A compact, comprehensive solution that eliminates complexity from edge, AI and HPC infrastructure deployments.
A liquid-cooled data center solution designed to handle the demands of high-density, low-latency workloads in rack deployments.
AI, vision, and analytics workloads at the edge and in the cloud for quality control, predictive maintenance, and automation.
For dense HPC and AI clusters in existing labs, campuses, and edge facilities while cutting energy, noise, and water usage.
Enabling high-density, compliant infrastructure for real-time analytics, fraud detection, and offer personalization.
Delivering telco-grade energy savings, reliability, and scalability from the network core to the far edge.
Access real-time personalization, pricing, and operations data across globally distributed properties and hubs.
Allowing studios and broadcasters to run render farms and edge encoders close to the action while reducing power and noise.
CSPs and hyperscalers face mounting thermal, energy, and capacity challenges. Learn how Iceotope can help.
Enterprise IT teams struggle to secure increasingly complex, distributed environments. Learn how Iceotope can help.
Air cooling can't keep up with the extreme power density and heat loads of HPC/AI workloads. Learn how Iceotope can help.
Neil Edmunds discusses the importance of Precision Liquid Cooling for HPC workloads with DCD's Kat Sullivan at SC25.
In lab tests, Iceotope’s Precision Liquid Cooling technology cooled a 1500W thermal test vehicle, breaking the perceived 400W limit of single-phase cooling.
Hot swap‑ready, liquid‑cooled infrastructure and smart DCIM tools cut downtime and keep edge and core data centers reliably online.
As data centers strain water supplies, Precision Liquid Cooling© slashes water use by eliminating evaporative cooling.
Testing results of HPE ProLiant DL380 Gen10 servers cooled using Iceotope precision liquid cooling vs. traditional air‑cooling.
As data centers scale to handle exploding data volumes, advanced liquid cooling cuts energy use and emissions while fitting into rack‑based infrastructure.
