#USA #Wilmington #Chemours #Opteon #2CRSi

Innovating Cooling Solutions for High-Density IT Infrastructure

In a significant development for the tech industry, Chemours and 2CRSi have forged a partnership focused on enhancing cooling technologies that cater to high-density IT infrastructure. Following the successful qualification of Chemours' Opteon™ fluid, the companies are set to accelerate innovation through their Joint Development Agreement (JDA). This collaboration aims to merge Chemours' expertise in thermal management with 2CRSi's pioneering server technology in a bid to meet the increasing cooling demands of Artificial Intelligence (AI) and advanced computational workloads.

A Milestone in Server Cooling Technology

The milestone unveiling of Chemours’ Opteon™ two-phase immersion cooling fluid in 2CRSi servers opens new avenues for advancements in cooling systems. This initiative not only facilitates direct-to-chip and immersion cooling methods but is also poised to transform how data centers manage heat dissipation with a view towards achieving greater efficiency and sustainability.

Nathan Blom, Vice President of Liquid Cooling at Chemours, highlighted the dual benefits of this collaboration, stating, "This partnership will not only deliver innovative cooling solutions but will also empower customers to future-proof their infrastructure and accelerate the transition to more efficient digital ecosystems." Such advancements are timely, especially given the demands driven by the shift towards AI capabilities and next-generation processors that necessitate enhanced cooling solutions.

The Environmental Edge

A standout feature of Chemours' Opteon™ liquids is their potential to drastically reduce the energy consumption associated with cooling data centers—reportedly by up to 90% compared to conventional air-cooling methods. This improvement translates into lower power usage effectiveness (PUE) numbers, approaching an impressive 1.0. Furthermore, the implementation of these two-phase cooling solutions leads to a significant decrease in water usage tied to data center operations. The fluid recovery and reuse mechanism also contribute to a circular economy approach, minimizing waste and promoting sustainability.

In an age where decarbonization efforts are paramount, the partnership between Chemours and 2CRSi exemplifies a commitment to reducing the environmental footprint of digital infrastructures. 2CRSi's recent success with the ultra-high-density Atlas 1.8GG 2PIC server, which can house eight NVIDIA H200 GPUs in an innovative 1U format, showcases the capabilities unlocked through advanced cooling technologies.

Paving the Future of High-Performance Computing

Alain Wilmouth, CEO of 2CRSi, emphasized the company's continuous role as a leader in server cooling solutions. "As the industry embraces liquid cooling, we are proud to collaborate with Chemours to deliver some of the most efficient and innovative solutions available today." This partnership is timely as it aligns with the industry’s increasing energy demands and the emergence of GPUs in computing workloads, from autonomous vehicles to future 5G/6G networks.

Additionally, both companies aim to push the technological boundaries to create efficient high-density servers tailored for AI and high-performance computing (HPC) applications. With specific targets for advanced server formats delivering up to 15kW in a 1U configuration, the landscape of computing could witness significant changes in the near future.

Conclusion

As global analytical and IT demands continue to surge, the Chemours and 2CRSi collaboration pivots on the delicate balance of innovation and sustainability. Their efforts to develop advanced cooling solutions underscore a transformative direction in high-performance computing and data management, bridging gaps in energy efficiency while embracing the future of technology integration. This partnership not only exemplifies corporate responsibility but also sets a benchmark for future endeavors in the sectors of IT cooling and data center management.