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Sener, through Quark, specializes in designing data center campuses that function as more than isolated facilities—they are interconnected ecosystems of multipl buildings that include several data halls, support buildings and utility infrastructures. These campuses provide the scalability, resilience, and connectivity required by hyperscale operators, cloud providers and colocation clients, forming the backbone of regional and international digital economies.
Unlike stand-alone data centers, data center campuses are designed to operate as digital districts. Our designs embed redundancy across power and cooling systems, while also planning for fiber connectivity and carrier-neutral interconnection. This ensures that every phase of the campus grows within a resilient and connected framework, capable of attracting multiple operators and end users.
Sener has proven experience in delivering complex, mission-critical infrastructures at scale. Our multidisciplinary teams integrate architecture, civil engineering, energy systems, and connectivity into coherent, long-term campus strategies. References such as the 500 MW Altamira project in Cantabria, Spain, illustrate our ability to design campuses that anchor regional digital ecosystems. With offices in Spain, Portugal, Mexico and Australia, we apply global expertise to local contexts, ensuring that every campus meets international standards while adapting to regulatory, climatic and infrastructural realities.
Our methodology begins with site selection and master planning, evaluating land availability, energy access, water resources, and connectivity corridors. In design, we create integrated blueprints that anticipate multiple construction phases, modular IT buildings, shared utility plants and campus-wide monitoring systems. During implementation, we coordinate civil works, power distribution, cooling, and network integration through EPC management. In operation, we support clients with lifecycle services that ensure each expansion aligns with efficiency and sustainability goals.
Every data center campus is conceived as a long-term asset that evolves with technology. By embedding modular growth, renewable energy integration and circular economy principles, we ensure that each phase adds value without disrupting existing operations. This approach transforms campuses into living infrastructures—capable of adapting to new technologies, regulations and market demands over decades.
Our data center campuses combine IT space, energy systems, cooling plants, and interconnection nodes in a unified master plan. They are designed to host multiple phases of development, ensuring that capacity can expand in response to market growth without compromising reliability.
