ONPERA
Hyperscale Infrastructure For The Next Generation Of Compute.
Onpera is developing a hyperscale data centre campus designed for high density workloads, long term scalability and secure power independence.
The project is being advanced as a phased campus to support global cloud providers, AI compute operators and large scale enterprise users seeking reliable, scalable infrastructure in emerging markets.
AI-OPTIMISED INFRASTRUCTURE FOR HIGH-PERFORMANCE WORKLOADS
ONPERA is being developed specifically to support next-generation AI workloads, including large-scale inference, fine-tuning, and advanced data-intensive compute.
The platform is designed from first principles to accommodate high-density GPU deployments, evolving accelerator architectures, and the power and cooling profiles required by modern AI systems, rather than retrofitting traditional colocation designs.
ONPERA
Phased Development with Built-In Expansion
The ONPERA campus is planned as a phased development.
Initial deployment targets approximately 30 MW of IT critical load, with the underlying site, power, and cooling infrastructure designed from day one to support material expansion over time, driven by contracted demand. This approach allows capacity to be deployed responsibly and efficiently, while preserving the ability to scale alongside tenant requirements and technology evolution.
Platform
Designed for Demand-Led Compute Deployment
ONPERA is designed to serve organisations that require secure, scalable, GPU-ready infrastructure close to their users and data.
These include:
- AI and machine learning operators deploying inference and fine-tuning workloads
- Cloud and AI platform providers expanding into new regions
- Enterprises with latency-sensitive or regulated data requirements
- Sovereign and public-sector digital platforms requiring local compute capacity
ONPERA operates as a neutral infrastructure platform, enabling tenants to deploy and manage their own technology stacks while benefiting from purpose-built hyperscale infrastructure.
