AI Computing Data Center Solutions
Purpose-Built Infrastructure for Next-Generation AI
ohm TECHNOLOGY designs, builds, and operates high‑performance AI computing data centers engineered for scale, efficiency, and energy independence. Located in Alberta, Canada, our facilities are strategically co‑located on ohm TECHNOLOGY–owned natural gas fields, enabling reliable off‑grid power generation and a tightly integrated energy‑to‑compute platform purpose‑built for AI workloads.
From rapidly deployable modular data centers to large‑scale fixed roofline facilities, ohm TECHNOLOGY delivers a seamless growth path for AI compute—without compromising performance, uptime, or sustainability.
Build where the power is. Scale without limits.
Compute with confidence.
Integrated Energy + Compute Model
At the core of ohm TECHNOLOGY’s solution is vertical integration:
On‑site natural gas production from company‑owned gas fields
Self‑generated off‑grid power using high‑efficiency natural gas generator power plants
Direct power delivery to AI computing infrastructure
This model reduces grid dependency, enhances energy security, and provides predictable, long‑term power economics for high‑density AI workloads.
Advanced Cooling: Immersion‑First Architecture
AI workloads generate exceptional heat densities. ohm TECHNOLOGY addresses this challenge with an immersion‑first cooling strategy.
Immersion‑cooled CPUs and GPUs for maximum thermal efficiency
Reduced energy consumption compared to traditional air cooling
Improved hardware longevity and performance stability
Support for next‑generation high‑power AI accelerators
By minimizing cooling overhead, ohm TECHNOLOGY maximizes usable compute per megawatt of power generated.
Built for AI Workloads
ohm TECHNOLOGY data centers are optimized specifically for AI and high‑performance computing:
AI training and fine‑tuning
Large‑scale inference
Foundation model development
Scientific computing and simulation
Enterprise and sovereign AI platforms
Every layer—from power generation to cooling to physical layout—is engineered around the demands of modern AI infrastructure.
Strategic Advantage: Alberta, Canada
By building directly on its gas fields, ohm TECHNOLOGY transforms Alberta’s energy advantage into world‑class AI computing capacity.
Alberta provides a unique combination of benefits for AI infrastructure:
Abundant natural gas resources
Stable regulatory environment
Cool climate supporting efficient thermal management
Access to North American and global connectivity
Strong industrial and energy expertise
Reliability, Security + Control
Off‑grid power generation for enhanced uptime
Redundant generation and infrastructure design
Secure, access‑controlled facilities
Designed to meet enterprise and hyperscale operational standards
ohm TECHNOLOGY delivers AI compute environments that customers can trust for mission‑critical workloads.
Powering the Future of AI
ohm TECHNOLOGY is redefining how AI data centers are built and powered—combining energy independence, modular scalability, and advanced cooling to support the next wave of artificial intelligence.
Build where the power is. Scale without limits. Compute with confidence.
Modular AI Data Centers
(Up to 30 MW)
ohm TECHNOLOGY’s modular AI data centers are designed for speed, flexibility, and performance. These facilities allow customers to deploy AI compute quickly while maintaining enterprise‑grade reliability.
Key Features:
Scalable modular design up to 30 MW per site
Rapid deployment timelines
High‑density racks optimized for AI training and inference
Integrated with on‑site natural gas power generation
Designed for seamless expansion
Modular facilities serve as the foundation for early‑stage and growth‑phase AI compute, enabling customers to scale capacity without overbuilding infrastructure.
Fixed Roofline AI Data Centers (Beyond 30 MW)
Once power generation and compute demand exceed 30 MW, ohm TECHNOLOGY transitions modular computing environments into permanent fixed roofline data center facilities.
Advantages of Fixed Roofline Facilities:
Optimized for large‑scale AI clusters and long‑term operations
Purpose‑built structures for extreme power density
Enhanced physical security and operational resilience
Long‑term infrastructure efficiency and cost optimization
This transition ensures continuity of operations while supporting sustained growth in AI compute requirements.
