Petr Novotný scite author profile

In this paper, we consider termination of probabilistic programs with real-valued variables. The questions concerned are:1. qualitative ones that ask (i) whether the program terminates with probability 1 (almost-sure termination) and (ii) whether the expected termination time is finite (finite termination); 2. quantitative ones that ask (i) to approximate the expected termination time (expectation problem) and (ii) to compute a bound B such that the probability to terminate after B steps decreases exponentially (concentration problem).To solve these questions, we utilize the notion of ranking supermartingales which is a powerful approach for proving termination of probabilistic programs. In detail, we focus on algorithmic synthesis of linear ranking-supermartingales over affine probabilistic programs (APP's) with both angelic and demonic non-determinism. An important subclass of APP's is LRAPP which is defined as the class of all APP's over which a linear ranking-supermartingale exists.Our main contributions are as follows. Firstly, we show that the membership problem of LRAPP (i) can be decided in polynomial time for APP's with at most demonic non-determinism, and (ii) is NP-hard and in PSPACE for APP's with angelic non-determinism; *[Copyright notice will appear here once 'preprint' option is removed.] moreover, the NP-hardness result holds already for APP's without probability and demonic non-determinism. Secondly, we show that the concentration problem over LRAPP can be solved in the same complexity as for the membership problem of LRAPP. Finally, we show that the expectation problem over LRAPP can be solved in 2EXPTIME and is PSPACE-hard even for APP's without probability and non-determinism (i.e., deterministic programs). Our experimental results demonstrate the effectiveness of our approach to answer the qualitative and quantitative questions over APP's with at most demonic non-determinism.

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Densities of aqueous solutions of 18 inorganic substances

Söhnel¹,

Novotný²,

Šolc³

1984

J. Chem. Eng. Data

199

174

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Densities of binary aqueous solutions of 306 inorganic substances

Novotný¹,

Söhnel²

1988

J. Chem. Eng. Data

258

149

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Lexicographic ranking supermartingales: an efficient approach to termination of probabilistic programs

Agrawal

Chatterjee

Novotný

2017

Proc. ACM Program. Lang.

151

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Probabilistic programs extend classical imperative programs with real-valued random variables and random branching. The most basic liveness property for such programs is the termination property. The qualitative (aka almost-sure) termination problem given a probabilistic program asks whether the program terminates with probability 1. While ranking functions provide a sound and complete method for non-probabilistic programs, the extension of them to probabilistic programs is achieved via ranking supermartingales (RSMs). While deep theoretical results have been established about RSMs, their application to probabilistic programs with nondeterminism has been limited only to academic examples. For non-probabilistic programs, lexicographic ranking functions provide a compositional and practical approach for termination analysis of realworld programs. In this work we introduce lexicographic RSMs and show that they present a sound method for almost-sure termination of probabilistic programs with nondeterminism. We show that lexicographic RSMs provide a tool for compositional reasoning about almost sure termination, and for probabilistic programs with linear arithmetic they can be synthesized efficiently (in polynomial time). We also show that with additional restrictions even asymptotic bounds on expected termination time can be obtained through lexicographic RSMs. Finally, we present experimental results on abstractions of real-world programs to demonstrate the effectiveness of our approach.Lexicographic Ranking Supermartingales: An Efficient Approach to Termination of Probabilistic Programs 1:3Our contributions. In this work our main contributions range from theoretical foundations of lexicographic RSMs, to algorithmic approaches for them, to experimental results showing their applicability to programs. We describe our main contributions below:

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Stochastic invariants for probabilistic termination

2017

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Termination is one of the basic liveness properties, and we study the termination problem for probabilistic programs with real-valued variables. Previous works focused on the qualitative problem that asks whether an input program terminates with probability 1 (almost-sure termination). A powerful approach for this qualitative problem is the notion of ranking supermartingales with respect to a given set of invariants. The quantitative problem (probabilistic termination) asks for bounds on the termination probability, and this problem has not been addressed yet. A fundamental and conceptual drawback of the existing approaches to address probabilistic termination is that even though the supermartingales consider the probabilistic behaviour of the programs, the invariants are obtained completely ignoring the probabilistic aspect (i.e., the invariants are obtained considering all behaviours with no information about the probability).

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Petr Novotný

Algorithmic analysis of qualitative and quantitative termination problems for affine probabilistic programs

Densities of aqueous solutions of 18 inorganic substances

Densities of binary aqueous solutions of 306 inorganic substances

Lexicographic ranking supermartingales: an efficient approach to termination of probabilistic programs

Stochastic invariants for probabilistic termination

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