Turn excess renewable energy into AI infrastructure.
Deploy compute where energy would otherwise be wasted.
ZeroMine converts stranded renewable energy into distributed AI compute. We deploy and operate infrastructure directly at energy sources, unlocking lower-cost, zero-emission compute through a global network.
Power the next generation of AI using 100% renewable energy.
We are building a network that transforms unused clean energy into productive compute capacity — from residential solar to industrial-scale renewable infrastructure.
From excess power to productive compute
ZeroMine connects renewable-powered sites to real AI demand through controlled, proprietary infrastructure deployed directly at the energy source — ensuring performance, efficiency, and network reliability.
Excess energy is connected
Renewable sites provide surplus energy that would otherwise be curtailed, underused, or wasted — across homes, commercial systems, and industrial infrastructure.
ZeroMine deploys infrastructure
We design, deploy, lease, and operate proprietary high-efficiency machines at approved host locations — ensuring consistent performance, reliability, and full network control.
Compute demand is routed
Users run AI, rendering, and batch workloads across a distributed network powered by clean energy, paying for compute as jobs are processed.
AI demand is accelerating — energy and infrastructure are the constraint.
- AI workloads are becoming increasingly energy- and resource-intensive
- Centralised data centres are capital-intensive and can take years to scale
- Renewable energy is frequently wasted — from excess solar at homes to large-scale generation curtailed by grid constraints
- Global demand for compute continues to grow as AI, rendering, and data processing workloads expand
A distributed energy-to-compute network
ZeroMine transforms wasted and underutilised renewable energy into productive AI compute infrastructure.
By deploying controlled, proprietary machines directly at energy sources, we unlock new compute capacity without increasing strain on the grid.
Designed for efficient deployment without complex cooling infrastructure, our systems enable faster rollout across a wide range of renewable sites.
Explore the NetworkA stronger model for sustainable AI infrastructure
ZeroMine combines energy access, controlled machine deployment, and platform demand into one integrated network.
Controlled Infrastructure
We deploy proprietary machines instead of relying on mixed third-party hardware, improving reliability, performance, and manageability.
Energy-First Deployment
Our model begins with renewable energy availability, allowing compute to be placed where it creates the strongest economic and environmental value.
Efficient by Design
Optimised to operate without complex cooling infrastructure, enabling faster deployment and reduced operational complexity across the network.
Integrated Network Model
ZeroMine connects energy supply, proprietary infrastructure, and compute demand into a single system — creating a more efficient and scalable network.
Built for hosts and compute users
ZeroMine is designed to create value on both sides of the platform, with a clear pathway for energy hosts and a simple experience for users.
Have excess renewable energy? Turn it into revenue.
ZeroMine leases and operates machines at approved sites, helping hosts monetise surplus energy with no hardware management burden.
Explore HostingNeed compute? Access lower-cost infrastructure.
Run AI workloads across a distributed network powered by renewable energy through a simple, connected platform.
Explore ComputeA global zero-emission compute network
Our vision is to have all ZeroMine machines running on 100% renewable energy and to build a global network that helps power AI without adding to the strain on valuable energy resources.
Over time, ZeroMine aims to help reshape how the world thinks about compute infrastructure by aligning AI growth with clean energy supply.
Power AI with renewable energy
ZeroMine connects excess renewable energy to global compute demand. Join the network as a host or run workloads on distributed infrastructure powered by clean energy.