The 800 VDC Power Rack is supported by Flex's global manufacturing and supply chain network, providing the speed, scale, and resilience required to deploy next-generation AI infrastructure. This ...

AI factories demand 800 volts because physics doesn't care about your upgrade budget Feature Hyperscale computing was built on a foundation of certainty. For years, 12V and 48V rack architectures – ...

Highly integrated optical engine enables lower power and reduced latency for high-bandwidth LPO and on-board optics 1.6T light engine contains linear driver, TIA, and silicon photonics chip supporting ...

Schneider Electric teams with NVIDIA to develop validated blueprints to design, simulate, build, operate and maintain gigawatt-scale AI Factories ...

With Moore's Law on its last legs and datacenter power consumption a growing concern, AMD is embarking on an ambitious new goal to boost the energy efficiency of its chips 20-fold before 2030. And it ...

New research outlines how DC-native power infrastructure can improve efficiency, scalability and revenue density in next-generation AI and GPU data centres. Enteligent, a developer of Direct Current ...

As global AI computing platforms continue to evolve toward higher density, increased power demands, and rack-scale ...

Schneider Electric reaffirms its commitment to supporting 800 VDC infrastructure for next-generation high-density rack architectures As the industry accelerates toward higher power densities and ...

TL;DR: NVIDIA's next-gen Kyber AI server, launching in 2027, will feature 576 Rubin Ultra AI GPUs with innovations in 800 VDC power delivery, liquid cooling, and vertical blade rack design. Kyber ...

Artificial intelligence (AI) is reshaping the world — and data centers provide its lifeblood. The data centers of today are ...

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.