Intelligent Renewables
Unlock renewables’ vast potential

How can power generation from renewable sources become reliable and efficient?

By reinventing power generation, distribution and retail.

There’s no vaccine for the climate crisis. To create a breakthrough with lasting impact for the next generation, innovation at scale is needed so clean, renewable energy becomes mainstream.

Smart Solar

There’s a global shift towards sustainability and renewable energy sources. But for it get adopted at scale, solar power and renewable grids need to become more stable and efficient.


  • Scale energy demand response with innovative technologies such as Artificial Intelligence (AI) and Internet of Things (IoT).
  • Increase grid flexibility and stability by establishing a distributed energy system.
  • Enhance reliability with a network of connected renewable assets and devices.
  • Improve efficiency by running solar at night with the use of smart storage, leveraging novel assets such as electric vehicles (EV).

Smart Wind

To thrive as the world transits into a renewable energy economy, traditional wind farms need to capture untapped potentials.


  • Increase agility by predicting and proactively managing demand and supply, with innovative technologies such as Artificial Intelligence (AI) and Internet of Things (IoT).
  • Boost energy production and reliability with connected assets and sophisticated applications for wind modelling and forecasting.
  • Reduce operating costs and enhance asset potential with predictive asset maintenance.
  • Maximize resource efficiency by replacing low-value manual processes with automated monitoring and mobile troubleshooting.

Green Hydrogen

Green hydrogen plays a vital role in a sustainable and net zero future. But for it to truly matter, energy regulators, investors, and industry need to verify that the hydrogen is truly green. And ensure production is cost-competitive.


  • Certify the origin of hydrogen to ascertain hydrogen is produced sustainably.
  • Protect green hydrogen investments by simulating a hydrogen plant’s conditions at investment-grade levels.
  • Monitor hydrogen plant processes from end to end to ensure quick response to underperformance.
  • Combine asset analysis with predictive maintenance to maximize plant performance.