The ground beneath your facility is a 30-year risk variable. We model it.
$7T
GLOBAL INDUSTRIAL
INFRASTRUCTURE CAPEX
$8–12M
COMMITTED PER MW BEFORE
THERMAL VIABILITY IS KNOWN
70+
SITE SELECTION FIELDS
IN EVERY TOOL. ZERO SUBSURFACE.
458K
BOREHOLE MEASUREMENTS
IN THE GTE MODEL
THE OLD WAY
A broker. A form tool. Months of back-and-forth.
6–18 months to site a facility
70+ fields to fill out manually
Ground conditions discovered post-commitment
No subsurface data. Anywhere.
SUBSTRATA
One platform. Every layer. AI-native.
Full site selection intelligence — power, zoning, logistics, workforce
Subsurface thermal conductivity with confidence bands
Thermal saturation trajectory
Infrastructure impact modeling
Long-run TCO exposure before you commit
LIVE MODEL OUTPUT — SAME MW DRAW, SAME FACILITY TYPE
This is what subsurface data changes.
OZAUKEE COUNTY, WISCONSIN
Port Washington, WI
THERMAL CONDUCTIVITY
2.81 W/m·K
ANNUAL COOLING OPEX
$16.4M / yr
GRADE A
MILAM COUNTY, TEXAS
Stargate Site, TX
THERMAL CONDUCTIVITY
1.84 W/m·K
ANNUAL COOLING OPEX
$90.9M / yr
GRADE C
20-YEAR TCO DIFFERENTIAL AT 1 GW
$74.5M / yr cooling penalty
This decision was being made without this data.
FACILITY TYPES
Built for the three facility types driving infrastructure spend.
DATACENTER
AI data center
Thermal saturation modeling for hyperscale and edge compute. GHX suitability. 20-year TCO delta.
Thermal saturation trajectory
GHX suitability grade
20-yr cooling OPEX delta
PUE penalty from ground conditions
MANUFACTURING
Advanced manufacturing
Slab thermal risk and ground stability under continuous high-load operations. Settlement modeling per Eurocode 7.
Slab thermal risk flag
Settlement risk year
Ground stability under load
Long-run OPEX exposure
NUCLEAR
Nuclear co-location
60-year thermal trajectory for SMR and large-scale nuclear siting. Cable thermal runaway risk modeling.
60-year thermal trajectory
Cable thermal runaway risk
Long-horizon ground stability
Regulatory compliance layer
OPERATIONS
Substrata doesn't stop at site selection. When a facility goes live, the model goes with it.
Operators use Substrata to track actual vs predicted thermal state, flag degradation before it hits the P&L, and plan infrastructure interventions years ahead of the curve.
Continuous ground temperature monitoring
Actual vs predicted thermal drift alerts
Cooling cost trajectory updates
Intervention timing forecasts
The ground beneath your site is a risk at selection. It's a cost in operations. Substrata covers both.
Every site decision being made right now is being made without this data.