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Your search keyword '"Chan, Jianpeng"' showing total 14 results
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14 results on '"Chan, Jianpeng"'

1. Leaky-Integrate-Fire Neuron via Synthetic Antiferromagnetic Coupling and Spin-Orbit Torque

Author

Sekh, Badsha, Kumar, Durgesh, Rahaman, Hasibur, Maddu, Ramu, Chan, Jianpeng, Mah, Wai Lum William, and Piramanayagam, S. N.

Subjects
Physics - Applied Physics
Abstract

Neuromorphic computing (NC) is a promising candidate for artificial intelligence applications. To realize NC, electronic analogues of brain components, such as synapses and neurons, must be designed. In spintronics, domain wall (DW) based magnetic tunnel junctions - which offer both synaptic and neuronal functionalities - are one of the promising candidates. An electronic neuron should exhibit leaky-integrate-fire functions similar to their biological counterparts. However, most experimental studies focused only on the integrate-and-fire functions, overlooking the leaky function. Here, we report on a domain wall neuron device that achieves integration using spin-orbit torque-induced domain wall motion and a leaky function via synthetic antiferromagnetic coupling. By fabricating Hall bar devices in a special geometry, we could achieve these two functionalities. During the leaky process, the maximum DW velocity achieved was 2500 {\mu}m/s. The proposed design utilizes materials used in STT-MRAM fabrication and is compatible with CMOS fabrication. Therefore, this neuron can be readily integrated into NC., Comment: 15 pages, 4 Figures, 1 Table

Published
2024

2. Bayesian improved cross entropy method with categorical mixture models

Author

Chan, Jianpeng, Papaioannou, Iason, and Straub, Daniel

Subjects
Statistics - Methodology, Statistics - Applications
Abstract

We employ the Bayesian improved cross entropy (BiCE) method for rare event estimation in static networks and choose the categorical mixture as the parametric family to capture the dependence among network components. At each iteration of the BiCE method, the mixture parameters are updated through the weighted maximum a posteriori (MAP) estimate, which mitigates the overfitting issue of the standard improved cross entropy (iCE) method through a novel balanced prior, and we propose a generalized version of the expectation-maximization (EM) algorithm to approximate this weighted MAP estimate. The resulting importance sampling distribution is proved to be unbiased. For choosing a proper number of components $K$ in the mixture, we compute the Bayesian information criterion (BIC) of each candidate $K$ as a by-product of the generalized EM algorithm. The performance of the proposed method is investigated through a simple illustration, a benchmark study, and a practical application. In all these numerical examples, the BiCE method results in an efficient and accurate estimator that significantly outperforms the standard iCE method and the BiCE method with the independent categorical distribution.

Published
2023

3. Bayesian improved cross entropy method for network reliability assessment

Author

Chan, Jianpeng, Papaioannou, Iason, and Straub, Daniel

Subjects
Statistics - Applications
Abstract

We propose a modification of the improved cross entropy (iCE) method to enhance its performance for network reliability assessment. The iCE method performs a transition from the nominal density to the optimal importance sampling (IS) density via a parametric distribution model whose cross entropy with the optimal IS is minimized. The efficiency and accuracy of the iCE method are largely influenced by the choice of the parametric model. In the context of reliability of systems with independent multi-state components, the obvious choice of the parametric family is the categorical distribution. When updating this distribution model with standard iCE, the probability assigned to a certain category often converges to 0 due to lack of occurrence of samples from this category during the adaptive sampling process, resulting in a poor IS estima tor with a strong negative bias. To circumvent this issue, we propose an algorithm termed Bayesian improved cross entropy method (BiCE). Thereby, the posterior predictive distribution is employed to update the parametric model instead of the weighted maximum likelihood estimation approach employed in the original iCE method. A set of numerical examples illustrate the efficiency and accuracy of the proposed method.

Published
2022

7. An Adaptive Subset Simulation Algorithm for System Reliability Analysis with Discontinuous Limit States

Author

Chan, Jianpeng, Papaioannou, Iason, Straub, Daniel, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Matos, José C., editor, Lourenço, Paulo B., editor, Oliveira, Daniel V., editor, Branco, Jorge, editor, Proske, Dirk, editor, Silva, Rui A., editor, and Sousa, Hélder S., editor

Published
2021
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8. Adaptive Monte Carlo methods for network reliability assessment

Author

Straub, Daniel (Prof. Dr.), Straub, Daniel (Prof. Dr.);Chen, Jianbing (Prof., Ph.D.);Duenas-Osorio, Leonardo (Prof., Ph.D.), Chan, Jianpeng, Straub, Daniel (Prof. Dr.), Straub, Daniel (Prof. Dr.);Chen, Jianbing (Prof., Ph.D.);Duenas-Osorio, Leonardo (Prof., Ph.D.), and Chan, Jianpeng

Abstract

Critical infrastructure networks are vital for society, and their failure can lead to severe consequences. The primary goal of this thesis is to devise efficient sampling-based algorithms for assessing network reliability, with a specific focus on their application to power grids. In this regard, we expand two widely employed variance reduction techniques, namely subset simulation and cross entropy method. Critical network components can be identified as a by-product of these algorithms by estimating the component importance measures using failure samples., Die Bedeutung kritischer Infrastrukturnetzwerke für die Gesellschaft ist unbestreitbar, und ein Ausfall kann schwerwiegende Konsequenzen nach sich ziehen. Das Hauptziel dieser Arbeit besteht in der Entwicklung effizienter, stichprobenbasierter Algorithmen zur Bewertung der Netzwerkzuverlässigkeit, insbesondere mit Fokus auf deren Anwendung in Stromnetzen. Hierbei erweitern wir zwei weit verbreitete Techniken zur Varianzreduktion, nämlich die Subset Simulation und die Cross Entropy Methode. Durch die Schätzung von Ausfallstichproben können wir dabei kritische Netzwerkkomponenten identifizieren und ihre Bedeutungswerte bestimmen.

Published
2024

10. Domain wall pinning through nanoscale interfacial Dzyaloshinskii–Moriya interaction.

Author

Kumar, Durgesh, Chan, JianPeng, and Piramanayagam, S. N.

Subjects
*ARTIFICIAL intelligence, *MAGNETIC tunnelling, *ACTIVATION energy
Abstract

Neuromorphic computing (NC) has been gaining attention as a potential candidate for artificial intelligence. The building blocks for NC are neurons and synapses. Research studies have indicated that domain wall (DW) devices are one of the most energy-efficient contenders for realizing NC. Moreover, synaptic functions can be achieved by obtaining multi-resistance states in DW devices. However, in DW devices with no artificial pinning, it is difficult to control the DW position, and hence achieving multilevel resistance is difficult. Here, we have proposed the concept of nanoscale interfacial Dzyaloshinskii–Moriya interaction (iDMI) for controllably stopping the DWs at specific positions, and hence, realizing multi-resistance states. We show that the nanoscale iDMI forms an energy barrier (well), which can controllably pin the DWs at the pinning sites. Moreover, a tunable depinning current density was achieved by changing the width and iDMI constant of the confinement region. We have also studied pinning in a device with five successive pinning sites. This feature is a proof-of-concept for realizing multi-resistance states in the proposed concept. Based on these observations, a magnetic tunnel junction—where the free layer is made up of the proposed concept—can be fabricated to achieve synapses for NC applications. [ABSTRACT FROM AUTHOR]

Published
2021
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