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arxiv: 2208.03471 · v1 · pith:56L2EHXEnew · submitted 2022-08-06 · 💻 cs.LG · cs.IT· math.IT

Oversquashing in GNNs through the lens of information contraction and graph expansion

classification 💻 cs.LG cs.ITmath.IT
keywords graphoversquashingalgorithmexpansioncomputationcontractiongnnsinformation
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The quality of signal propagation in message-passing graph neural networks (GNNs) strongly influences their expressivity as has been observed in recent works. In particular, for prediction tasks relying on long-range interactions, recursive aggregation of node features can lead to an undesired phenomenon called "oversquashing". We present a framework for analyzing oversquashing based on information contraction. Our analysis is guided by a model of reliable computation due to von Neumann that lends a new insight into oversquashing as signal quenching in noisy computation graphs. Building on this, we propose a graph rewiring algorithm aimed at alleviating oversquashing. Our algorithm employs a random local edge flip primitive motivated by an expander graph construction. We compare the spectral expansion properties of our algorithm with that of an existing curvature-based non-local rewiring strategy. Synthetic experiments show that while our algorithm in general has a slower rate of expansion, it is overall computationally cheaper, preserves the node degrees exactly and never disconnects the graph.

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