First, the memristor has to preserve the quantum properties of a qubit (otherwise no further operations can be performed). Second, to set its own internal state, the memristor has to measure a ...

The fundamental passive components of electronics are the resistor, the capacitor, the inductor, and the oscillator, right? Actually, no, oscillators aren’t considered fundamental components … ...

If the memristor has been activated within a few seconds, it will still be in its ON state, with the silver nanoparticles still helpfully arranged into a nano-wire.

Graphene-based memristor is ideal for artificial neural networks, say researchers According to Spagnolo, the team’s quantum memristor could open the way towards a whole new class of quantum devices.

Until fairly recently, the memristor, short for memory resistor, was a mythical electronic component. It had been predicted to exist by a mathematician, Leon Chua, a professor at UC Berkeley, in ...

Fortunately, the memristor is also denser than DRAM, the current RAM technology used for main memory. According to HP, it is 64 and 128 times denser, in fact.

The memristor is a discovery, and memristive phenomena will become ubiquitous in nano-electronic circuits. If you understand the math behind memristors, you can create superior device models, such as ...

Researchers in South Korea are the first to make a bendable digital memory that can store data without constant power. Such memories could find applications in electronic paper for more comfortable ...

A memristor is a device with two states that it can be switched between. In one, it provides high resistance to current traveling through it; in the alternate state, it allows current to pass more ...

H.P. researchers have described ways to design 1,000-layer memristor-based chips, although they acknowledged that with current manufacturing techniques such devices would not be practical.