PMAF:一个用于概率程序静态分析的代数框架

Di Wang, Jan Hoffmann, T. Reps
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引用次数: 36

摘要

自动建立一个概率程序满足某些属性φ是一个具有挑战性的问题。虽然基于采样的方法-包括重复运行程序-可以表明φ保持,但要确定程序满足φ,必须使用分析技术。尽管最近取得了成功,但概率静态分析的设计和实现仍然比确定性分析更难。本文提出了一个名为PMAF的框架,用于设计、实现和证明具有递归、非结构化控制流、散度、不确定性和连续分布等挑战性特征的概率程序的静态分析的正确性。PMAF引入了预马尔可夫代数来提出不同分析的共同部分。为了执行过程间分析和创建过程摘要,PMAF将非概率过程间数据流分析的思想扩展到概率设置。一个新颖之处在于,PMAF基于一种语义,这种语义是根据每个过程的控制流超图而不是标准控制流图来表述的。为了评估其有效性,PMAF被用于通过创建相应的过程间分析来重新制定和实现现有的贝叶斯推理和马尔可夫决策问题的过程内分析。此外,PMAF还被用于实现一种新的过程间线性期望不变分析。对这三种分析的基准程序进行了实验,结果表明该方法是实用的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
PMAF: an algebraic framework for static analysis of probabilistic programs
Automatically establishing that a probabilistic program satisfies some property ϕ is a challenging problem. While a sampling-based approach—which involves running the program repeatedly—can suggest that ϕ holds, to establish that the program satisfies ϕ, analysis techniques must be used. Despite recent successes, probabilistic static analyses are still more difficult to design and implement than their deterministic counterparts. This paper presents a framework, called PMAF, for designing, implementing, and proving the correctness of static analyses of probabilistic programs with challenging features such as recursion, unstructured control-flow, divergence, nondeterminism, and continuous distributions. PMAF introduces pre-Markov algebras to factor out common parts of different analyses. To perform interprocedural analysis and to create procedure summaries, PMAF extends ideas from non-probabilistic interprocedural dataflow analysis to the probabilistic setting. One novelty is that PMAF is based on a semantics formulated in terms of a control-flow hyper-graph for each procedure, rather than a standard control-flow graph. To evaluate its effectiveness, PMAF has been used to reformulate and implement existing intraprocedural analyses for Bayesian-inference and the Markov decision problem, by creating corresponding interprocedural analyses. Additionally, PMAF has been used to implement a new interprocedural linear expectation-invariant analysis. Experiments with benchmark programs for the three analyses demonstrate that the approach is practical.
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