The adaptive complexity of parallelized log-concave sampling

August 23, 2024 Β· Declared Dead Β· πŸ› International Conference on Learning Representations

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Authors Huanjian Zhou, Baoxiang Wang, Masashi Sugiyama arXiv ID 2408.13045 Category cs.DS: Data Structures & Algorithms Citations 2 Venue International Conference on Learning Representations Last Checked 4 months ago
Abstract
In large-data applications, such as the inference process of diffusion models, it is desirable to design sampling algorithms with a high degree of parallelization. In this work, we study the adaptive complexity of sampling, which is the minimum number of sequential rounds required to achieve sampling given polynomially many queries executed in parallel at each round. For unconstrained sampling, we examine distributions that are log-smooth or log-Lipschitz and log strongly or non-strongly concave. We show that an almost linear iteration algorithm cannot return a sample with a specific exponentially small error under total variation distance. For box-constrained sampling, we show that an almost linear iteration algorithm cannot return a sample with sup-polynomially small error under total variation distance for log-concave distributions. Our proof relies upon novel analysis with the characterization of the output for the hardness potentials based on the chain-like structure with random partition and classical smoothing techniques.
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