Weisfeiler-Leman at the margin: When more expressivity matters
February 12, 2024 ยท Declared Dead ยท ๐ International Conference on Machine Learning
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Authors
Billy J. Franks, Christopher Morris, Ameya Velingker, Floris Geerts
arXiv ID
2402.07568
Category
cs.LG: Machine Learning
Cross-listed
cs.DM,
cs.NE,
stat.ML
Citations
15
Venue
International Conference on Machine Learning
Last Checked
4 months ago
Abstract
The Weisfeiler-Leman algorithm ($1$-WL) is a well-studied heuristic for the graph isomorphism problem. Recently, the algorithm has played a prominent role in understanding the expressive power of message-passing graph neural networks (MPNNs) and being effective as a graph kernel. Despite its success, $1$-WL faces challenges in distinguishing non-isomorphic graphs, leading to the development of more expressive MPNN and kernel architectures. However, the relationship between enhanced expressivity and improved generalization performance remains unclear. Here, we show that an architecture's expressivity offers limited insights into its generalization performance when viewed through graph isomorphism. Moreover, we focus on augmenting $1$-WL and MPNNs with subgraph information and employ classical margin theory to investigate the conditions under which an architecture's increased expressivity aligns with improved generalization performance. In addition, we show that gradient flow pushes the MPNN's weights toward the maximum margin solution. Further, we introduce variations of expressive $1$-WL-based kernel and MPNN architectures with provable generalization properties. Our empirical study confirms the validity of our theoretical findings.
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