19 research outputs found
New Interpretations of Normalization Methods in Deep Learning
In recent years, a variety of normalization methods have been proposed to
help train neural networks, such as batch normalization (BN), layer
normalization (LN), weight normalization (WN), group normalization (GN), etc.
However, mathematical tools to analyze all these normalization methods are
lacking. In this paper, we first propose a lemma to define some necessary
tools. Then, we use these tools to make a deep analysis on popular
normalization methods and obtain the following conclusions: 1) Most of the
normalization methods can be interpreted in a unified framework, namely
normalizing pre-activations or weights onto a sphere; 2) Since most of the
existing normalization methods are scaling invariant, we can conduct
optimization on a sphere with scaling symmetry removed, which can help
stabilize the training of network; 3) We prove that training with these
normalization methods can make the norm of weights increase, which could cause
adversarial vulnerability as it amplifies the attack. Finally, a series of
experiments are conducted to verify these claims.Comment: Accepted by AAAI 202