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1. Training-free Conversion of Pretrained ANNs to SNNs for Low-Power and High-Performance Applications

Author

Bu, Tong, Li, Maohua, and Yu, Zhaofei

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

Spiking Neural Networks (SNNs) have emerged as a promising substitute for Artificial Neural Networks (ANNs) due to their advantages of fast inference and low power consumption. However, the lack of efficient training algorithms has hindered their widespread adoption. Existing supervised learning algorithms for SNNs require significantly more memory and time than their ANN counterparts. Even commonly used ANN-SNN conversion methods necessitate re-training of ANNs to enhance conversion efficiency, incurring additional computational costs. To address these challenges, we propose a novel training-free ANN-SNN conversion pipeline. Our approach directly converts pre-trained ANN models into high-performance SNNs without additional training. The conversion pipeline includes a local-learning-based threshold balancing algorithm, which enables efficient calculation of the optimal thresholds and fine-grained adjustment of threshold value by channel-wise scaling. We demonstrate the scalability of our framework across three typical computer vision tasks: image classification, semantic segmentation, and object detection. This showcases its applicability to both classification and regression tasks. Moreover, we have evaluated the energy consumption of the converted SNNs, demonstrating their superior low-power advantage compared to conventional ANNs. Our training-free algorithm outperforms existing methods, highlighting its practical applicability and efficiency. This approach simplifies the deployment of SNNs by leveraging open-source pre-trained ANN models and neuromorphic hardware, enabling fast, low-power inference with negligible performance reduction.

Published
2024

2. Enhancing Adversarial Robustness in SNNs with Sparse Gradients

Author

Liu, Yujia, Bu, Tong, Ding, Jianhao, Hao, Zecheng, Huang, Tiejun, and Yu, Zhaofei

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Cryptography and Security, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Spiking Neural Networks (SNNs) have attracted great attention for their energy-efficient operations and biologically inspired structures, offering potential advantages over Artificial Neural Networks (ANNs) in terms of energy efficiency and interpretability. Nonetheless, similar to ANNs, the robustness of SNNs remains a challenge, especially when facing adversarial attacks. Existing techniques, whether adapted from ANNs or specifically designed for SNNs, exhibit limitations in training SNNs or defending against strong attacks. In this paper, we propose a novel approach to enhance the robustness of SNNs through gradient sparsity regularization. We observe that SNNs exhibit greater resilience to random perturbations compared to adversarial perturbations, even at larger scales. Motivated by this, we aim to narrow the gap between SNNs under adversarial and random perturbations, thereby improving their overall robustness. To achieve this, we theoretically prove that this performance gap is upper bounded by the gradient sparsity of the probability associated with the true label concerning the input image, laying the groundwork for a practical strategy to train robust SNNs by regularizing the gradient sparsity. We validate the effectiveness of our approach through extensive experiments on both image-based and event-based datasets. The results demonstrate notable improvements in the robustness of SNNs. Our work highlights the importance of gradient sparsity in SNNs and its role in enhancing robustness., Comment: accepted by ICML 2024

Published
2024

3. Development of Vanadium Carbide-Based Immunochromatographic Assay for T-2 Toxin Detection in Maize Samples

Author

LUO Changwei, CHEN Xiaoyang, HUANG Xianqing, SONG Lianjun, ZHANG Xiya, BU Tong

Subjects
t-2 toxin, maize, vanadium carbide, immunochromatographic test strip, Food processing and manufacture, TP368-456
Abstract

The purpose of this study was to construct a vanadium carbide-based immunochromatographic assay for the sensitive detection of T-2 toxin in maize. Vanadium carbide nanosheets (VCNSs) were synthesized by ultrasonic-assisted liquid phase exfoliation, and conjugated with T-2 monoclonal antibody (T-2-mAb) as a signal probe. Based on the competition principle, the T-2 toxin in samples competed with the T-2 antigen on the test (T) line for binding to the black VCNSs-mAb probe. As a result, the T-line value was inversely proportional to T-2 toxin concentration. The best experimental conditions and the standard curve were established based on color development in the T-line of the blank test strip (signal value > 800, detected using an MD-600 reader) and the inhibition rate of 0.5 and 1.5 ng/mL T-2 toxin. The results showed that the linear range of the proposed method was between 0.14 and 0.78 ng/mL, the visual detection limit was 0.25 ng/mL, the cut-off value was 1.5 ng/mL, and the half maximal inhibitory concentration (IC50) was 0.344 ng/mL. The sensitivity was 6.6 times higher than that of the traditional colloidal gold test strip. In addition, the assay did not cross-react with five other common mycotoxins. Moreover, the recoveries for real maize samples ranged from 92.8% to 117.2% with coefficients of variation (CV) of less than 9.13%, and the detection limit of 5.06 μg/kg. In summary, this method is characterized by simple operation, rapid sensitivity and low cost, which enables on-site rapid detection of T-2 toxin in cereals.

