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Poster
in
Workshop: Socially Responsible Machine Learning

Robust and Accurate - Compositional Architectures for Randomized Smoothing

Miklós Horváth · Mark N Müller · Marc Fischer · Martin Vechev


Abstract:

Randomized Smoothing (RS) is considered the state-of-the-art approach to obtain certifiably robust models for challenging tasks. However, current RS approaches drastically decrease standard accuracy on unperturbed data, severely limiting their real-world utility. To address this limitation, we propose a compositional architecture, ACES, which certifiably decides on a per-sample basis whether to use a smoothed model yielding predictions with guarantees or a more accurate standard model without guarantees. This, in contrast to prior approaches, enables both high standard accuracies and significant provable robustness. On challenging tasks such as ImageNet, we obtain, e.g., 80.0% natural accuracy and 28.2% certifiable accuracy against l2 perturbations with r = 1.0. We release our code and models at https://github.com/eth-sri/aces.

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