New workload demands are turning data handling into a system-level design challenge rather than a back-end afterthought.

A white paper from Enteligent says an 800V direct current architecture linking solar and storage directly to data centers can cut capital costs, reduce copper use and improve efficiency compared with ...

Optical connectivity should be treated as a first-order design pillar alongside power and cooling. It must be tailored to the ...

AI servers are pushing data centers to their limits. This guide reveals how smarter power design can cut losses & solve ...

HPC data centers solved many of the technical challenges AI now faces: low-latency interconnects, advanced scheduling, liquid cooling, and CFD -based thermal modeling. AI data centers extend these ...

Large-scale AI workloads, with their high-bandwidth and low-latency requirements, are reshaping data center network architecture, Nvidia says. Nvidia’s networking ...

The guide addresses the rapid advancement and adoption of AI, a trend driving the continuous rollout of new data centers ...

Microsoft’s Fairwater 2 data center in Atlanta, part of the company’s new AI “superfactory” network linking facilities across multiple states. (Microsoft Photo) Microsoft says it has linked massive ...

Traditional data centers can’t keep pace with the demands of modern AI. From GPUs and liquid cooling to specialized storage, here's a deep dive into the technology making the AI revolution possible.

Data center AI is driving a dramatic ramp in the growth of silicon photonics foundries: 8X growth in just 6 years, from 2026 to 2032. Scale-out is the major driver now. Scale-up will become the ...