When Nvidia announced its Rubin series of GPUs in March, it also dropped a bomb: racks built with the Ultra version of the chip, which is expected to be released in 2027, could draw up to 600 kilowatts of electricity. That’s nearly twice as much juice as some of the fastest EV chargers can deliver today.
As data center racks become that power-hungry, one of the biggest hurdles will be figuring out how to keep them cool. One startup thinks stacks of metal are the answer.
Alloy Enterprises has developed a technology that turns sheets of copper into solid cooling plates for GPUs and for peripheral chips, the supporting components like memory and networking hardware that account for about 20% of a server’s cooling load.
“We didn’t care too much about that 20% when racks were 120 kilowatts,” Ali Forsyth, co-founder and CEO of Alloy Enterprises, told TechCrunch. But now, as racks have hit 480 kilowatts on their way to 600 kilowatts, engineers have to figure out how to liquid cool everything from RAM to networking chips, parts for which there are no solutions available today.
Alloy’s approach uses additive manufacturing (building objects layer by layer) to produce cold plates that are capable of squeezing into tight spots while withstanding the high pressures that liquid cooling can demand.
Image Credits:Alloy Enterprises
But the startup doesn’t use 3D printing. Rather, it takes sheets of metal and forces them to bond using a combination of heat and pressure. It’s more expensive than traditional machining, but cheaper than 3D printing.
The result is a cold plate that, for all intents and purposes, is a single block of metal. There’s no seam, unlike machined products, and it’s solid metal, unlike 3D printed versions, which can be porous. “We hit raw material properties,” Forsyth said. “The copper is just as strong as if you had machined it.”
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Most cold plates are machined, a process that uses tools to carve out features. Because the tools are large, each half of the plate has to be machined separately. The two halves are then sintered together — a process that fuses metal powders using heat — which introduces a seam that could potentially leak under high pressure. Alloy’s process, a type of diffusion bonding it calls stack forging, makes seamless cold plates.
Stack forging can also make smaller features, down to 50 microns, about half the width of a human hair, allowing …