Shared by Rich

On staying with the theme of subthreshold membrane voltages (see my previous shares if you missed them) - This is the type of work that needs to be done if we’re to make anything out of the almost infinite complexity of the analog wor…

Since 1972, scientists have known there are four basic circuit components, but if you’ve spent any time in an electrical engineering classroom, you probably only have experience with three: capacitor, inductor, and resistor. The fourth basic component, the memristor, had remained stuck in the domain of theory–a nice idea that even the theorists thought had few practical uses. Last year, scientists at Hewlett-Packard (HP) demonstrated the first functional solid-state memristor, made from thin films of TiO₂, and discovered it had an abundance of unique and highly promising properties.

A study released Monday by The Proceedings of the National Academy of Sciences shows that these same TiO₂ memristors can be fabricated into functional and reprogrammable integrated circuits. Scientists at HP combined a crossbar architecture of memristors with field effect transistors (FETs) to produce a convincing proof-of-concept device that includes circuits that can dynamically reprogram themselves, acting a bit like a solid-state nerve cell-like operation–a holy grail of electrical engineering.

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