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The chips inside our servers all natively use DC power. Inside the box, a rectifier turns AC into the direct current that the silicon wants. The majority of racks though still have AC power strips or "power distribution units," but there's a head of steam for DC distribution.
In this supplement we look at why environmentally-conscious data centers are re-examining efficiency, and how a lot of new power sources inherently provide DC power despite DC being?viewed by many as unsafe.
With high-performance servers for AI workloads pushing data centers to their limits, traditional air cooling methods are struggling to keep up, leading to decreased efficiency and potential performance issues due to overheating. AI demand isn't going anywhere, so innovative cooling solutions are essential.
领英推荐
In this whitepaper, we offer invaluable insights into liquid cooling systems specifically tailored for AI workloads and a comprehensive guide to selecting the right liquid cooling architecture for your facility.
The future of IT thermal management has arrived, and it’s a hybrid of air and liquid cooling technologies. Enterprises are adopting high-performance computing (HPC) for artificial intelligence (AI) and machine learning (ML) model training and inference, causing a fast rise in chip, server, and rack densities, power consumption, and heat levels. Air cooling alone can’t abate hot-running equipment effectively.
This guide discusses how to take a 1 MW IT load that is currently air cooled and add the incremental liquid cooling infrastructure to create a hybrid system (hereafter called hybrid cooling infrastructure).
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