ZutaCore’s HyperCool: Revolutionizing Sustainable AI Cooling Solutions at PTC 2025

• Chinmay
• January 23, 2025
• Artificial Intelligence
• AI factories, data centers, energy efficiency, heat reuse, HyperCool, PTC 2025, server densification, sustainable AI cooling, Telecommunications, waterless cooling, ZutaCore
• 0 Comments

ZutaCore has confirmed its participation in the 2025 Pacific Telecommunications Council (PTC), scheduled to take place from January 19-22 in Honolulu, Hawaii. The company is set to showcase its HyperCool technology, which has established itself as the gold standard for cooling solutions in telecommunications and AI-driven data centers. With a strong emphasis on sustainability, HyperCool is transforming the way megawatt compute power is managed in AI factories and data centers.

Meeting the Challenges of AI with Sustainability

The rapid expansion of AI capabilities has placed unprecedented demands on telecommunications providers, particularly as they seek to scale their AI factories while addressing challenges like energy consumption, operational costs, and maintenance complexities. According to Erez Freibach, co-founder and CEO at ZutaCore, HyperCool is engineered to help telecom operators strike a balance between sustainability and performance.

“HyperCool can help telecom providers drive better ROI and simplify operations with its unique use of no water, heat reuse capabilities, and the ability to cool even AI GPUs up to 2,800 watts and beyond,” Freibach explained. He also highlighted HyperCool’s resilience, with heat transfer fluid that lasts for years without replacement and the elimination of water-related threats like mold, corrosion, and bio-growth.

What Makes HyperCool Unique?

HyperCool’s waterless, two-phase, direct-to-chip cooling system is a groundbreaking approach to managing high-performance processors and GPUs, including NVIDIA’s Grace Blackwell superchip and the AMD Instinct MI300X. Here are the key benefits of this innovative technology:

1. No Water Usage: HyperCool employs a dual-phase pool boiling method, which uses a heat transfer fluid to extract heat via liquid-to-vapor phase change. This eliminates water usage, reducing maintenance and water-related risks.
2. Energy Efficiency: With 10-20% improved energy efficiency, smaller pumps, and no performance degradation over time, HyperCool ensures reliable cooling for chips up to 2,800 watts while delivering data center PUE values as low as 1.05-1.07.
3. Space Optimization: By supporting higher server densification, HyperCool reduces the physical footprint of data centers, requiring 50% less space than air-cooled systems and up to 75% less space than immersion cooling systems.
4. Heat Reuse: HyperCool captures and redirects heat for secondary uses, such as heating nearby offices, schools, or even swimming pools. This not only reduces energy costs but also allows providers to allocate saved electricity toward additional compute infrastructure, thereby boosting revenue for AI factories.

Bridging the Gap Between Sustainability and AI

As AI adoption continues to grow, the demand for energy-efficient, sustainable cooling solutions is at an all-time high. ZutaCore’s HyperCool technology represents a critical step forward, enabling telecom providers to expand their AI capabilities without compromising on sustainability goals.

By participating in PTC 2025, ZutaCore aims to demonstrate how HyperCool’s unique approach can bridge the gap between sustainability and cutting-edge AI development, setting a new benchmark for the industry.