The explosion of AI workloads is redrawing the data center blueprint in real time. Models are larger, compute clusters are denser, and the pressure to deliver consistent performance is relentless.

The demand for increased compute density. An evolution to ±400-V DC distribution to next-generation AI/ML supercomputer racks to meet that demand. Challenges and solutions in making the move to ±400-V ...

MUNICH & SANTA CLARA, Calif.--(BUSINESS WIRE)-- Infineon Technologies AG (FSE: IFX / OTCQX: IFNNY) is revolutionizing the power delivery architecture required for future AI data centers. In ...

Innovators are rolling out more efficient power-management solutions to meet the explosive demand for artificial intelligence applications. We believe broader migration to 800 V HVDC architecture will ...

AI data centers typically operate at 20 to 40 kilowatts per rack, with designs targeting 50 to 100 kilowatts or more; however, many can't break ground because the grids lack sufficient capacity. Power ...

Introducing Modern Atomics and Reaktor, from CEDIA channel innovators Paul Bryson, Michael Braithwaite and Tim Marshall. With its unique design and capabilities, including AI, this disruptive ...

Power distribution units, as the name implies, are indispensable tools to have available in a server rack. They can handle a huge amount of power for demands of intensive computing and do it in a way ...