Sustainable compute
Right-sized power, modern hardware and containment-first cooling — efficiency that shows up on your invoice too.
Sustainability
Running a data center in a tropical climate forces you to care about efficiency. We treat that constraint as an engineering brief, not a marketing page.
Key areas of focus
Right-sized power, modern hardware and containment-first cooling — efficiency that shows up on your invoice too.
Discounted and donated compute for universities and students in the region — ask us about research support.
Efficiency never trades against uptime — 2N power and N+1 cooling are non-negotiable.
Highlighted performance
Figures marked as targets are design targets, not audited results.
Case highlights
High-density layouts mean fewer square meters per kilowatt — less space to cool, less copper to run, less waste at end of life.
Hot-aisle containment keeps hot and cold air separate, so chillers work against physics, not against themselves.
We monitor thermal profiles per row and use the data to place new deployments where they run coolest — every degree counts in Bangkok.
Disclosures
We report honestly and improve incrementally. Customers can request the following under NDA:
FAQ
We purchase grid power in Bangkok and are evaluating certified renewable energy credits as the Thai market matures. Our bigger lever today is using less power per unit of compute.
Our chilled-water loop is closed-circuit; makeup water is minimal and metered. We report usage to customers on request.
Heat reuse in our building context is limited, so we focus on rejecting heat efficiently instead — containment, optimized airflow and free-cooling hours when Bangkok weather cooperates.
Email yihao@infraeon.ai with "Sustainability data" in the subject — we provide PUE and energy-mix information to customers under NDA.
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