Exploring the Impact of Variability in Resistance Distributions of RRAM on the Prediction Accuracy of Deep Learning Neural Networks

Prabhu, Nagaraj Lakshmana; Jun, Desmond Loy Jia; Dananjaya, Putu Andhita; Lew, Wen Siang; Toh, Eng-Huat; Raghavan, Nagarajan

doi:10.3390/electronics9030414

Cited by 11 publications

(8 citation statements)

References 16 publications

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“…These IV characteristics are typically observed in filamentarytype of RRAM devices. 34,35 Under the 3T operating mode, the writing (blue arrow) and reading (black arrow) paths are decoupled. To initiate the switching operation of the O-3TM, a forming process is required to induce W channel oxidation under an external electric field.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Proton-Assisted Redox-Based Three-Terminal Memristor for Synaptic Device Applications

Liu

Dananjaya

Chee

et al. 2023

ACS Appl. Mater. Interfaces

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Emerging technologies, i.e., spintronics, 2D materials, and memristive devices, have been widely investigated as the building block of neuromorphic computing systems. Three-terminal memristor (3TM) is specifically designed to mitigate the challenges encountered by its two-terminal counterpart as it can concurrently execute signal transmission and memory operations. In this work, we present a complementary metal-oxide-semiconductor-compatible 3TM with highly linear weight update characteristics and a dynamic range of ∼15. The switching mechanism is governed by the migration of oxygen ions and protons in and out of the channel under an external gate electric field. The involvement of the protonic defects in the electrochemical reactions is proposed based on the bipolar pulse trains required to initiate the oxidation process and the device electrical characteristics under different humidity levels. For the synaptic operation, an excellent endurance performance with over 256k synaptic weight updates was demonstrated while maintaining a stable dynamic range. Additionally, the synaptic performance of the 3TM is simulated and implemented into a four-layer neural network (NN) model, achieving an accuracy of ∼92% in MNIST handwritten digit recognition. With such desirable conductance modulation characteristics, our proposed 3T-memristor is a promising synaptic device candidate to realize the hardware implementation of the artificial NN.

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Section: ■ Results and Discussionmentioning

confidence: 99%

Proton-Assisted Redox-Based Three-Terminal Memristor for Synaptic Device Applications

Liu

Dananjaya

Chee

et al. 2023

ACS Appl. Mater. Interfaces

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“…4(c). As proposed in our past work [35], the normal resistance distribution of is encoded into the mantissa part of CNN trained weights as logic-0 with LRS data and logic-1 with HRS data (based on a threshold resistance value, RTH, i.e. if R < RTH, it is logic "0" and if R > RTH, it is logic "1") and both HRS and LRS resistance data are extracted from the extrapolated data set.…”

Section: B Encoding Scheme Of Rram Resistance Variability On Synaptic...mentioning

confidence: 94%

Computational Failure Analysis of In-Memory RRAM Architecture for Pattern Classification CNN Circuits

Prabhu

Raghavan²

2021

IEEE Access

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“…However, in the environment of missile-borne terminal, there are high requirements on network and hardware, which requires the network to maintain lightweight and good embedding performance on the basis of ensuring recognition accuracy. After AlexNet achieves a qualitative leap in the classification accuracy of ImageNet large data set (Prabhu et al, 2020), the development trend of convolutional neural network is complicated and the number of convolutional layers is increasing.…”

Section: Introductionmentioning

confidence: 99%

A novel CapsNet neural network based on MobileNetV2 structure for robot image classification

Zhang

Yu²,

Lei³

et al. 2022

Front. Neurorobot.

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Image classification indicates that it classifies the images into a certain category according to the information in the image. Therefore, extracting image feature information is an important research content in image classification. Traditional image classification mainly uses machine learning methods to extract features. With the continuous development of deep learning, various deep learning algorithms are gradually applied to image classification. However, traditional deep learning-based image classification methods have low classification efficiency and long convergence time. The training networks are prone to over-fitting. In this paper, we present a novel CapsNet neural network based on the MobileNetV2 structure for robot image classification. Aiming at the problem that the lightweight network will sacrifice classification accuracy, the MobileNetV2 is taken as the base network architecture. CapsNet is improved by optimizing the dynamic routing algorithm to generate the feature graph. The attention module is introduced to increase the weight of the saliency feature graph learned by the convolutional layer to improve its classification accuracy. The parallel input of spatial information and channel information reduces the computation and complexity of network. Finally, the experiments are carried out in CIFAR-100 dataset. The results show that the proposed model is superior to other robot image classification models in terms of classification accuracy and robustness.

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Exploring the Impact of Variability in Resistance Distributions of RRAM on the Prediction Accuracy of Deep Learning Neural Networks

Cited by 11 publications

References 16 publications

Proton-Assisted Redox-Based Three-Terminal Memristor for Synaptic Device Applications

Proton-Assisted Redox-Based Three-Terminal Memristor for Synaptic Device Applications

Computational Failure Analysis of In-Memory RRAM Architecture for Pattern Classification CNN Circuits

A novel CapsNet neural network based on MobileNetV2 structure for robot image classification

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