The End of Conventional Site Selection Frameworks
For decades, data center site selection was guided by three core criteria: land availability, water access, and proximity to fiber. This framework worked when capacity needs were moderate, sustainability was secondary, and latency requirements were less demanding.
But the hyperscale era has changed everything. Today’s operators must deliver exponential capacity growth while meeting investor, regulatory, and customer expectations around sustainability and resilience. Using yesterday’s frameworks to solve tomorrow’s challenges no longer works.
Explosive Growth Is Breaking Old Models
- According to McKinsey, global data center demand is expected to grow 19–22% annually through 2030, reaching 171–219 GW (and up to 298 GW in a high-growth scenario).
- Current global demand is ~60 GW. Meeting the surge will require building more capacity in the next seven years than in the previous two decades combined.
- AI-driven workloads will further strain power and cooling infrastructure, making the gap between demand and delivery even wider.
This new reality demands a fresh framework – one designed for AI-ready hyperscale growth.
Why Traditional Criteria Are Falling Short
Power Demand Surge
The rise of AI is driving a significant increase in data center power consumption. Goldman Sachs forecasts a 165% increase in global data center power demand by 2030, compared to 2023 levels. This surge is straining existing power grids and leading to development delays.
Land Availability Challenges
Historically, the availability of large tracts of land was a primary consideration. However, in many developed markets, securing developable land parcels for data centers is becoming increasingly difficult. According to datacenterknowledge.com, Zoning regulations are becoming a major hurdle for the data center industry, potentially slowing expansion even as demand continues to surge.
Water Usage Concerns
Data centers consume vast amounts of water for cooling. Stats shows large data centers can use as much as 5 million gallons of water per day—comparable to the daily water consumption of a town with 10,000 to 50,000 residents. This high demand has led to increased regulatory scrutiny, especially in regions facing drought or scarcity.
Fiber Connectivity Evolution
While proximity to existing fiber routes remains important, hyperscalers are increasingly building or leasing their own backhaul networks. This shift allows for greater control over performance, cost, and interconnection.
What AI-Era Hyperscalers Must Demand
Energy Reliability, Not Just Access
Power availability is one of the most essential aspects of any data center; even industry experts say, “A data center is only as good as its power supply,”. Today, hyperscalers must consider reliable power supply and delivery stability to avoid costly downtime and operational risks.
Zoning Agility
From local opposition to regulatory moratoriums, zoning friction is a bigger timeline killer than any physical constraint. For instance, several EU nations have introduced limits on new data center projects because of the sector’s heavy load on the power grid.
Renewable Grid Access
Sustainability is a critical consideration for modern datacenters, and many leading firms are supporting this trend. Industry report confirm that major AI-era tech firms like Google are building co-located solar, wind, and battery projects outside traditional hubs to secure clean energy. Therefore, hyperscalers must secure access to renewable energy sources through long-term PPAs and grid-integrated clean energy.
CtrlS Perspective: Building Future-Ready Data Centers
At CtrlS, we have redefined site selection to meet AI-era hyperscale demands. Our campuses across India are designed with power resilience, renewable integration, and regulatory foresight built in.
Four Pillars of Future-Ready Growth
- Rethink Power
Diversify with renewables, cogeneration, and behind-the-meter solutions to ensure immediate resilience and promote long-term clean energy integration. CtrlS alone generates 250,000 MWh annually from solar projects across Karnataka, Maharashtra, and Uttar Pradesh, eliminating ~225,000 metric tons of CO₂. - Modernize Cooling
Transition from legacy air systems to liquid immersion, direct-to-chip, and rear-door heat exchangers, enabling high-density AI workloads with lower energy waste. - Choose Future-Ready Sites
Select campuses with grid stability, renewable availability, and streamlined permitting. CtrlS strategically develops in emerging hubs to provide faster approvals and scalable land parcels. - Scale Capacity Smartly
Deploy modular builds and flexible power agreements, enabling hyperscalers to scale incrementally without overextending capital or creating stranded assets. - Think ESG Beyond Compliance
We go beyond green metrics. Our frameworks integrate community development, workforce skilling, and transparent governance.
The New Checklist for Hyperscalers
Instead of asking only about land, water, and fiber, tomorrow’s site selection should start with these questions:
- How resilient is the local grid under peak stress?
- What zoning or policy risks could delay build timelines?
- Can we secure long-term renewable energy from day one?
- Will the site support AI-driven densities without stranding assets?
- How does the operator support community engagement and ESG goals?
Conclusion: CtrlS as the Hyperscaler Benchmark
The shift from traditional frameworks to future-ready site strategies is not optional-it’s existential. With hyperscale demand accelerating, AI workloads intensifying, and sustainability mandates hardening, only operators who redefine site selection will stay ahead.
CtrlS sets the benchmark in India with hyperscale campuses engineered for resilience, clean energy, and AI workloads. Our facilities combine Rated-4 infrastructure, renewable-first builds, and full-stack services to power the next generation of digital growth.
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Siddarth Reddy, Vice President - Corporate Strategy & Global Expansion, CtrlS Datacenters
Siddarth leverages his diverse background to drive CtrlS' global expansion strategy. His experience spans across non-profit, banking, real estate, public policy, and datacenter industries, equipping him with a well-rounded understanding of strategic planning and execution.