Researchers reveal how memory materials switch electricity on and off by melting and freezing tellurium in nano-devices, enabling faster, energy-efficient semiconductor design.

As artificial intelligence advances, computers demand faster and more efficient memory. The key to ultra-high-speed, low-power semiconductors lies in the "switching" principle—the mechanism by which ...

Four years after killing off its Optane memory products, Intel is getting back into the memory business by partnering with a ...

The Dell Pro Max Tower T2 is a powerhouse workstation designed for real productivity. It’s not your everyday gaming PC; it’s more than that. Yes, it’s not the most advanced gaming GPU, but it is among ...

Vladimir Zakharov explains how DataFrames serve as a vital tool for data-oriented programming in the Java ecosystem. By ...

Better understanding of the design, implementation and operation of these cyber-physical systems can enable optimized process ...

An 8-layer stack of bulk RRAM runs a continually-learning neural network ...

As the global AI computing race intensifies, the primary constraint is shifting from GPU architecture to memory physics. HBM capacity remains concentrated among Samsung, SK Hynix, and Micron.

The Department of Electronics and Nanoengineering at Aalto University School of Electrical Engineering invites applications for a tenure-track professor position in Digital Integrated Circuits and ...

At CES, what stood out to me was just how much Nvidia and AMD focused on a systems approach, which may be the most ...

Unlock the future of semiconductor innovation with chiplets — enabling scalable, cost-effective designs and paving the way ...

Thanks to Ryzen 5 7640HS, Radeon 760M and a magnetic cover, this mini PC offers concentrated power and easy upgrades.