Gen: a general-purpose probabilistic programming system with programmable inference

Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation Pub Date : 2019-06-08 DOI:10.1145/3314221.3314642

Marco F. Cusumano-Towner, Feras A. Saad, Alexander K. Lew, Vikash K. Mansinghka

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引用次数: 135

Abstract

Although probabilistic programming is widely used for some restricted classes of statistical models, existing systems lack the flexibility and efficiency needed for practical use with more challenging models arising in fields like computer vision and robotics. This paper introduces Gen, a general-purpose probabilistic programming system that achieves modeling flexibility and inference efficiency via several novel language constructs: (i) the generative function interface for encapsulating probabilistic models; (ii) interoperable modeling languages that strike different flexibility/efficiency trade-offs; (iii) combinators that exploit common patterns of conditional independence; and (iv) an inference library that empowers users to implement efficient inference algorithms at a high level of abstraction. We show that Gen outperforms state-of-the-art probabilistic programming systems, sometimes by multiple orders of magnitude, on diverse problems including object tracking, estimating 3D body pose from a depth image, and inferring the structure of a time series.

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Gen:具有可编程推理的通用概率规划系统

尽管概率规划被广泛应用于一些有限类别的统计模型，但现有系统缺乏实际应用所需的灵活性和效率，以应对计算机视觉和机器人等领域中出现的更具挑战性的模型。本文介绍了通用概率规划系统Gen，该系统通过几种新颖的语言结构实现了建模灵活性和推理效率:(i)封装概率模型的生成函数接口;(ii)具有不同灵活性/效率权衡的可互操作建模语言;(iii)利用条件独立的共同模式的组合词;(iv)推理库，使用户能够在高层次抽象上实现高效的推理算法。我们表明，Gen在不同的问题上优于最先进的概率编程系统，有时是多个数量级，包括物体跟踪，从深度图像估计3D身体姿势，以及推断时间序列的结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation

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