In response to NeevCloud, by leveraging superior AI infrastructure and sustainable applied sciences corresponding to HyperCool, there is usually a vital discount in water and power consumption. ZutaCore’s revolutionary direct-to-chip liquid cooling expertise reduces water utilization by as much as 90% in comparison with conventional strategies, saving roughly 10 million liters of water per megawatt of IT load yearly. Moreover, NeevCloud anticipates that using ZutaCore’s cutting-edge cooling options will lead to a 40% discount in power utilization, probably reducing total power consumption by 100 million kilowatt-hours yearly for large-scale knowledge facilities. These efforts are anticipated to lower carbon footprints and operational prices considerably.
“In contrast to different liquid cooling applied sciences, ZutaCore’s HyperCool makes use of no water to chill even the most well liked processors of two,800 watts and past,” mentioned Erez Freibach, Co-founder and CEO at ZutaCore. “This makes our expertise important for a scorching nation, corresponding to India, going through a major water scarcity, whereas the power financial savings we are able to present can assist alleviate the nation’s rising energy consumption downside.”
“By scaling HyperCool all through knowledge facilities in India, we purpose to ship an AI-powered and sustainable cloud that advantages the economic system, our nation, and future generations,” mentioned Narendra Sen, Founder & CEO of NeevCloud. “Our future developments will all be based mostly on waterless direct-to-chip liquid cooling. With buyer deployments already underway, we’re excited to introduce this sustainable AI infrastructure throughout numerous industries.
The Cooling Energy of HyperCool
HyperCool contains a groundbreaking closed-loop system that operates at low stress and strikes giant quantities of warmth off the processors and away from the servers.
Key options of the expertise embrace:
Excessive Thermal Design Energy (TDP) – Helps 2800W and above TDP in a compact and environmentally pleasant, scalable design.
100% Warmth Reuse – Supplies fixed and excessive output water temperature (70 ℃) and 30-40% much less power for warmth reuse purposes.
Superior Energy Utilization Effectiveness – Achieves as little as 1.04 PUE, delivering 10-20% higher power effectivity with dynamic cooling, smaller pumps, and no efficiency degradation over time.
Larger Server Densification – As much as 50% much less area is utilized in an air-assisted liquid-cooled datacenter and as much as 75% much less area than immersion cooling.
Steady Operation in Case of Dielectric Fluid Leak – Non-conductive, non-corrosive dielectric fluid ensures no harm and steady operation in case of a leak, in comparison with water-based applied sciences, the place leaks might trigger vital server harm and outages.
Lowest Upkeep – The standard and quantity of the dielectric liquid in HyperCool keep the identical after a few years of utilization. Since no water is used, the system is free from corrosion and water-related threats corresponding to mould.
Preferrred for Chiplet Architectures – Distinctive design mechanically maintains completely different temperatures at completely different areas which is essential for AI servers leveraging the most recent chiplet architectures.
“At ZutaCore, we’re devoted to innovation that aligns with India’s sustainability objectives. By integrating our HyperCool expertise into NeevCloud’s AI knowledge facilities, we’re considerably lowering power consumption, slicing carbon emissions, and conserving valuable water sources,” mentioned Vijay Sampathkumar, ZutaCore’s Nation Supervisor of India. “This collaboration not solely boosts AI efficiency, but additionally fosters a greener, extra sustainable future for India. Our tagline, ‘Water is for Individuals, Not for Servers,’ highlights our dedication to environmental duty. We’re proud to associate with NeevCloud to drive a sustainable future for our nation and future generations.”