Equivalence Testing: The Power of Bounded Adaptivity

March 07, 2024 Β· Declared Dead Β· πŸ› International Conference on Artificial Intelligence and Statistics

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Authors Diptarka Chakraborty, Sourav Chakraborty, Gunjan Kumar, Kuldeep S. Meel arXiv ID 2403.04230 Category cs.DS: Data Structures & Algorithms Citations 1 Venue International Conference on Artificial Intelligence and Statistics Last Checked 4 months ago
Abstract
Equivalence testing, a fundamental problem in the field of distribution testing, seeks to infer if two unknown distributions on $[n]$ are the same or far apart in the total variation distance. Conditional sampling has emerged as a powerful query model and has been investigated by theoreticians and practitioners alike, leading to the design of optimal algorithms albeit in a sequential setting (also referred to as adaptive tester). Given the profound impact of parallel computing over the past decades, there has been a strong desire to design algorithms that enable high parallelization. Despite significant algorithmic advancements over the last decade, parallelizable techniques (also termed non-adaptive testers) have $\tilde{O}(\log^{12}n)$ query complexity, a prohibitively large complexity to be of practical usage. Therefore, the primary challenge is whether it is possible to design algorithms that enable high parallelization while achieving efficient query complexity. Our work provides an affirmative answer to the aforementioned challenge: we present a highly parallelizable tester with a query complexity of $\tilde{O}(\log n)$, achieved through a single round of adaptivity, marking a significant stride towards harmonizing parallelizability and efficiency in equivalence testing.
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