Critical Percolation as a Synthetic Data Model for Interpretability
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Computer Science > Machine Learning
Title:Critical Percolation as a Synthetic Data Model for Interpretability
Abstract:Neural networks learn features that reflect the hierarchical, multi-scale structure of natural data. Synthetic datasets used to evaluate interpretability methods typically lack this structure, limiting their value as realistic toy models. To close this gap, we introduce a family of synthetic datasets consisting of hierarchical functions defined on critical mean-field percolation clusters embedded in a high-dimensional data space. The percolation data consists of sparse, low-dimensional fractal clusters with a power-law size distribution. Latent variables modeling a taxonomic hierarchy generate each data point's target value. The data model is analytically tractable with known critical exponents that fix its properties without requiring hyperparameter tuning. We leverage a mapping between percolation clusters, random trees, and additive coalescence to propose an almost linear-time algorithm to jointly sample a random tree and its hierarchical latent decomposition, enabling data generation at arbitrary scale. Using probing experiments, we find that the model's ground-truth latent variables can be linearly decoded from neural network activations. Together, sparsity, self-similarity, power-law statistics, and analytical tractability make critical percolation a principled testbed for interpretability research.
| Comments: | 21 pages, 10 figures, accepted to the Mechanistic Interpretability Workshop at ICML 2026 |
| Subjects: | Machine Learning (cs.LG); Disordered Systems and Neural Networks (cond-mat.dis-nn) |
| Cite as: | arXiv:2606.20347 [cs.LG] |
| (or arXiv:2606.20347v1 [cs.LG] for this version) | |
| https://doi.org/10.48550/arXiv.2606.20347
arXiv-issued DOI via DataCite (pending registration)
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