Imagine a data center humming with the power to train artificial intelligence models containing billions of parameters, processing petabytes of data in mere hours, yet constrained by the physical limits of traditional chip design. This is the reality facing tech giants and startups alike as the
In an era where industrial systems are increasingly interconnected with digital networks, the vulnerability of operational technology (OT) environments has become a pressing concern for critical infrastructure sectors. Imagine a scenario where a single flaw in a widely used industrial device could
Imagine a world where enterprise data centers consume as much electricity as an entire nation, while spiraling cloud costs threaten financial stability, and the relentless demands of AI workloads push systems to their breaking points. This is not a distant dystopia but a pressing reality in 2025,
What happens when a nation’s digital dreams collide with the hard limits of its energy infrastructure? Japan, a titan in global technology and economy, finds itself at a critical juncture as it races to cement its status as a data center powerhouse in the Asia-Pacific region, with a market
Imagine a data center humming with activity, powering the AI algorithms that drive cutting-edge innovations, yet teetering on the brink of thermal overload as rack densities soar past 100 kW, with some even reaching 600 kW, while traditional air cooling systems struggle to keep up. Once the
In an era where connectivity underpins nearly every aspect of daily life, the security of Wi-Fi devices remains a critical concern, yet a vulnerability known as Pixie Dust continues to haunt modern hardware, posing significant risks to users worldwide. This flaw, first identified over a decade ago,
