Bypass traditional grid bottlenecks. Deploy megawatts in months, not years. Modular, containerized energy solutions designed specifically for the explosive demands of mission-critical AI computing.
The exponential surge in global AI computing is hitting a hard wall: the "Interconnection Gridlock." Traditional utilities currently estimate 5 to 10 years to scale infrastructure to meet modern data center needs.
While the grid struggles, North America sits on an abundance of natural gas. Gastoken bridges this gap by converting readily available fuel into high-performance compute power on-site, delivering in months while the rest of the world waits in line.
"The grid cannot keep pace with the silicon."
Our Combined Cooling, Heat, and Power (CCHP) technology doesn't just burn gas; it maximizes every thermal unit. We convert natural gas into three vital streams, achieving over 90% total energy efficiency.
High-reliability power generation to feed thirsty GPU clusters directly, bypassing transmission losses.
Waste heat is captured and converted via absorption chillers into cooling loops, drastically reducing data center HVAC costs.
Maintains a connection for backup or surplus export, ensuring your facility never goes dark.
Engineered for density and reliability, the GT-3000 is our flagship 3MW unit. It packs industrial strength into a surprisingly compact footprint, allowing for high MW-per-acre density.
Site-ready in days after delivery.
Core assembly happens in controlled environments for maximum quality assurance.
Units are shipped as complete, skid-mounted packages ready for the road.
Rapid on-site installation. Connect gas and water, and you are ready to generate.
Why leading compute facilities choose Gastoken infrastructure.
True grid independence. Control your own power generation and uptime.
Realize 20%+ primary energy savings compared to peak commercial grid rates.
Add capacity in 3MW modular increments as your compute needs grow.
Built with H2-hydrogen blending capability for the zero-carbon transition.
Operating in a demanding environment with extreme temperature fluctuations, this project utilizes 5x GT-3000 units running in parallel.
The array provides primary power and critical cooling for large-scale industrial processing operations. The result? Rapid ROI and exceptional uptime figures where the local grid simply could not deliver.
Our HQP Control I systems provide real-time telemetry. We commit to online response and fault analysis within 24 hours.
Supported by professional local teams to ensure maximum uptime for mission-critical facilities.