Frontier Hardware
Racks of directly liquid-cooled NVIDIA B300 GPUs deliver frontier-scale training and inference at the highest density and efficiency available today.
The first rapidly deployable data center to respond to the AI energy crisis.


Every ZODE One site starts as a single rack and scales on demand. Drop in modules as your workloads grow, draw exactly the power you need, and run it all on renewable energy, without rebuilding from scratch.
ZODE One taps the power you already have. Run on grid, solar, or on-site generation and scale draw to match your load, with no new substation required.
Pre-integrated modules arrive ready to run. Site, connect, and bring compute online in days instead of the months a traditional build demands.
Liquid cooling and renewable-first power keep efficiency high and emissions low, so every rack you add stays light on the land around it.

Compute
720 NVIDIA HGX B300 GPUs span 11 racks, with 288 GB HBM3e per GPU and NVLink 5 delivering full all-to-all bandwidth within each node.
Processors
Per server, dual Granite Rapids processors and up to 4 TB of DDR5 give the host headroom to drive all eight GPUs at full utilization.
Cooling
A sealed, closed-loop liquid cooling system pulls heat directly off the GPUs and CPUs, sustaining peak clocks under continuous load while running quieter and denser than air.
Build
Engineered from the ground up for AI inference, training, and other specialized workloads, with fast InfiniBand interconnect tying nodes together for low-latency, high-bandwidth scale-out.
ZODES can link to create more powerful sites.

A single ZODE One. One module, sited and online in weeks, delivering 1.5 MW of dispatchable compute wherever the power already is.

Link several units into a cluster. Shared power and networking turn a group of modules into 9 MW of coordinated capacity on a single site.

Scale to a full ring. Dozens of ZODE One units combine into a 42 MW campus, all running on renewable-first power and liquid cooling.
50 ft24 ft24 ft1 Power usage effectiveness measured at full IT load under nominal ambient conditions. Specifications are representative and may vary by site configuration.