Published
2024
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5. Optimal ANN-SNN Conversion for High-accuracy and Ultra-low-latency Spiking Neural Networks

Author

Bu, Tong, Fang, Wei, Ding, Jianhao, Dai, PengLin, Yu, Zhaofei, and Huang, Tiejun

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

Spiking Neural Networks (SNNs) have gained great attraction due to their distinctive properties of low power consumption and fast inference on neuromorphic hardware. As the most effective method to get deep SNNs, ANN-SNN conversion has achieved comparable performance as ANNs on large-scale datasets. Despite this, it requires long time-steps to match the firing rates of SNNs to the activation of ANNs. As a result, the converted SNN suffers severe performance degradation problems with short time-steps, which hamper the practical application of SNNs. In this paper, we theoretically analyze ANN-SNN conversion error and derive the estimated activation function of SNNs. Then we propose the quantization clip-floor-shift activation function to replace the ReLU activation function in source ANNs, which can better approximate the activation function of SNNs. We prove that the expected conversion error between SNNs and ANNs is zero, enabling us to achieve high-accuracy and ultra-low-latency SNNs. We evaluate our method on CIFAR-10/100 and ImageNet datasets, and show that it outperforms the state-of-the-art ANN-SNN and directly trained SNNs in both accuracy and time-steps. To the best of our knowledge, this is the first time to explore high-performance ANN-SNN conversion with ultra-low latency (4 time-steps). Code is available at https://github.com/putshua/SNN\_conversion\_QCFS

Published
2023

6. Bridging the Gap between ANNs and SNNs by Calibrating Offset Spikes

Author

Hao, Zecheng, Ding, Jianhao, Bu, Tong, Huang, Tiejun, and Yu, Zhaofei

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

Spiking Neural Networks (SNNs) have attracted great attention due to their distinctive characteristics of low power consumption and temporal information processing. ANN-SNN conversion, as the most commonly used training method for applying SNNs, can ensure that converted SNNs achieve comparable performance to ANNs on large-scale datasets. However, the performance degrades severely under low quantities of time-steps, which hampers the practical applications of SNNs to neuromorphic chips. In this paper, instead of evaluating different conversion errors and then eliminating these errors, we define an offset spike to measure the degree of deviation between actual and desired SNN firing rates. We perform a detailed analysis of offset spike and note that the firing of one additional (or one less) spike is the main cause of conversion errors. Based on this, we propose an optimization strategy based on shifting the initial membrane potential and we theoretically prove the corresponding optimal shifting distance for calibrating the spike. In addition, we also note that our method has a unique iterative property that enables further reduction of conversion errors. The experimental results show that our proposed method achieves state-of-the-art performance on CIFAR-10, CIFAR-100, and ImageNet datasets. For example, we reach a top-1 accuracy of 67.12% on ImageNet when using 6 time-steps. To the best of our knowledge, this is the first time an ANN-SNN conversion has been shown to simultaneously achieve high accuracy and ultralow latency on complex datasets. Code is available at https://github.com/hzc1208/ANN2SNN_COS., Comment: Accepted by ICLR 2023

Published
2023

7. Red Teaming Deep Neural Networks with Feature Synthesis Tools

Author

Casper, Stephen, Li, Yuxiao, Li, Jiawei, Bu, Tong, Zhang, Kevin, Hariharan, Kaivalya, and Hadfield-Menell, Dylan

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

Interpretable AI tools are often motivated by the goal of understanding model behavior in out-of-distribution (OOD) contexts. Despite the attention this area of study receives, there are comparatively few cases where these tools have identified previously unknown bugs in models. We argue that this is due, in part, to a common feature of many interpretability methods: they analyze model behavior by using a particular dataset. This only allows for the study of the model in the context of features that the user can sample in advance. To address this, a growing body of research involves interpreting models using \emph{feature synthesis} methods that do not depend on a dataset. In this paper, we benchmark the usefulness of interpretability tools on debugging tasks. Our key insight is that we can implant human-interpretable trojans into models and then evaluate these tools based on whether they can help humans discover them. This is analogous to finding OOD bugs, except the ground truth is known, allowing us to know when an interpretation is correct. We make four contributions. (1) We propose trojan discovery as an evaluation task for interpretability tools and introduce a benchmark with 12 trojans of 3 different types. (2) We demonstrate the difficulty of this benchmark with a preliminary evaluation of 16 state-of-the-art feature attribution/saliency tools. Even under ideal conditions, given direct access to data with the trojan trigger, these methods still often fail to identify bugs. (3) We evaluate 7 feature-synthesis methods on our benchmark. (4) We introduce and evaluate 2 new variants of the best-performing method from the previous evaluation. A website for this paper and its code is at https://benchmarking-interpretability.csail.mit.edu/, Comment: In Proceedings of the 37th Conference on Neural Information Processing Systems (NeurIPS 2023)

