Bipolar Resistive Switching in TiO 2 Artificial Synapse Mimicking Pavlov's Associative Learning.
Anjan Kumar JenaMousam Charan SahuUdaya Mohanan KannanSameer Kumar MallikSandhyarani SahooGopal K PradhanSatyaprakash SahooPublished in: ACS applied materials & interfaces (2023)
Memristive devices are among the most emerging electronic elements to realize artificial synapses for neuromorphic computing (NC) applications and have potential to replace the traditional von-Neumann computing architecture in recent times. In this work, pulsed laser deposition-manufactured Ag/TiO 2 /Pt memristor devices exhibiting digital and analog switching behavior are considered for NC. The TiO 2 memristor shows excellent performance of digital resistive switching with a memory window of order ∼10 3 . Furthermore, the analog resistive switching offers multiple conductance levels supporting the development of the bioinspired synapse. A possible mechanism for digital and analog switching behavior in our device is proposed. Remarkably, essential synaptic functions such as pair-pulse facilitation, long-term potentiation (LTP), and long-term depression (LTD) are successfully realized based on the change in conductance through analog memory characteristics. Based on the LTP-LTD, a neural network simulation for the pattern recognition task using the MNIST data set is investigated, which shows a high recognition accuracy of 95.98%. Furthermore, more complex synaptic behavior such as spike-time-dependent plasticity and Pavlovian classical conditioning is successfully emulated for associative learning of the biological brain. This work enriches the TiO 2 -based resistive random-access memory, which provides information about the simultaneous existence of digital and analog behavior, thereby facilitating the further implementation of memristors in low-power NC.
Keyphrases
- quantum dots
- neural network
- visible light
- working memory
- blood pressure
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- electronic health record
- bipolar disorder
- risk assessment
- white matter
- sleep quality
- mass spectrometry
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