Global Network

We Augment Traditional
Data Center Capacity

Instead of clustering around cities, we go where energy is stranded — deploying modular compute at the source, anywhere in the world.

Oklahoma, USA Natural Gas · 5 MW Active
W. Texas, USA Natural Gas · 5 MW Active
Norway Wind · 4 MW Planned
UAE Solar · 4 MW Planned
SE Asia Natural Gas · 3 MW Planned
Argentina Natural Gas · 3 MW Planned
Alberta, Canada Natural Gas · 5 MW Active
N. Dakota, USA Natural Gas · 4 MW In Development
Nigeria Natural Gas · 4 MW In Development
Kazakhstan Natural Gas · 5 MW Planned
Australia Solar · 4 MW Planned
Brazil Solar / Wind · 3 MW Planned
Iceland Geothermal · 3 MW Planned
Mozambique Natural Gas · 3 MW Planned
Greece Solar · 3 MW Planned
SE California, USA Solar · 4 MW In Development
Global Mālama Network
Architecture

How the Network Works

Workload Orchestration

An intelligent scheduler routes compute jobs to the optimal node based on energy cost, latency, and available capacity — in real time.

Multi-Site Redundancy

Workloads replicate across geographically dispersed nodes. If one site goes offline, others absorb capacity seamlessly — no single point of failure.

Energy-Aware Scheduling

Jobs shift dynamically toward sites where energy is cheapest and most abundant — optimizing for cost and carbon intensity simultaneously.

Roadmap

Deployment Pipeline

Phase 1: Methane First
Phase 2: Multi-Source
Phase 3: Global Scale

Methane First

Deploy initial sites at stranded methane sources. Prove unit economics and establish the operational playbook.

Multi-Source

Expand to solar, wind, and geothermal sources. Introduce energy-aware job scheduling across a diversified site portfolio.

Global Scale

Scale capacity across multiple continents. Full workload orchestration with multi-site redundancy and automated failover.

Have a site? Let's talk.

If you operate stranded gas wells, curtailed wind farms, or oversupplied solar — we can deploy compute at your site and turn wasted energy into revenue.

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