CORDIS Project
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This project explores resistive switching mechanisms in Mott insulators to develop energy-efficient computing technologies. By manipulating electronic properties and minimizing structural changes, it aims to enhance memory devices and neuromorphic systems, potentially revolutionizing artificial neural networks.
The pressing need for beyond-von-Neumann computing paradigms has triggered intensive efforts into understanding and controlling various resistive switching (RS) mechanisms.
This switching, in which the two terminal resistance of a device is controlled by current is at the heart of emerging technologies such as resistive random access memory and neuromorphic computation.
These technologies promise to revolutionize artificial neural networks and mimic the behavior of biological brains, triggering…
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