The Problems: Data Infrastructure Can’t Keep Up
- 66 GW global shortfall projected by 2030 — demand far outpaces current build rates
- AI and HPC rollouts are being delayed — infrastructure can’t scale fast enough
- Legacy data centers take 3–5 years to build — too slow for the AI era
- Grid strain and rising costs — traditional builds overload local utilities
- Inefficient and resource-heavy — HVAC systems and water use worsen ESG challenges
Why Traditional Data Centers Struggle with Permitting
- Slow to approve: Permitting often takes 2–3+ years, delaying revenue and increasing risk.
- Utility intensive: High water and HVAC demand strains local power and triggers utility concerns.
- Environmental pushback: Large, noisy footprints face zoning hurdles and community resistance.
- Poor local fit: Generic designs often require costly revisions to meet regional permitting needs.
- Unpredictable timelines: Each new region introduces different permitting risks, often stalling builds mid-process.
Meet with our team and explore early-stage investment options
Watch how ServerDomes replaces HVAC with physics — and unlocks the future of AI infrastructure.
The Infrastructure Crisis is Already Here
Massive Demand, Minimal Supply
A 66 GW global data center shortfall is projected by 2030.
Power delays and capacity hoarding are leaving mid-markets without options.
Unsustainable
Water Usage
Legacy data centers consume up to 100 million gallons/year.
ServerDomes cut that by 92% — with zero HVAC and biomimicry.
Wasteful Energy Design
Traditional builds waste most of their energy cooling air.
Energy inefficiency drives up cost, complexity, and carbon impact.
Build Delays Stall Growth
Traditional data center builds take 2–3 years, delaying growth.
ServerDomes deliver full-scale capacity in under 12 months.
A Smarter Way Forward
Infrastructure shouldn’t take years, or waste water and energy.
ServerDomes are modular, efficient, and live in under 12 months.
Trusted by developers, municipalities, and AI pioneers.
Over 4 million square feet currently in development across 23 sites.
Our Difference
Not retrofitted. Reinvented.
While traditional data centers struggle to adapt, ServerDomes started with a blank slate—combining biomimicry, thermal science, and modular design into an entirely new model. Resilient by Design: Performs under extreme heat and grid instability
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Zero HVAC: Eliminates mechanical cooling and complex duct systems
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92% Less Water Use: WUE of 0.1, most efficient system on the market
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34% More Energy Efficient: Operating at a consistent 1.13 PUE
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12-Month Deployment: Fully operational in less than a year
5MW
Modular 5MW Units: Expandable infrastructure that scales with demand
Technology Explained
Biomimicry meets breakthrough engineering.
Our patented geodesic dome uses passive cooling inspired by nature’s thermodynamics. Hot air rises, fresh air circulates—no chillers, raised floors, or exhaust systems required.
- Geodesic Dome Architecture
Maximizes airflow with minimal surface area, reducing thermal buildup and structural material - Thermal Buoyancy Cooling
Heat naturally rises through the dome’s apex, pulling in cool air without mechanical systems - Integrated Fan Walls & Smart Control
Dynamically adjust airflow in response to real-time sensor data for consistent temperature and uptime
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Geodesic Dome Architecture
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Thermal Buoyancy Cooling
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Integrated Fan Walls & Smart Control
Real-World Proof & Partners
Proven in Deployment, Backed by Partners
ServerDomes
Built for the Next 20 Years, Not the Last 20
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Geodesic design for natural airflow and thermal balance
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No HVAC — lower complexity, cost, and points of failure
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Bioswale and passive water reclamation infrastructure
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Modular 5MW build per acre with 1-acre site footprint