Unraveling the Hessian: A Key to Smooth Convergence in Loss Function Landscapes

arXiv - CS - Machine Learning Pub Date : 2024-09-18 DOI:arxiv-2409.11995
Nikita Kiselev, Andrey Grabovoy
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Abstract

The loss landscape of neural networks is a critical aspect of their training, and understanding its properties is essential for improving their performance. In this paper, we investigate how the loss surface changes when the sample size increases, a previously unexplored issue. We theoretically analyze the convergence of the loss landscape in a fully connected neural network and derive upper bounds for the difference in loss function values when adding a new object to the sample. Our empirical study confirms these results on various datasets, demonstrating the convergence of the loss function surface for image classification tasks. Our findings provide insights into the local geometry of neural loss landscapes and have implications for the development of sample size determination techniques.
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揭开赫塞斯的面纱:损失函数景观平滑收敛的关键
神经网络的损失面是其训练的一个关键方面,了解其特性对于提高神经网络的性能至关重要。在本文中,我们研究了当样本量增加时损失面如何变化,这是一个以前从未探讨过的问题。我们从理论上分析了全连接神经网络中损失面的收敛性,并得出了在样本中添加新对象时损失函数值差异的上限。我们的实证研究在各种数据集上证实了这些结果,证明了图像分类任务中损失函数面的收敛性。我们的研究结果为神经损失景观的局部几何提供了见解,并对样本大小确定技术的发展产生了影响。
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arXiv - CS - Machine Learning
arXiv - CS - Machine Learning
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