Why Liquid Cooling?

AI and high-density compute environments can generate up to 10× the heat of traditional workloads, pushing hardware to its thermal limits. As utilization spikes and workloads scale, air cooling can cause thermal throttling, longer processing times, and reduced efficiency. Liquid cooling manages this thermal load in real time, keeping systems running at peak efficiency.

Liquid cooling can reduce total energy use by 10–50% compared to air cooling. It improves PUE by lowering cooling energy demand, while also cutting fan power and reducing airflow management costs.

Liquid cooling supports power densities up to 100kW per rack. Pack in more GPUs/CPUs with stable thermals and smaller footprints.

Tight temperature controls extend component life, reduce hardware failures, and prevent performance throttling under peak demand. By minimizing thermal cycling and hotspots, liquid cooling ensures that your infrastructure delivers consistent, predictable performance even as workloads intensify.