Supplementary files for article Temperature control of diffusive memristor hysteresis and artificial neuron spiking Memristive devices are promising elements for energy-efficient neuromorphic computing and future artificial intelligence systems. For diffusive memristors, resistive switching occurs because of the sequential formation and rupture of conduction filaments between device electrodes due to drift and diffusion of silver nanoparticles in the dielectric matrix. This process is governed by the applied electric voltage. Here, both in experiment and in simulations we demonstrate that varying temperature offers an efficient control of memristor states and charges transport in the device. By raising and lowering the device temperature i...
In neuromorphic computing, memristors (or “memory resistors”) have been primarily studied as key ele...
Memristor, the fourth passive circuit element, has attracted increased attention from various areas ...
Memristors have shown an extraordinary potential to emulate the plastic and dynamic electrical behav...
Supplementary files for article Temperature control of diffusive memristor hysteresis and artificial...
Memristive devices are promising elements for energy-efficient neuromorphic computing and future art...
Diffusive memristors, which have been recently fabricated and measured, attract a significant intere...
We present a novel multilayered architecture for memristive devices which provides an alternative to...
Memristors have been proposed for a number of applications from nonvolatile memory to neuromorphic ...
Memristive devices present a new device technology allowing for the realization of compact non-volat...
Memristive devices have been widely employed to emulate biological synaptic behavior. In these cases...
Memristors are considered as one of the promising candidates for next-generation computation and sto...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
Memristive devices have found application in both random access memory and neuromorphic circuits. In...
Abstract—Memristors have been suggested as neuromorphic computing elements. Spike-time dependent pla...
The capability of memristor devices to perform weight changes upon electrical pulses mimics the anal...
In neuromorphic computing, memristors (or “memory resistors”) have been primarily studied as key ele...
Memristor, the fourth passive circuit element, has attracted increased attention from various areas ...
Memristors have shown an extraordinary potential to emulate the plastic and dynamic electrical behav...
Supplementary files for article Temperature control of diffusive memristor hysteresis and artificial...
Memristive devices are promising elements for energy-efficient neuromorphic computing and future art...
Diffusive memristors, which have been recently fabricated and measured, attract a significant intere...
We present a novel multilayered architecture for memristive devices which provides an alternative to...
Memristors have been proposed for a number of applications from nonvolatile memory to neuromorphic ...
Memristive devices present a new device technology allowing for the realization of compact non-volat...
Memristive devices have been widely employed to emulate biological synaptic behavior. In these cases...
Memristors are considered as one of the promising candidates for next-generation computation and sto...
Memristors are ideal devices able to switch among different resistive states and to retain the most ...
Memristive devices have found application in both random access memory and neuromorphic circuits. In...
Abstract—Memristors have been suggested as neuromorphic computing elements. Spike-time dependent pla...
The capability of memristor devices to perform weight changes upon electrical pulses mimics the anal...
In neuromorphic computing, memristors (or “memory resistors”) have been primarily studied as key ele...
Memristor, the fourth passive circuit element, has attracted increased attention from various areas ...
Memristors have shown an extraordinary potential to emulate the plastic and dynamic electrical behav...