From the earliest mechanical devices to the most advanced quantum computers of the present, the history of computing is a fascinating trip spanning thousands of years. Let’s explore the significant ...

Exascale computing can process over a quintillion operations every second — enabling supercomputers to perform complex simulations that were previously impossible. But how does it work? When you ...

Atomic-scale 2D magnets can be polarized to represent binary states — the 1s and 0s of computing data. These can lead to far more dense and energy-efficient components. When you purchase through links ...

The title is a bit of misnomer, as author Wayne Wolf is really presenting a typical embedded design and programming book. There is little about connecting CPU components together in anything other ...

What if living organisms could perform some of the tasks handled by silicon chips? New research suggests fungal systems can exhibit memory-like electrical behavior, opening the door to unconventional, ...

When it comes to the world of consumer-grade electronics, absolutely nothing stands still. What was considered cutting-edge a mere decade ago is today all but ancient history, with tech components, ...

If you’ve heard of the game Minecraft, you may also have heard about all the folks who’ve built working virtual arithmetic logic units (ALUs) out of the LEGO-like game world itself. Sure, they’re more ...

As 2023 draws to an end, it’s natural to look back at the new things that have emerged in the networking industry over the last 12 months and assess what impact they have made and what impact they ...