AI workloads generate heat that traditional cooling cannot handle. We design mechanical systems for 10kW to 300kW+ per rack, built to support any compute hardware at any density your facility demands.
Every system starts with computational fluid dynamics. We model airflow patterns, heat rejection paths, and failure scenarios before a single pipe is sized. The result is a cooling architecture that performs under full load and degrades gracefully under partial failure.
Our engineering covers the full mechanical scope, from central plant through distribution to the rack.
Compute hardware evolves fast. We engineer cooling systems that handle the thermal loads of today's equipment and whatever comes next. Our designs are built with headroom, not matched to a single platform that will be obsolete in 18 months.
Our mechanical designs consistently achieve PUE below 1.2 in production environments. That performance gap translates directly to lower operating costs and higher margin per megawatt.
We validate every design against real thermal data from deployed facilities, not manufacturer spec sheets alone. This eliminates the gap between projected and actual performance that plagues most data center builds.
Full-scope mechanical engineering for high-density data center environments.
Complete mechanical, electrical, and plumbing engineering scoped for mission-critical facilities with N+1 through 2N redundancy requirements.
Three-dimensional airflow simulation and thermal analysis to validate cooling performance before construction begins.
Integrated air-cooled, direct liquid-cooled, and immersion-cooled systems designed to operate within a single facility.
Building automation system design and control sequences engineered for dynamic compute workloads and variable heat loads.
Fault-tolerant mechanical system architecture with concurrent maintainability and defined failure mode responses.
Economizer design and waterside/airside free cooling strategies that reduce compressor hours and lower annualized PUE.
Talk to our mechanical engineering team about your density requirements, facility constraints, and timeline.