This technology can shape future of electronics design

Update: 2018-01-29 06:27 IST

London: Researchers have found a way of enhancing the capabilities of an emerging nanotechnology that could open the door to a new generation of electronics.

In a study published in the journal Scientific Reports, researchers show how they have pushed the memristor -- a simpler and smaller alternative to the transistor, with the capability of altering its resistance and storing multiple memory states -- to a new level of performance after experimenting with its component materials.

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"This is a really exciting discovery, with potentially enormous implications for modern electronics. By 2020, there are expected to be more than 200 billion interconnected devices within the Internet of Things framework - these will generate an incredible amount of data that will need processing," said Themis Prodromakis, Professor at the University of Southampton.

According to the researchers, memristors could hold the key to a new era in electronics, being both smaller and simpler in form than transistors, low-energy, and with the ability to retain data by 'remembering' the amount of charge that has passed through them -- potentially resulting in computers that switch on and off instantly and never forget.

Researchers demonstrated a new memristor technology that can store up to 128 discernible memory states per switch, almost four times more than previously reported. In the study, they described how they reached this level of performance by evaluating several configurations of functional oxide materials -- the core component that gives the memristor its ability to alter its resistance.

"Memristors are a key enabling technology for next-generation chips, which need to be highly reconfigurable yet affordable, scalable and energy-efficient," the researcher said.

"We are thrilled to be working with world-leading industry, bringing innovations into new electronic systems that require bespoke customisation. Such examples include systems that are employed in inaccessible environments; for example, inside the human body, space or other remote or harsh locations," Prodromakis said.

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