Paper ID: 2410.20119

Analyzing Multi-Stage Loss Curve: Plateau and Descent Mechanisms in Neural Networks

Zheng-An Chen, Tao Luo, GuiHong Wang

The multi-stage phenomenon in the training loss curves of neural networks has been widely observed, reflecting the non-linearity and complexity inherent in the training process. In this work, we investigate the training dynamics of neural networks (NNs), with particular emphasis on the small initialization regime and identify three distinct stages observed in the loss curve during training: initial plateau stage, initial descent stage, and secondary plateau stage. Through rigorous analysis, we reveal the underlying challenges causing slow training during the plateau stages. Building on existing work, we provide a more detailed proof for the initial plateau. This is followed by a comprehensive analysis of the dynamics in the descent stage. Furthermore, we explore the mechanisms that enable the network to overcome the prolonged secondary plateau stage, supported by both experimental evidence and heuristic reasoning. Finally, to better understand the relationship between global training trends and local parameter adjustments, we employ the Wasserstein distance to capture the microscopic evolution of weight amplitude distribution.

Submitted: Oct 26, 2024