AI should not be a dirty word...
Vailinor is building half a gigawatt of sovereign AI compute across Southeast Asia, powered by renewable waste-to-energy plants.
We believe the future of generative AI, inference, and large-scale compute lies in building dedicated, renewable-powered data centers that operate independently of national grids.
As global AI providers generate vast revenues from compute-intensive workloads, their increasing reliance on national electricity networks risks driving up local electricity costs. Vailinor is addressing this challenge by developing a decentralized model: pairing data centers with wholly owned, adjacent renewable energy assets.

Sustainable Power
Harness the future of AI with energy drawn from renewable biomass and clean sources. Vailinor ensures that advanced compute is not only powerful, but also environmentally responsible.

Scalable Performance
From research to enterprise-level AI, Vailinor delivers high-density compute clusters built for speed, efficiency, and growth. Scale seamlessly while maintaining a commitment to green energy.

Global Impact
Reducing carbon footprints while fueling AI innovation, Vailinor bridges the gap between sustainability and technology. Every computation supports a cleaner planet and a smarter future.

Our Mission
Vailinor presents a blueprint for a new model of sustainable infrastructure that merges renewable energy, circular waste management, and decentralized AI computation into a single, scalable system. By repurposing aging VSPP plants at the end of their PPAs, we not only preserve valuable energy assets but elevate them into the foundation of next-generation digital infrastructure. These sites become more than power producers; they become intelligence engines, driving value from waste while supporting the rapidly growing global demand for AI compute.
At the heart of this model is a core belief: energy should not be wasted, and intelligence should not be dirty. By co-locating compute directly at the source of renewable generation, we maximize efficiency, minimize emissions, and unlock powerful financial returns. We build a system where impact and profitability are not in conflict but aligned so that stranded infrastructure becomes a launchpad for innovation and inclusion.
This is more than a business strategy. It is a framework for deploying technology that solves real problems, uplifts local economies, and directly contributes to global climate and development goals. With the right partnerships, capital, and vision, we can turn underutilized power around the world into a global beacon for clean, intelligent growth.
Sustainable Development Goals
Vailinor believes that AI compute must transcend simple profitability and deliver measurable impact. By collaborating with Vailinor, your company can actively contribute to advancing the United Nations Sustainable Development Goals, demonstrating a commitment not only to growth but also to sustainability, resilience, and responsible innovation.


SDG 3 – Ensure healthy lives and promote well-being for all at all ages
Burning agricultural waste and producing PM2.5 effects SDG 3. Enabling these agricultural waste to energy pants to continue to operates improves the health and well-being of the community, since air pollution can cause respiratory issues. PM2.5 is a major problem, not only for the local community, but the surrounding areas as the particulate matter carries on wind and air currents.

SDG 7 – Ensure access to affordable, reliable, sustainable and modern energy for all
Enabling these agricultural waste to energy plants to continue to operate and produce clean energy supports SDG 7. This is a circular solution as the removal and thermal treatment of the agricultural waste produced by the local community generates clean, affordable energy powering the AI data centers that provide AI services to the wider community.

SDG 8 – Promote sustained, inclusive and sustainable economic growth, full and productive employment and decent work for all
By co-locating AI infrastructure at biomass and municipal solid waste power plants, we create a new layer of productive, future-proof employment in rural and industrial zones, contributing to Decent Work and Economic Growth (SDG 8). These are jobs rooted in tangible infrastructure, offering long-term stability while training a new generation in digital and energy technologies.

SDG 9 – Build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation
Through the integration of AI compute farms with localized power generation, we are building a new category of Industry, Innovation, and Infrastructure (SDG 9). These sites become innovation hubs where green energy, waste reduction, and advanced computing intersect, setting a new standard for what sustainable industrialization can look like in emerging markets.

SDG 11 – Make cities and human settlements inclusive, safe, resilient and sustainable
This model also supports Sustainable Cities and Communities (SDG 11) by reducing the burden of waste on municipalities. Incineration plants that would otherwise struggle to find buyers for their energy can now serve a productive function in a larger digital economy. Local communities benefit not just from cleaner surroundings but from the economic lift of having high-value infrastructure and technical employment on site.

SDG 12 – Ensure sustainable consumption and production patterns
By leveraging agricultural and urban waste as a fuel source for digital workloads, the project embodies the principles of Responsible Consumption and Production (SDG 12). Instead of letting waste accumulate or burn inefficiently, we repurpose it into clean energy that powers AI applications, driving a circular economy model with global relevance.

SDG 13 – Take urgent action to combat climate change and its impacts
This project represents a meaningful step in Climate Action (SDG 13). It reduces methane and CO₂ emissions from unmanaged waste, displaces fossil-fuel-heavy centralized data centers, and enables the development of AI solutions that themselves address environmental challenges. Every node in this network contributes to a cleaner, smarter future built on the backbone of renewable energy
and purpose-driven computation.