Strategic hyperscale capacity across India and Africa, engineered for AI from the ground up. The MW-to-GW journey doesn't start with racks; it starts with securing power, transmission and partnerships. We've done that work first.
Our flagship AI Factory. Purpose-built to host NVIDIA Vera Rubin Ultra NVL576 and AMD Helios rack-scale systems on day one, with 800VDC power architecture engineered around them. Connected via dedicated fibre along the Chennai–Vishakhapatnam Expressway in partnership with NHAI, anchoring south India's largest planned AI compute footprint.
Our BFSI anchor campus. A Tier IV facility serving 10 foundation banking tenants. We secured 330 MW substation capacity from TSTC, well above the 250 MW IT load, giving comfortable redundancy headroom. Design PUE band 1.25–1.35, with a 1.30 average. Phase 1 is filling with Vera Rubin, 8 by 2 pods at 240 kW a rack, part of 800 MW of AI cluster we are deploying across the platform.
India's first purpose-built Disaster Recovery as a Service campus. Sited in a quiet, geopolitically neutral location with exceptional grid power quality and availability. Engineered for military-grade resiliency. The first operator in India to offer zero-downtime SLAs as a standard commercial commitment, not a premium add-on.
Our anchor facility for the African continent, serving the financial-services capital of Sub-Saharan Africa and the broader hyperscale demand emerging across the region.
Every HyperNext campus is AI-native from the foundation up. The shape changes with the customer. The engineering bar does not. Four facility types, one specification.
Kakinada-class. GW-scale campuses built around NVIDIA Vera Rubin Ultra NVL576 and AMD Helios rack-scale systems from day one, with 800VDC power and direct-to-chip liquid cooling engineered around the rack, not bolted on afterwards. Sited on the coast beside cable landings and dedicated NHAI fibre, so the compute sits close to the international backbone. Built for frontier model training and large-scale inference at a scale few sites in the country can hold.
Hyderabad-class. Tier IV anchor campuses for regulated banking, financial services and large enterprise. Hard India-only data residency, IBM sovereign cloud, and a dedicated fault domain for each anchor tenant, so one bank's workload can never touch another's. Grid power secured well above IT load for redundancy headroom, with six Indian and four international banks anchoring the first campus.
15 to 25 MW assets designed around a single customer's workload, compliance posture and geography. Pre-engineered shell-and-core compresses the build; the customer's specificity lives in the MEP fit-out and IT readiness, not in re-drawing the building. Delivered complete as a turnkey asset and operated under the HyperNext platform, with five projects already active across the country.
Nava Raipur-class. India's first purpose-built Disaster Recovery as a Service campus, in a geopolitically neutral location chosen for exceptional grid power quality. Engineered for military-grade resiliency, with zero-downtime SLAs offered as a standard commercial commitment rather than a premium add-on. Anchored to the international backbone by dedicated NHAI fibre for fast, clean failover.
The MW-to-GW journey does not start with racks. It starts with power, transmission and supply locked down first. Six stages, run in parallel where it is safe to, benchmarked to the way AWS, Microsoft, Google and Meta build their own.
Grid allocation and a dedicated substation are locked before a single rack is specified. In Hyderabad we secured 330 MW from TSTC, well above the 250 MW IT load, and energised the substation in 1.5 years. Power is the long pole, so we move it to the front.
Standardised pre-engineered building templates fix the Tier IV 2N topology and compress the design phase by months. Customer specificity lives in the MEP fit-out, the IT readiness and the operating model, not in re-inventing the shell.
Transformers, switchgear, chillers and gensets are ordered against pipeline forecasts under multi-year master agreements, not against confirmed orders. The 192 MW Kirloskar Optiprime order is one example. Buffer inventory covers emergency replacement. On-time delivery is the rule, not the achievement.
Civil, MEP, IT readiness and commissioning run on parallel tracks against one shared critical path. Continuous commissioning during construction replaces a single sequential test window at the end. Months saved without cutting verification.
Independent commissioning agents take every system through Levels 1 to 5, integrated system testing and black-building pull-the-plug tests included. Nothing goes live on a tenant's faith. It goes live on a witnessed result.
Uptime Institute Tier IV constructed-facility certification at handover. From there the campus runs on the HyperNext BMS and DCIM platform and the HyperONE control plane, with 365 days of security logs retained from day one.
Not every customer wants to own a data center, and not every customer wants to rent one. From a single rack to a full Build-Own-Operate-Transfer, here are the ways to work with us. We match the commercial model to your strategy, not the other way round.
Single racks to multi-rack cages. Space, power, cooling and connectivity, billed on what you draw, with managed SOC, NOC and hardware-lifecycle options on top.
Dedicated halls and private suites at MW scale. Liquid-cooling-ready for 120 to 660 kW AI racks, not just standard 10 kW footprints.
A bespoke facility for a named customer, designed around your workload, compliance and geography, then operated under the HyperNext platform. Five active across the country.
We build, you brand. You hold the customer relationship; we run the operations to Tier IV standard behind it.
Build-Own-Operate-Transfer. We fund, build and operate for an agreed term, then transfer the asset to you. Capital stays off your books until you want it on.
Multi-MW commitments with a phased ramp. Power and halls reserved against your growth curve, so capacity is there the day your GPUs land.
Smaller facilities placed close to users for latency-sensitive workloads, stitched back to the core campuses over dedicated NHAI fibre.
Geo-separated DR with synchronous or asynchronous replication. Zero-downtime SLAs offered as standard, anchored at the Nava Raipur DRaaS campus.
The same stack goes into every facility we build, from a 15 MW build-to-suit to a 1.2 GW AI Factory. Here is what sits behind the wall, and what it buys you.
In partnership with the National Highways Authority of India (NHAI), we are laying dedicated long-haul fibre along major national expressway corridors, creating the lowest-latency, lowest-friction path between our facilities and the people they serve.
Dedicated long-haul fibre landing at Vishakhapatnam and running west to our Nava Raipur campus. The Bay of Bengal cable landings reach Eastern India through this route, anchoring DRaaS and financial workloads at Nava Raipur to the international backbone.
Two coastal high-capacity fibre feeds converge on the Kakinada AI Factory. One arrives along the Chennai–Kakinada coastal corridor. The other lands at Vishakhapatnam and runs south. Resilience by route diversity, not by promise.
Five active Build-to-Suit projects across the country, sized 15 to 25 MW each. Each one delivered as a complete asset, designed around a single customer's workload, compliance and geography requirements, operated under the HyperNext platform.
Whether you need 1 MW or 100, in India or Africa, we can size, schedule, and price a deployment that matches your ramp.