Tricking the Hashing Trick: A Tight Lower Bound on the Robustness of CountSketch to Adaptive Inputs

07/03/2022
by   Edith Cohen, et al.
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CountSketch and Feature Hashing (the "hashing trick") are popular randomized dimensionality reduction methods that support recovery of ℓ_2-heavy hitters (keys i where v_i^2 > ϵv_2^2) and approximate inner products. When the inputs are not adaptive (do not depend on prior outputs), classic estimators applied to a sketch of size O(ℓ/ϵ) are accurate for a number of queries that is exponential in ℓ. When inputs are adaptive, however, an adversarial input can be constructed after O(ℓ) queries with the classic estimator and the best known robust estimator only supports Õ(ℓ^2) queries. In this work we show that this quadratic dependence is in a sense inherent: We design an attack that after O(ℓ^2) queries produces an adversarial input vector whose sketch is highly biased. Our attack uses "natural" non-adaptive inputs (only the final adversarial input is chosen adaptively) and universally applies with any correct estimator, including one that is unknown to the attacker. In that, we expose inherent vulnerability of this fundamental method.

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