A Mysterious Connection Between Tolerant Junta Testing and Agnostically Learning Conjunctions

The main conceptual contribution of this paper is identifying a previously unnoticed connection between two central problems in computational learning theory and property testing: agnostically learning conjunctions and tolerantly testing juntas. Inspired by this connection, the main technical contribution is a pair of improved algorithms for these two problems. In more detail, - We give a distribution-free algorithm for agnostically PAC learning conjunctions over $\{\pm 1\}^n$ that runs in time $2^{\widetilde{O}(n^{1/3})}$, for constant excess error $\varepsilon$. This improves on the fastest previously published algorithm, which runs in time $2^{\widetilde{O}(n^{1/2})}$ [KKMS08]. - Building on the ideas in our agnostic conjunction learner and using significant additional technical ingredients, we give an adaptive tolerant testing algorithm for $k$-juntas that makes $2^{\widetilde{O}(k^{1/3})}$ queries, for constant "gap parameter" $\varepsilon$ between the "near" and "far" cases. This improves on the best previous results, due to [ITW21, NP24], which make $2^{\widetilde{O}(\sqrt{k})}$ queries. Since there is a known $2^{\widetilde{\Omega}(\sqrt{k})}$ lower bound for non-adaptive tolerant junta testers, our result shows that adaptive tolerant junta testing algorithms provably outperform non-adaptive ones.