At Davos 2026, AI discussions shifted from models to infrastructure, sovereignty, and geopolitical power. Key insights from ...

Brookings Institution's report details the best ways to minimize risk and utilize benefits of AI for students.

A new documentary premiering at the Sundance Film Festival has placed the debate over AI squarely in the cultural spotlight, ...

For the U.S., keeping up with AI’s insatiable appetite is the biggest systemic risk of the next decade. America needs a ...

Where does artificial intelligence (AI) live in the physical world? Not in the cloud, but in industrial vaults of silicon and steel. Its life depends on the same electrical grids that power our cities ...

Artificial intelligence is colliding with a hard physical limit: the energy and heat of today’s silicon-based chips. As models grow from billions to trillions of parameters, the bottleneck is no ...

AI is advancing at extraordinary speed due to development of large language models relying on complex, GPU-powered compute clusters. The rapid advance of AI is creating unprecedented electricity ...

The AI revolution will require a lot of power in the coming years. Google has signed energy deals with NextEra and Brookfield Renewable. Brookfield has also signed a long-term renewable energy ...

Four years ago, the world was talking about Bitcoin mining and the explosive growth of high-density electrical loads. Today, that same power demand has been dwarfed by the rise of artificial ...

The shortage is a lucrative opportunity - but the window is brief AI computing workloads could consume around 500 terawatt-hours annually by 2027 - about twice the U.K.'s total electricity consumption ...

CyrusOne’s Jim Roche details how AI-driven workloads, high-density racks, and liquid cooling are transforming the data center–utility relationship. Only a decade ago, few in the power sector could ...