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Sollers IT

Sollers IT

IT 服务与咨询

Driving Success with Innovative Technology and Training.

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www.sollers.co.za
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IT 服务与咨询
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2-10 人
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私人持股

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    查看Aram Tchekrekjian的档案

    Microsoft MVP | Daily tips to get better in .NET and C# | codingsonata.com | Technical Product Head at Aramex

    ? ?????? ???? ?????????????????? ???? .?????? Learn more about these great libraries that will boost your productivity and bring in massive features for your solutions ? Any more libraries to add? Repost this to spread the knowledge with your network ?

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    查看V/n Parvateezam的档案

    Management - Ideas -Technology

    ?Why Is Microsoft Submerging Data Centers Underwater? Data centers power our digital world, from the cloud to our apps. But running them requires huge energy, mainly for cooling. Enter Microsoft with a bold vision: placing data centers underwater, deep in the chilly seas off Scotland. And here’s the wild part—it’s working. Microsoft’s Project Natick has shown that seawater cooling is viable, slashing energy use and equipment failures. But is this a one-size-fits-all solution? And what about warmer regions—where demand for data centers is surging and the power needed to keep them cool is skyrocketing? In 2018, Microsoft sank its first data center pod off Scotland. Solar and wind powered the pod, with the ocean’s low temperatures cutting the need for complex cooling. The results amazed: after two years, only eight of 864 servers failed. A failure rate that low is practically unheard of, a fraction of what’s typical in land-based facilities. And as if that weren’t impressive enough, Project Natick chambers were filled with nitrogen and nearly oxygen-free—factors that further reduced server degradation. ?Can This Work in the Tropics? Here’s the twist: tropical nations like India, facing a surge in data needs, have a tougher challenge. While Scotland’s frigid seas naturally cool, tropical waters can’t do the same. That doesn’t mean underwater data centers in places like the Arabian Sea are impossible, but the thermal advantages in colder seas can’t simply be replicated. Cooling requirements skyrocket in warm waters, quickly eating power savings. So, is it worth exploring underwater options in these areas? Yes—but only with strategic planning and foresight. To understand what’s possible, we may need to jump in, feet first, with dedicated experimental deployments, not expecting immediate returns but committing to understanding what adaptations work best in this environment. ?Taking the Dive: A Sunk Cost with Strategic Returns To succeed, nations like India must be ready to invest in foundational research—yes, “sunk costs”—to get these ambitious trials off the ground. In some ways, these costs are the price of innovation, a strategic bet that takes vision and commitment. By investing in trials that study tropical seawater cooling and hybrid technologies (perhaps submerged data centers in inland lakes with more stable temperatures), India can open up new paths to efficient, sustainable data storage. Project Natick has sparked a vision of the future. But for tropical countries to make it their own, it’ll require local ingenuity and tailored solutions. Rather than simply adopting the cold-sea model, nations like India must consider ways to reimagine underwater cooling, adapted to their own environmental realities. The time for visionary steps is now—steps that could rewrite the future of sustainable tech infrastructure in places where it’s needed most. [An After Thought] - in the Comments ?Exploring the Himalayas: Another Cooling Frontier?

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