HyperNext designs, builds and operates AI-ready data centers across India, engineered from the ground up to run on round-the-clock renewable energy. This is our commitment to scale the infrastructure behind artificial intelligence without the carbon.
To our customers, partners and colleagues,
The systems our customers run, and increasingly the AI models behind them, draw power around the clock. Meeting that demand is the straightforward part. Meeting it cleanly, in every hour of every day, is the work HyperNext has set itself. We do not treat renewable energy as an annual accounting exercise. We commit to renewable power in every one of the 8,760 hours in the year, and we secure that power before we pour concrete.
This is the group policy for how we do it. It rests on round-the-clock renewable supply, engineered together: generation close to the load, storage to carry the evening, and the ability to bank surplus across the seasons. Our path is set and dated. Renewable cover rises year on year as each campus comes online, reaching one hundred percent round the clock by 2029 and net zero across our operations by 2030. At full build the programme delivers around 17 TWh of clean energy a year and keeps roughly 12 million tonnes of carbon dioxide out of the air.
The next generation of computing should not come at the cost of the climate, and it does not have to. We are proving that AI-scale infrastructure can be powered cleanly, reliably and at scale, in India and beyond. I am personally committed to holding us to this, and I expect every colleague and every partner who works with us to share that commitment.
Artificial intelligence runs around the clock, and so do the data centers behind it. HyperNext has made a simple commitment: to meet that constant demand with renewable energy in every hour, not just on paper across the year. We secure clean power before we pour concrete, and we build it to last 25 years.
The next generation of computing should not come at the cost of the climate. HyperNext is proving that AI-scale infrastructure can be powered cleanly, reliably and at scale, in India and beyond.
| Field | Detail |
|---|---|
| Document title | Renewable Power & Sustainability |
| Classification | Public |
| Version | 1.0 |
| Date | June 2026 |
| Online | hypernxt.com |
| Programme | Round-the-clock renewable power for AI infrastructure |
A modern AI campus draws a near-constant, high-availability load every hour of every day. The easy way to meet it is the grid, with all the carbon that comes with it. The honest way is harder: match that round-the-clock demand with renewables that are, by nature, variable. The sun sets; the wind comes and goes.
Solving that is the heart of what HyperNext does. It takes the right mix of generation, real storage to bridge the evening, and the ability to bank surplus across seasons, all engineered together so the load is met cleanly through the day and overnight. Predictable demand is an advantage: it lets the same clean-supply strategy work at every campus, scaled to its size.
Our approach is to own the foundation. Generation close to the load, a wind partnership for the night, four-hour battery storage to carry the evening peak, and exchange access for the rare remaining gaps, all dispatched against every one of the 8,760 hours in the year.
No single source can power a data center cleanly on its own. HyperNext blends solar for the day, wind for the night, storage to firm the evening, and green exchange to balance, into one round-the-clock supply.
| Source | Share | Role |
|---|---|---|
| Solar | ~47% | High-efficiency panels generate the bulk of daytime energy. |
| Wind | ~38% | Tall-hub turbines carry much of the overnight load. |
| Storage | ~7% | Four-hour batteries bridge the evening peak. |
| Green exchange | ~8% | Renewable energy from the exchange fills the last gaps. |
We are not waiting for a distant target. Renewable cover climbs year on year as each campus comes online, reaching 100 percent round the clock by 2029 and net zero across operations by 2030.
| Year | Renewable share | Captive RE | Milestone |
|---|---|---|---|
| 2026 | 60% | 0.7 GW | HN-1 Hyderabad live |
| 2027 | 78% | 1.6 GW | Generation and storage scaling |
| 2028 | 88% | 2.3 GW | Kakinada + Raipur · REF > 85% |
| 2029 | 100% | 2.7 GW | 100% renewable, round the clock |
| 2030 | 100% | 2.7 GW | Net zero across operations |
The glidepath rises as generation, storage and grid connections are commissioned in step with each campus.
More than 1.5 gigawatts of IT capacity is planned across India, with an international gateway in South Africa, every site built to one clean-power standard.
| Campus | Location | Profile |
|---|---|---|
| Hyderabad, HN-1 | Telangana, India | Tier IV flagship and BFSI anchor, online from 2026. |
| Kakinada AI Factory | Andhra Pradesh, India | India's largest single-site AI factory, online from 2028. |
| Nava Raipur | Chhattisgarh, India | Resilient, disaster-recovery-grade campus, online from 2028. |
| Build-to-suit campuses | Across the metros | Navi Mumbai, Noida, Pune and Kolkata, tailored to demand. |
| Johannesburg | Gauteng, South Africa | International gateway, the same clean architecture abroad. |
| 1.5 GW+ of IT capacity | At full build | One renewable standard across every campus. |
Renewable does not mean less reliable. HyperNext pairs proven, bankable technology with Tier IV design so customers get clean energy and the availability AI workloads demand.
At full build, the HyperNext renewable programme adds gigawatts of new clean capacity and keeps millions of tonnes of carbon out of the air every year, while powering the AI infrastructure India is building for the next decade.
Questions about HyperNext's renewable programme can be sent to confidential@hypernxt.com.
This page reproduces the published policy in full. For a signed, classification-marked PDF copy for your records, audit or due-diligence pack, email governance@hypernxt.com and we will send it across.