With over 400 billion transistors, the Grace Blackwell superchip options two NVIDIA Blackwell GPUs, an NVIDIA Grace CPU, and two I/O chips. A single ZutaCore HyperCool dielectric chilly plate will sit immediately on prime of this superchip, taking on little or no area whereas offering important cooling capabilities. In a typical GB200 2RU (that includes two 2 x NVIDIA GB200 modules of two,800 watts every) a single, monolithic ZutaCore chilly plate can ship 2,800 watts of cooling. The monolithic chilly plate ensures a easy design with just one enter and one output, which reduces the potential factors of failure to ship a better degree of reliability. The module can also be outfitted with OCP-compliant blind mate connectors that help 5,600kW.
“ZutaCore’s groundbreaking know-how permits us to chill the NVIDIA GB200 Superchip with a single chilly plate, delivering an industry-first waterless direct-to-chip liquid cooling answer,” mentioned Erez Freibach, Co-founder and CEO at ZutaCore. “This breakthrough frees AI information heart homeowners and operators from the dangers related to water-based cooling, empowering them to deploy the processing energy wanted for compute-intensive workloads like generative AI with out the concern of leakages.”
“The following era of high-performance GPUs, corresponding to NVIDIA’s GB200, which might be required to satisfy the demanding wants of AI mannequin coaching will generate a major quantity of warmth, making environment friendly cooling options essential for optimum system efficiency and sustainable operation,” mentioned Mark Nossokoff, Analysis Director for Hyperion Analysis. “Modern cooling options corresponding to ZutaCore’s HyperCool waterless, direct-to-chip liquid cooling method that eliminates the necessity for water within the cooling course of, goal to optimize efficiency, maximize power effectivity, and cut back operation prices related to working essentially the most superior AI computing programs.”
The Energy of HyperCool
That includes a groundbreaking closed-loop system that operates at low strain and strikes giant quantities of warmth off the processors and away from the servers, ZutaCore’s HyperCool will be carried out in new or current information facilities to ship 10 instances extra computing energy, a 50% discount in complete value of possession, 100% warmth reuse, and decreased CO2 emissions for a sustainable information. There’s additionally a rising ecosystem of servers licensed to work with HyperCool, together with {industry} powerhouses corresponding to Dell Applied sciences, ASUS, Pegatron, and SuperMicro.
The Rising NVIDIA Ecosystem Round HyperCool
Along with HyperCooling the GB200 Grace Blackwell Superchip, ZutaCore beforehand unveiled help for the NVIDIA H100 and H200 GPUs. Additional strengthening this ecosystem, ZutaCore introduced in a separate press launch issued in the present day that it has secured a strategic OEM settlement with UNICOM Engineering (a Dell Titanium Companion) to ship warrantied HyperCooled AI servers for the H100 and H200 GPUs. ZutaCore additionally introduced {that a} international AI-as-a-Service (AIaaS) main supplier has already chosen its HyperCool direct-to-chip liquid cooling for AI servers with deployments beginning in Q3 2024. The primary platform would be the Dell Applied sciences XE9680, which will probably be delivered by leveraging UNICOM Engineering’s international companies. That launch will be discovered at this hyperlink.
Come See ZutaCore at Dell Applied sciences World 2024
ZutaCore know-how, together with GB200 Grace Blackwell dielectric chilly plates, and a Dell Applied sciences XE9680 server retrofitted with ZutaCore HyperCool will probably be on show within the ZutaCore sales space #321.
