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 ...

The race to deploy AI infrastructure is a defining technological challenge of the moment. Data center designers and operators are balancing competing priorities as they manage long-term data center ...

There is no single technology that will power the AI era; rather, I expect that the future lies in a portfolio of firm, ...

Boyd’s ROL4000 Coolant Distribution Unit Accelerates Liquid Cooling Adoption in Artificial Intelligence Data Centers, Colocations, and Hyperscalers Today, Boyd announces a substantial addition to its ...

As liquid cooling becomes the default for high-density facilities, incorporating a liquid cooling data center design is ...

While compute devices such as CPUs, GPUs, and XPUs are stealing the limelight in the artificial intelligence (AI) era, there is an increasing realization that powering AI at scale demands new power ...

Siemens and nVent are collaborating to develop a liquid cooling and power reference architecture for hyperscale AI workloads. The new joint architecture developed by Siemens and nVent is designed to ...

Given marching orders by the U.S. Energy Dept. to boost artificial intelligence sector growth, independent agency Federal Energy Regulatory Commission (FERC) now must absorb nearly 200 diverging power ...

Backup generators are gaining a new lease on life in data centers. For decades, they have been a rarely used part of the infrastructure, existing for those moments when other power sources fail. But ...

Two Colorado-based groups are partnering to develop power generation solutions for data centers. Liberty Energy, the Denver-based oil and gas company founded by U.S. Energy Secretary Chris Wright, and ...