Intrinsic Temporal Behavior of Titanium Oxide Memristors for Neuromorphic Systems: Raw dataset
Intrinsic Temporal Behavior of Titanium Oxide Memristors for Neuromorphic Systems: Raw dataset
Methodology
Experiments were conducted on in-house fabricated Pt/TiO2/Au structure with thickness of 15/25/20nm respectively. The fabricated structures were characterized using a 16 x 16 probe card mounted on a Cascade Microtech Summit 12000 Prober controlled via a ARC ONE DC I-V control system. Stimulation was conducted over five repeating cycles to demonstrate the behaviour of the resistance over time. Potentiation and depression were triggered by pulses of opposite polarity. The bias could potentially be altered to achieve a desired starting resistance. A total of five repeating cycles were conducted. Each experiment was conducted on a pristine device with 4V programming pulse width of 10ms and inter-pulse of 100ms. A total of 100 pulses were applied per direction. Each identical programming pulse was followed by a 0.1V non-invasive reading pulse for a fixed duration. Attached csv file include resistive values for three devices along with their corresponding pulse train and time.
Wang, Alexander-Hanyu
94ff0c41-9d26-4600-9e3f-8f70fe1816cf
Wang, Alexander-Hanyu
94ff0c41-9d26-4600-9e3f-8f70fe1816cf
(2022)
Intrinsic Temporal Behavior of Titanium Oxide Memristors for Neuromorphic Systems: Raw dataset.
Zenodo
doi:10.5281/zenodo.6539492
[Dataset]
Abstract
Methodology
Experiments were conducted on in-house fabricated Pt/TiO2/Au structure with thickness of 15/25/20nm respectively. The fabricated structures were characterized using a 16 x 16 probe card mounted on a Cascade Microtech Summit 12000 Prober controlled via a ARC ONE DC I-V control system. Stimulation was conducted over five repeating cycles to demonstrate the behaviour of the resistance over time. Potentiation and depression were triggered by pulses of opposite polarity. The bias could potentially be altered to achieve a desired starting resistance. A total of five repeating cycles were conducted. Each experiment was conducted on a pristine device with 4V programming pulse width of 10ms and inter-pulse of 100ms. A total of 100 pulses were applied per direction. Each identical programming pulse was followed by a 0.1V non-invasive reading pulse for a fixed duration. Attached csv file include resistive values for three devices along with their corresponding pulse train and time.
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More information
Published date: 11 May 2022
Identifiers
Local EPrints ID: 476214
URI: http://eprints.soton.ac.uk/id/eprint/476214
PURE UUID: 1b661fde-a231-4e4e-85ca-07e8cc10909d
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Date deposited: 14 Apr 2023 16:39
Last modified: 05 May 2023 20:16
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Contributors
Contributor:
Alexander-Hanyu Wang
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