Vertiv has made one other key addition to its industry-leading thermal administration portfolio, with the introduction of the Vertiv™ CoolLoop Trim Cooler, in help of air and liquid cooling functions for AI (synthetic intelligence) and HPC (high-performance computing). This international answer helps various local weather situations for hybrid-cooled or liquid-cooled information centres and AI factories.
Integrating seamlessly with high-density, liquid-cooled environments, the Vertiv CoolLoop Trim Cooler delivers operational effectivity and aligns with the {industry}’s evolving wants for energy-efficient and compact cooling options. It gives as much as a 70% discount in annual cooling vitality consumption leveraging free-cooling and mechanical operation, and 40% house financial savings in comparison with conventional programs. Designed to deal with the challenges of recent AI factories, the system helps fluctuating provide water temperatures as much as 40°C and chilly plate performance at 45°C.
Simple water connections present clean and direct system integration for the Vertiv CoolLoop Trim Cooler and the Vertiv™ CoolChip CDU coolant distribution models, for direct-to-chip cooling. Vertiv CoolLoop Trim Cooler may join on to immersion cooling programs. This simplifies set up and operational complexity, permitting compatibility throughout a spread of high-density cooling environments, providing time financial savings and price efficiencies for patrons.
“AI is dramatically altering the cooling profiles of at this time’s information centres, requiring revolutionary approaches to managing the thermal challenges inherent in 100kW+ racks,” stated Sam Bainborough, vp, thermal enterprise EMEA at Vertiv. “Right this moment’s announcement, and the continuing enlargement of Vertiv’s industry-leading high-density thermal administration portfolio, permit us to ship pioneering, future-ready liquid cooling and chilled water options to fulfill our clients’ AI-driven calls for.”
The Vertiv™ CoolLoop Trim Cooler makes use of low-GWP refrigerant and presents a scalable cooling capability as much as virtually 3 MW within the air-cooled configuration. With free cooling coils optimized for prime ambient temperatures, the system is designed to function in free cooling mode throughout extra seasons and situations, for decreased electrical consumption and CO2e emissions. It’s compliant with 2027 EU F-GAS rules ban, avoiding the necessity for pricey redesigns or infrastructure upgrades to fulfill this upcoming regulatory requirement.
