A new generation of supercomputing infrastructures designed to be sustainable, efficient and intelligent, with workloads optimally sized for resources and data stored at different levels according to use. Modular structures, isolated domains and monitoring systems ensure continuous evolution, safety and controlled energy consumption in every operating context.

A sustainable approach reduces consumption and improves performance: dynamic orchestration and containerisation optimise applications management, on-demand activation of modules minimises energy impact, while centralised governance ensures control and uniformity. An innovative liquid circuit, covering 80% of the cooling system for the supercomputing infrastructure around which LHyC revolves, provides an even more marked energy efficiency with lower consumption and a reduced environmental impact.