Improving Analog Neural Network Robustness: A Noise-Agnostic Approach with Explainable Regularizations

arXiv - PHYS - Optics Pub Date : 2024-09-13 DOI:arxiv-2409.08633
Alice Duque, Pedro Freire, Egor Manuylovich, Dmitrii Stoliarov, Jaroslaw Prilepsky, Sergei Turitsyn
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Abstract

This work tackles the critical challenge of mitigating "hardware noise" in deep analog neural networks, a major obstacle in advancing analog signal processing devices. We propose a comprehensive, hardware-agnostic solution to address both correlated and uncorrelated noise affecting the activation layers of deep neural models. The novelty of our approach lies in its ability to demystify the "black box" nature of noise-resilient networks by revealing the underlying mechanisms that reduce sensitivity to noise. In doing so, we introduce a new explainable regularization framework that harnesses these mechanisms to significantly enhance noise robustness in deep neural architectures.
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提高模拟神经网络的鲁棒性:采用可解释正则化的噪声诊断方法
这项研究解决了减轻模拟神经网络中的 "硬件噪声 "这一关键挑战,而 "硬件噪声 "是推动模拟信号处理设备发展的主要障碍。我们提出了一种全面的、与硬件无关的解决方案,以解决影响深度神经模型激活层的相关和非相关噪声。我们的方法的新颖之处在于,它能够通过揭示降低对噪声敏感性的基本机制来揭示抗噪声网络的 "黑箱 "本质。在此过程中,我们引入了一种新的可解释正则化框架,利用这些机制显著增强深度神经架构的噪声鲁棒性。
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arXiv - PHYS - Optics
arXiv - PHYS - Optics
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