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Synaptic Devices for Simulating Brain Processes in Visual-Information Perception to Persisting Memory Through Attention Mechanisms
18 Pages Posted: 10 Jul 2023 Publication Status: Published
Abstract
In the human brain, attention plays a critical role in encoding information into memory. Therefore, focused attention during encoding enhances the likelihood of information being effectively encoded and stored in memory. This phenomenon has been creatively replicated in our proposed synaptic devcies, which regulate the forgetting curves by manipulating the gate voltage. Thus, the proposed transistor devices seperate long-term memory from long-lasting memory. TiO2-based synaptic transistors were used to replicate the brain fucntions, from vision processing to memory retention. The photosensitive nature of TiO2 enables the utilization of both photo- and electric stimuli. The electrical properties of the synaptic devices induced by photostimulation replicate the human-vision process, whereas those elicited by electric stimulation simulate memory-retention capabilities. Through the application of a shallow trap with a short lifetime, light stimulation can be utilized to mimic the effects of short-term memory. In contrast, a deep trap with a long lifetime is employed in electrical memory to replicate the phenomena associated with persisting memory. A simulation of the MNIST recognition of an artificial neural network constructed with the measured synaptic characteristics showed accuracy rate of 92.96%, which indicates that our device can be successfully incorporated into neuromorphic devices.
Keywords: synaptic devices, combinatorial pulses, ultra-thin insulators, charge trap-detrap, shallow and deep trap
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