A. Pirovano scite author profile

We present a novel one-transistor/one-resistor (1T1R) synapse for neuromorphic networks, based on phase change memory (PCM) technology. The synapse is capable of spike-timing dependent plasticity (STDP), where gradual potentiation relies on set transition, namely crystallization, in the PCM, while depression is achieved via reset or amorphization of a chalcogenide active volume. STDP characteristics are demonstrated by experiments under variable initial conditions and number of pulses. Finally, we support the applicability of the 1T1R synapse for learning and recognition of visual patterns by simulations of fully connected neuromorphic networks with 2 or 3 layers with high recognition efficiency. The proposed scheme provides a feasible low-power solution for on-line unsupervised machine learning in smart reconfigurable sensors.

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Reliability Study of Phase-Change Nonvolatile Memories

Pirovano

Redaelli

Pellizzer

et al. 2004

IEEE Trans. Device Mater. Relib.

251

149

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A. Pirovano

Electronic Switching in Phase-Change Memories

Low-field amorphous state resistance and threshold voltage drift in chalcogenide materials

Scaling analysis of phase-change memory technology

Unsupervised Learning by Spike Timing Dependent Plasticity in Phase Change Memory (PCM) Synapses

Reliability Study of Phase-Change Nonvolatile Memories

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