powering our modern technologies, play a crucial role in storing vast amounts of digital information and facilitating various online services. However, the exponential growth of data centres comes at an environmental cost, with concerns mounting over their substantial energy consumption.

The AI industry, in particular, has garnered attention for its escalating energy needs, with forecasts suggesting energy consumption on par with that of entire nations by 2027. Similarly, the emergence of quantum computing, heralded for its potential to revolutionise computation, presents new challenges due to its experimental nature and high energy demands.

Notably, in regions like the Republic of Ireland, home to numerous tech giants, data centres have become significant consumers of electricity, raising debates about infrastructure capacity and sustainability. The exponential growth in data centre electricity usage has sparked discussions on the environmental impact and the need for more efficient energy management strategies.

While quantum computing holds promise for scientific breakthroughs and secure communications, its current experimental phase underscores the importance of addressing energy efficiency concerns as the technology evolves.

In the bigger picture, as society embraces transformative technologies like AI and quantum computing, the accompanying surge in energy demand poses critical challenges for grid operators and policymakers. Addressing these challenges requires collaborative efforts to modernise infrastructure, enhance energy efficiency, and transition towards sustainable energy sources, ensuring a resilient and environmentally conscious energy landscape for future generations.