100
Megawatts
400
Future MW Capacity
200 MW
Solar
4-Hour
Bess
Southern Port Campus Phasing
Initial Campus
Phase I
100 MW AI-ready data center capacity supported by integrated solar generation and energy storage infrastructure.
Campus Expansion
Phase II
Deployment of large-scale AI compute clusters and dedicated data halls designed for high-density workloads, supported by expanded energy generation and storage systems.
Phase III
Platform Scale
Long-term expansion of compute capacity and renewable energy infrastructure with the potential to scale the campus to approximately 400 MW.
• Master-planned infrastructure site designed for phased expansion, allowing additional data halls, energy infrastructure, and supporting facilities to be deployed as demand increases
• High-density compute architecture designed for AI training clusters, inference workloads, and GPU-intensive deployments
• Integrated renewable energy platform including approximately 200 MW of solar generation, supporting long-term energy capacity and improved infrastructure sustainability
• Initial 100 MW data center platform with long-term scalability toward approximately 400 MW, enabling the development of one of the region’s largest AI compute campuses
• Large-scale AI infrastructure campus designed for hyperscale and next-generation cloud platforms, supporting high-density compute deployments and long-term digital infrastructure growth
• Purpose-built development framework supporting multi-phase infrastructure expansion, enabling the campus to evolve into a large-scale global compute platform
• Infrastructure platform designed for long-term AI compute demand, capable of supporting rapid growth in global artificial intelligence workloads
• Large-scale land platform designed for long-term digital infrastructure development, enabling the integration of compute capacity, renewable energy systems, and supporting campus infrastructure
• Flexible infrastructure deployment model supporting hyperscale data halls, AI compute clusters, and dedicated enterprise cloud environments
• Energy-optimized infrastructure model leveraging renewable generation and grid interconnection, supporting long-term power availability for large-scale compute deployments
Why Argetina?
Argentina offers strong renewable energy resources, large land availability, and growing regional demand for cloud and AI infrastructure. Its solar potential and scalable energy capacity make it well suited for long-term digital infrastructure development.
Who Is the customer?
The campus is designed for hyperscalers, neo-cloud providers, AI companies, and enterprise cloud platforms that require large, scalable data center capacity. With a master-planned site and integrated energy infrastructure, the project is structured to support high-density compute and long-term expansion as demand grows.
Can we scale?
The campus is designed as a phased infrastructure platform that can expand well beyond the initial deployment. The first phase begins with 100 MW of data center capacity, with additional phases planned as demand grows. Over time, the campus has the potential to scale to approximately 400 MW of total compute capacity. The large land platform and integrated energy development enable long-term expansion for hyperscale and AI cloud deployments.