Published
2023

8. Reducing ANN-SNN Conversion Error through Residual Membrane Potential

Author

Hao, Zecheng, Bu, Tong, Ding, Jianhao, Huang, Tiejun, and Yu, Zhaofei

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

Spiking Neural Networks (SNNs) have received extensive academic attention due to the unique properties of low power consumption and high-speed computing on neuromorphic chips. Among various training methods of SNNs, ANN-SNN conversion has shown the equivalent level of performance as ANNs on large-scale datasets. However, unevenness error, which refers to the deviation caused by different temporal sequences of spike arrival on activation layers, has not been effectively resolved and seriously suffers the performance of SNNs under the condition of short time-steps. In this paper, we make a detailed analysis of unevenness error and divide it into four categories. We point out that the case of the ANN output being zero while the SNN output being larger than zero accounts for the largest percentage. Based on this, we theoretically prove the sufficient and necessary conditions of this case and propose an optimization strategy based on residual membrane potential to reduce unevenness error. The experimental results show that the proposed method achieves state-of-the-art performance on CIFAR-10, CIFAR-100, and ImageNet datasets. For example, we reach top-1 accuracy of 64.32\% on ImageNet with 10-steps. To the best of our knowledge, this is the first time ANN-SNN conversion can simultaneously achieve high accuracy and ultra-low-latency on the complex dataset. Code is available at https://github.com/hzc1208/ANN2SNN\_SRP., Comment: Accepted as a AAAI 2023 Oral Paper

Published
2023

11. Optimized Potential Initialization for Low-latency Spiking Neural Networks

Author

Bu, Tong, Ding, Jianhao, Yu, Zhaofei, and Huang, Tiejun

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Spiking Neural Networks (SNNs) have been attached great importance due to the distinctive properties of low power consumption, biological plausibility, and adversarial robustness. The most effective way to train deep SNNs is through ANN-to-SNN conversion, which have yielded the best performance in deep network structure and large-scale datasets. However, there is a trade-off between accuracy and latency. In order to achieve high precision as original ANNs, a long simulation time is needed to match the firing rate of a spiking neuron with the activation value of an analog neuron, which impedes the practical application of SNN. In this paper, we aim to achieve high-performance converted SNNs with extremely low latency (fewer than 32 time-steps). We start by theoretically analyzing ANN-to-SNN conversion and show that scaling the thresholds does play a similar role as weight normalization. Instead of introducing constraints that facilitate ANN-to-SNN conversion at the cost of model capacity, we applied a more direct way by optimizing the initial membrane potential to reduce the conversion loss in each layer. Besides, we demonstrate that optimal initialization of membrane potentials can implement expected error-free ANN-to-SNN conversion. We evaluate our algorithm on the CIFAR-10, CIFAR-100 and ImageNet datasets and achieve state-of-the-art accuracy, using fewer time-steps. For example, we reach top-1 accuracy of 93.38\% on CIFAR-10 with 16 time-steps. Moreover, our method can be applied to other ANN-SNN conversion methodologies and remarkably promote performance when the time-steps is small., Comment: Accepted by AAAI 2022

Published
2022

29. Effects of a false-positive result in newborn congenital hypothyroidism screening on parents in Guangxi, China

Author

Si-Jing Tu, Yu-Jia Wei, Bu-Tong Chen, Xiao-Fei Zhang, Chao Luo, and Bai-Qing Dong

Subjects
newborn screening, false-positive, congenital hypothyroidism, parenting stress index, health education, Pediatrics, RJ1-570
Abstract

BackgroundAs more than 500,000 neonates participate in newborn congenital hypothyroidism (CH) screening in Guangxi Zhuang Autonomous Region each year, the overall number of false-positive (FP) cases has increased. We aim to assess the parental stress in parents of neonates with FP CH results in Guangxi, find out the influence factors related to demographics, and provide the basis for personalized health education.MethodsThe parents of neonates with FP CH results were invited to participate in the FP group, and the parents of neonates with all negative results were invited to participate in the control group. The parents completed a questionnaire on demographics, knowledge of CH, and the parental stress index (PSI) in the hospital for the first time. The follow-up visits for PSI were conducted 3, 6, and 12 months afterward through telephone and online.ResultsA total of 258 and 1,040 parents participated in the FP and control groups, respectively. The parents in the FP group had better knowledge of CH and higher PSI scores than the parents in the control group. The result of logistic regression showed that the major influence factors related to the knowledge of CH were FP experience and source of knowledge. The parents in the FP group who were well-informed during the recall phone call had lower PSI scores than the other parents. The parents in the FP group showed decreasing PSI scores gradually in follow-up visits.ConclusionThe results suggested that FP screening results may affect parental stress and parent–child relationship. FP results increased the stress on the parents and increased their knowledge of CH passively.

