Memristive devices, which combine a resistor with memory functions such that voltage pulses can change their resistance (and hence their memory state) in a nonvolatile manner, are beginning to be implemented in integrated circuits for memory applications. However, memristive devices could have applications in many other technologies, such as non–von Neumann in-memory computing in crossbar arrays, random number generation for data security, and radio-frequency switches for mobile communications. Progress toward the integration of memristive devices in commercial solid-state electronic circuits and other potential applications will depend on performance and reliability challenges that still need to be addressed, as described here.
Memristive technologies for data storage, computation, encryption, and radio-frequency communication / Lanza, M.; Sebastian, A.; Lu, W. D.; Le Gallo, M.; Chang, M. -F.; Akinwande, D.; Puglisi, F. M.; Alshareef, H. N.; Liu, M.; Roldan, J. B.. - In: SCIENCE. - ISSN 0036-8075. - 376:6597(2022), pp. eabj9979-N/A. [10.1126/science.abj9979]
Memristive technologies for data storage, computation, encryption, and radio-frequency communication
Puglisi F. M.;
2022
Abstract
Memristive devices, which combine a resistor with memory functions such that voltage pulses can change their resistance (and hence their memory state) in a nonvolatile manner, are beginning to be implemented in integrated circuits for memory applications. However, memristive devices could have applications in many other technologies, such as non–von Neumann in-memory computing in crossbar arrays, random number generation for data security, and radio-frequency switches for mobile communications. Progress toward the integration of memristive devices in commercial solid-state electronic circuits and other potential applications will depend on performance and reliability challenges that still need to be addressed, as described here.File | Dimensione | Formato | |
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