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22 results on '"Zhang, Zehuan"'

1. Accelerating MRI Uncertainty Estimation with Mask-based Bayesian Neural Network

Author

Zhang, Zehuan, Genci, Matej, Fan, Hongxiang, Wetscherek, Andreas, and Luk, Wayne

Subjects
Computer Science - Hardware Architecture, Computer Science - Artificial Intelligence
Abstract

Accurate and reliable Magnetic Resonance Imaging (MRI) analysis is particularly important for adaptive radiotherapy, a recent medical advance capable of improving cancer diagnosis and treatment. Recent studies have shown that IVIM-NET, a deep neural network (DNN), can achieve high accuracy in MRI analysis, indicating the potential of deep learning to enhance diagnostic capabilities in healthcare. However, IVIM-NET does not provide calibrated uncertainty information needed for reliable and trustworthy predictions in healthcare. Moreover, the expensive computation and memory demands of IVIM-NET reduce hardware performance, hindering widespread adoption in realistic scenarios. To address these challenges, this paper proposes an algorithm-hardware co-optimization flow for high-performance and reliable MRI analysis. At the algorithm level, a transformation design flow is introduced to convert IVIM-NET to a mask-based Bayesian Neural Network (BayesNN), facilitating reliable and efficient uncertainty estimation. At the hardware level, we propose an FPGA-based accelerator with several hardware optimizations, such as mask-zero skipping and operation reordering. Experimental results demonstrate that our co-design approach can satisfy the uncertainty requirements of MRI analysis, while achieving 7.5 times and 32.5 times speedup on an Xilinx VU13P FPGA compared to GPU and CPU implementations with reduced power consumption., Comment: The 35th IEEE International Conference on Application-specific Systems, Architectures and Processors (ASAP) 2024

Published
2024

2. Hardware-Aware Neural Dropout Search for Reliable Uncertainty Prediction on FPGA

Author

Zhang, Zehuan, Fan, Hongxiang, Chen, Hao Mark, Dudziak, Lukasz, and Luk, Wayne

Subjects
Computer Science - Machine Learning, Computer Science - Hardware Architecture
Abstract

The increasing deployment of artificial intelligence (AI) for critical decision-making amplifies the necessity for trustworthy AI, where uncertainty estimation plays a pivotal role in ensuring trustworthiness. Dropout-based Bayesian Neural Networks (BayesNNs) are prominent in this field, offering reliable uncertainty estimates. Despite their effectiveness, existing dropout-based BayesNNs typically employ a uniform dropout design across different layers, leading to suboptimal performance. Moreover, as diverse applications require tailored dropout strategies for optimal performance, manually optimizing dropout configurations for various applications is both error-prone and labor-intensive. To address these challenges, this paper proposes a novel neural dropout search framework that automatically optimizes both the dropout-based BayesNNs and their hardware implementations on FPGA. We leverage one-shot supernet training with an evolutionary algorithm for efficient dropout optimization. A layer-wise dropout search space is introduced to enable the automatic design of dropout-based BayesNNs with heterogeneous dropout configurations. Extensive experiments demonstrate that our proposed framework can effectively find design configurations on the Pareto frontier. Compared to manually-designed dropout-based BayesNNs on GPU, our search approach produces FPGA designs that can achieve up to 33X higher energy efficiency. Compared to state-of-the-art FPGA designs of BayesNN, the solutions from our approach can achieve higher algorithmic performance and energy efficiency., Comment: Design Automation Conference (DAC) 2024

Published
2024

13. An optimized filter design approach for enhancing imaging quality in industrial linear accelerator.

Author

Chen, Gang, Zhang, Zehuan, Xu, Shuo, Jiang, Shibo, Liu, Ximing, Tang, Peng, Li, Songyuan, and Xiang, Xincheng

Subjects
*COMPUTED tomography, *PHOTON counting, *RADIATION sources, *SYSTEMS design, *LINEAR accelerators, *GRAPHITE
Abstract

BACKGROUND: The polychromatic X-rays generated by a linear accelerator (Linac) often result in noticeable hardening artifacts in images, posing a significant challenge to accurate defect identification. To address this issue, a simple yet effective approach is to introduce filters at the radiation source outlet. However, current methods are often empirical, lacking scientifically sound metrics. OBJECTIVE: This study introduces an innovative filter design method that optimizes filter performance by balancing the impact of ray intensity and energy on image quality. MATERIALS AND METHODS: Firstly, different spectra under various materials and thicknesses of filters were obtained using GEometry ANd Tracking (Geant4) simulation. Subsequently, these spectra and their corresponding incident photon counts were used as input sources to generate different reconstructed images. By comprehensively comparing the intensity differences and noise in images of defective and non-defective regions, along with considering hardening indicators, the optimal filter was determined. RESULTS: The optimized filter was applied to a Linac-based X-ray computed tomography (CT) detection system designed for identifying defects in graphite materials within high-temperature gas-cooled reactor (HTR), with defect dimensions of 2 mm. After adding the filter, the hardening effect reduced by 22%, and the Defect Contrast Index (DCI) reached 3.226. CONCLUSION: The filter designed based on the parameters of Average Difference (AD) and Defect Contrast Index (DCI) can effectively improve the quality of defect images. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Adsorption of methylene blue from an aqueous solution using a cucurbituril polymer.

Author

Chen, Rui‐huan, Qiao, Hong‐tao, Liu, Yun, Dong, Yuan‐hua, Wang, Ping, Zhang, Zehuan, and Jin, Tao

Subjects
CUCURBITURIL, METHYLENE blue, ADSORPTION (Chemistry), POLYMERS, AQUEOUS solutions
Abstract

This article presents a study on the batch adsorption of methylene blue (MB) in an aqueous solution onto a cucurbituril polymer (CP) in order to explore its potential use as an adsorbent for dye removal from wastewater. Equilibrium studies showed that MB had a high affinity in a basic medium, but decreased as solution pH decreased. The adsorption of MB decreased with an increase in ionic strength for all four types of cations (Na+, K+, Mg2+, and Ca2+). The pseudo first-order, pseudo second-order kinetic model, and the intraparticle diffusion model were used to fit the kinetics process of MB adsorption on the CP. The result implies that the pseudo second-order model provided a high degree of correlation with the experimental data, and intraparticle diffusion is not the only rate-limiting step. The experimental isotherm data were analyzed using the Langmuir, Freundlich, and Redlich-Peterson isotherm model at initial pH 5.6 and 11. Five error analysis methods were used to evaluate the data. The error values indicated that the Redlich-Peterson and Langmuir models could provide the better quality of fit at initial pH 5.6, and Redlich-Peterson and Freundlich models described better the MB adsorption data at initial pH 11.0. © 2014 American Institute of Chemical Engineers Environ Prog, 34: 512-519, 2015 [ABSTRACT FROM AUTHOR]

Published
2015
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