Published
2023
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36. SSA4 Mediates Cd Tolerance via Activation of the Cis Element of VHS1 in Yeast and Enhances Cd Tolerance in Chinese Cabbage.

Author

Zheng, Han, Yuan, Chao, Bu, Tong, Liu, Qun, Li, Jingjuan, Wang, Fengde, Zhang, Yihui, He, Lilong, and Gao, Jianwei

Subjects
NUCLEAR pore complex, CHINESE cabbage, GENE expression, CULTIVARS, YEAST
Abstract

Identifying key genes involved in Cadmium (Cd) response pathways in plants and developing low-Cd-accumulating cultivars may be the most effective and eco-friendly strategy to tackle the problem of Cd pollution in crops. In our previous study, Stressseventy subfamily A 4 (SSA4) was identified to be associated with Cd tolerance in yeast. Here, we investigated the mechanism of SSA4 in regulating Cd tolerance in yeast. ScSSA4 binds to POre Membrane 34 (POM34), a key component of nuclear pore complex (NPC), and translocates from the cytoplasm to the nucleus, where it regulates the expression of its downstream gene, Viable in a Hal3 Sit4 background 1 (VHS1), resulting in reduced Cd accumulation in yeast cells. Additionally, we identified a Chinese cabbage SSA4 gene, BrSSA4c, which could enhance the Cd tolerance in Chinese cabbage. This study offers new insights into the regulatory mechanisms of Cd tolerance in yeast, a model organism, and paves the way for the genetic enhancement of Cd tolerance in Chinese cabbage. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Computer simulation‐guided template selection for a molecularly imprinted polymer for selective trifluralin adsorption.

Author

Song, Lianjun, Wang, Jinkui, Fan, Mengzhuo, Mao, Yexuan, Zhang, Xiya, Bu, Tong, Huang, Xianqing, Qiao, Mingwu, Wang, Zhihao, Shi, Haipeng, Wang, Youyi, Wang, Changqing, and Dang, Meng

Subjects
CHEMICAL templates, MOLECULAR imprinting, TRIFLURALIN, NANOTECHNOLOGY, BINDING energy, IMPRINTED polymers
Abstract

To meet selective adsorption toward trifluralin, a novel molecularly imprinted polymer (MIP) was fabricated by the dummy template molecular imprinting technology. First, computational simulation was performed to select a suitable dummy template, 3,5‐dinitro‐4‐methylbenzoic acid (T1), based on the maximum basis set superposition error (BSSE)‐corrected binding interaction energy (ΔE) of the monomer N‐vinylpyrrolidone (NVP)‐T1 complex and its structural overlap with trifluralin. Then, the MIP was prepared via the bulk polymerization. The adsorption experiments showed the MIP exhibited a trifluralin adsorption capacity of 5.1 mg g−1, an imprinting factor (IF) of 2.2, and short adsorption equilibrium time of 5 min. The adsorption of trifluralin conformed to the Freundlich adsorption (R2 = 0.985) and pseudo‐second‐order model (R2 = 0.999). In addition, the MIP exhibited selectivity to trifluralin over other adsorbents, including structural analogs (pendimethalin and oryzalin), pesticide (carbendazim), and nitrocompounds (nitrofurantoin, furazolidone, and furaltadone), with the selectivity factor (β) in the range of 1.2–3.0, respectively. In trifluralin/oryzalin mixture, the IF toward oryzalin was still as high as 1.9. The removal rate of the MIP to trifluralin in environmental water samples ranged from 90.08% to 99.04%. This study provides theoretical and experimental insights for the preparation of MIP using dummy templates. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Tunable optoelectronic response in van der Waals heterojunction transistors for artificial visual recognition

Author

Dang, Mengli, primary, Duan, Xinpei, additional, Liu, Chang, additional, Zhang, Sen, additional, Hong, Xitong, additional, Niu, Wencheng, additional, Luo, Pengfei, additional, Jiang, Bei, additional, Bu, Tong, additional, Tang, Lin, additional, Jiang, Weijie, additional, Wan, Da, additional, Zou, Xuming, additional, Liao, Lei, additional, and Liu, Xingqiang, additional

Published
2024
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