Energy & Sustainability
Compute power that makes the world net cleaner
Every calculation on our infrastructure contributes to the energy transition. Waste heat is utilised, fossil fuels replaced.
Every calculation on our infrastructure contributes to the energy transition. Waste heat is utilised, fossil fuels replaced.
Conventional compute centres waste enormous amounts of thermal energy that goes unused into the atmosphere.
The energy transition requires advanced AI models — digital twins, grid optimisation and forecasting models.
The Netherlands has ambitious climate goals but lacks sovereign compute power to realise them.
The greenhouse horticulture sector urgently seeks alternatives to natural gas as a heat source.
“Tackling grid congestion problems is our highest priority.”
Coalition Agreement p.24
SAIG: Multi-site architecture bypasses grid congestion via existing connections.
“We continue to fully commit to heat networks, also to reduce grid congestion.”
Coalition Agreement p.25
SAIG: Compute modules deliver thermal energy to adjacent businesses.
Four strategic domains including “energy and climate technology”.
Coalition Agreement p.30
SAIG: Operates at the intersection of digitalisation and energy innovation.
“We are working towards a fully circular economy by 2050.”
Coalition Agreement p.25
SAIG: Carbon-negative operations through thermal integration.
Our containerized compute modules are designed for maximum thermal integration with the local environment.
Compute modules run on renewable energy. No fossil fuels, no compromises.
Waste heat from AI calculations heats greenhouses, commercial premises and local heat networks.
By replacing natural gas consumption, the net effect is carbon-negative. Every calculation makes the world cleaner.
From weather forecasting to wind turbine design: AI on GPU infrastructure delivers measurable results.
FourCastNet generates weather forecasts 45,000× faster than traditional numerical models — crucial for energy grid management.
Source: Nature / arXiv (Pathak et al.) →Wind turbine blade design: CFD simulations reduced from weeks to days. Faster iteration, more efficient turbines.
Source: NVIDIA Energy →European climate modelling on one of the world's most powerful supercomputers — entirely on AMD technology, in Finland.
Source: LUMI Supercomputer →Independent results from NVIDIA and AMD technology at international partners. Sovereign AI-Grid brings this compute power to Europe under European ownership.
Calculate the environmental impact when your compute workload runs on Sovereign AI-Grid instead of conventional infrastructure.
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Discover how Sovereign AI-Grid helps your organisation with the energy transition through sovereign, sustainable compute power.
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