Modular infrastructure that adapts to your changing IT needs.

Prefabricated components let you deploy infrastructure where you need it, when you need it – and reconfigure as those needs change. The system is fully scalable, from a single aisle to a massive data center. Flexible components make it suitable for retrofit or new-built situations.

The Enclosure & Edge Device

Get responsive cooling where you need it—right at the individual rack. Edge Devices dynamically adapt cooling and electrical infrastructure to match IT loads. They can effectively remove heat from ultra high density racks, yet they’re reconfigurable and cost effective even at extremely low densities. With flexible enclosures and a variety of configurations, Edge Devices are designed to fit any new or retrofit data center setting. Edge Device illustration

  • ADAPTABLE
    Provide cooling exactly where it's needed, regardless of rack density.

  • ULTRAFAST RECOVERY
    No UPS required on cooling system. Recover data center temperature in 60 seconds or less.

  • KEEP COOL
    Deliver 77ºF intake air (maximum) to servers.

  • SAVE POWER
    No additional draw on server fans.

The Thermal Hub

This modular core for the Conductive Cooling system routes heat to the external environment. The Thermal Hub replaces traditional chillers with a dramatic increase in reliability and massive reduction in energy use. One Thermal Hub  rated for 100 tons in Passive Cooling Mode draws only 500 watts, compared with 90,000 watts for a traditional chiller and chiller pumps at the same outdoor and aisle temperatures.

The peak power draw is 90% less than most systems, so electrical infrastructure normally reserved for the hottest day of the year can instead be used for IT. This, combined with the ability to handle higher rack density than traditional fixed systems, increases the capacity of most existing or new data centers by 60%.

The patented cycle of the Thermal Hub provides closed-loop Passive Cooling most of the time in most of the world, including hot climates. Active cooling phases in only when necessary, giving you incredible gains in efficiency.

With a flexible design and unique mesh architecture, you can add Thermal Hubs as IT loads increase, or move them if density drops significantly.

The Thermal Hub is elegantly simple. Unlike traditional cooling components that are prone to failure and excessive maintenance, 2N reliability is built in at the component level, and the entire platform is designed for resiliency. The result is proven 20x more reliable than other cooling solutions.
Thermal Hub illustration

  • RESILIENT BY DESIGN
    Multiple 2N components and a distributed architecture, removes chillers as a central point of failure and removes the risk associated with chiller upgrades.

  • FULLY AUTOMATED
    System automatically adjusts to changing IT loads and transitions between Passive and Active cooling.

  • REVOLUTIONARILY SIMPLE
    Patented technology revolutionizes how data centers manage heat by dramatically simplifying the process.

  • LOW MAINTENANCE
    Thermal Hub requires no scheduled downtime for maintenance and eliminates costly filters.

  • MINIMAL WATER USE
    Up to 80% less water than chiller-based or adiabatic systems. Fully waterless options are available.

The Thermal Bus

A super-highway for heat transfer, the Thermal Bus is over 700x more efficient at moving heat than forced air systems. With quick-connect segments to make cooling system components “hot swappable” and reconfigurable, it’s easy to make adjustments as your needs evolve.
Thermal Bus illustration

  • NO SHUT-DOWNS
    Hot swappable components mean no shut-downs are necessary.

  • CAPACITY AS NEEDED
    Simple architecture lets you deploy just-in-time and snap on new capacity.

  • TOWARD CARBON NEUTRAL
    The lowest-energy system available, coupled with the ability to use new low-GWP refrigerants, provides the overall lowest environmental impact.

The Heat Rejection Loop

The system is designed to work with a wide range of existing and new-built equipment. Solutions can integrate chillers, fluid coolers, or condensers, depending on space constraints and local climate.
The Heat Rejection Loop_icons_v3

  • NO WATER STORAGE
    Does not require costly water storage—loss of water does not cause system failure.

  • ADAPTABLE OVER TIME
    Change heat rejection strategy over time without changing internal system.