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Main Authors: Liao, Yuke, Genest, Blaise, Meel, Kuldeep, Aryaman, Shaan
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.23197
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author Liao, Yuke
Genest, Blaise
Meel, Kuldeep
Aryaman, Shaan
author_facet Liao, Yuke
Genest, Blaise
Meel, Kuldeep
Aryaman, Shaan
contents To handle complex instances, we revisit a divide-and-conquer approach to break down the complexity: instead of few complex BaB calls, we rely on many small {\em partial} MILP calls. The crucial step is to select very few but very important ReLUs to treat using (costly) binary variables. The previous attempts were suboptimal in that respect. To select these important ReLU variables, we propose a novel {\em solution-aware} ReLU scoring ({\sf SAS}), as well as adapt the BaB-SR and BaB-FSB branching functions as {\em global} ReLU scoring ({\sf GS}) functions. We compare them theoretically as well as experimentally, and {\sf SAS} is more efficient at selecting a set of variables to open using binary variables. Compared with previous attempts, SAS reduces the number of binary variables by around 6 times, while maintaining the same level of accuracy. Implemented in {\em Hybrid MILP}, calling first $α,β$-CROWN with a short time-out to solve easier instances, and then partial MILP, produces a very accurate yet efficient verifier, reducing by up to $40\%$ the number of undecided instances to low levels ($8-15\%$), while keeping a reasonable runtime ($46s-417s$ on average per instance), even for fairly large CNNs with 2 million parameters.
format Preprint
id arxiv_https___arxiv_org_abs_2507_23197
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Solution-aware vs global ReLU selection: partial MILP strikes back for DNN verification
Liao, Yuke
Genest, Blaise
Meel, Kuldeep
Aryaman, Shaan
Artificial Intelligence
To handle complex instances, we revisit a divide-and-conquer approach to break down the complexity: instead of few complex BaB calls, we rely on many small {\em partial} MILP calls. The crucial step is to select very few but very important ReLUs to treat using (costly) binary variables. The previous attempts were suboptimal in that respect. To select these important ReLU variables, we propose a novel {\em solution-aware} ReLU scoring ({\sf SAS}), as well as adapt the BaB-SR and BaB-FSB branching functions as {\em global} ReLU scoring ({\sf GS}) functions. We compare them theoretically as well as experimentally, and {\sf SAS} is more efficient at selecting a set of variables to open using binary variables. Compared with previous attempts, SAS reduces the number of binary variables by around 6 times, while maintaining the same level of accuracy. Implemented in {\em Hybrid MILP}, calling first $α,β$-CROWN with a short time-out to solve easier instances, and then partial MILP, produces a very accurate yet efficient verifier, reducing by up to $40\%$ the number of undecided instances to low levels ($8-15\%$), while keeping a reasonable runtime ($46s-417s$ on average per instance), even for fairly large CNNs with 2 million parameters.
title Solution-aware vs global ReLU selection: partial MILP strikes back for DNN verification
topic Artificial Intelligence
url https://arxiv.org/abs/2507.23197