Precise Fixpoint Computation Through Strategy Iteration

Gawlitza, Thomas Martin; Seidl, Helmut

doi:10.1007/978-3-540-71316-6_21

Cited by 62 publications

(84 citation statements)

References 14 publications

(24 reference statements)

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“…, x n are variables that take values from R = R ∪ {−∞, ∞} and f is an operator of a special structure that is in particular monotone and concave (cf. Gawlitza and Seidl [10,11,12,14,15]). Our max-strategy improvement algorithm for solving these systems of inequalities performs at most exponentially many strategy improvement steps, each of which can be performed in polynomial-time through linear programming.…”

Section: Contributionsmentioning

confidence: 99%

“…Strategy iteration can be seen as an alternative to the traditional widening/narrowing approach of Cousot and Cousot [7]. For more information regarding these approaches see Adjé et al [1,2], Costan et al [6], Gaubert et al [9], Gawlitza and Seidl [10,11,12], Gawlitza and Monniaux [13], Gawlitza and Seidl [14,15].…”

Section: Contributionsmentioning

confidence: 99%

“…In this paper, we will adapt the max-strategy improvement algorithm of Gawlitza and Seidl [10,11,12,14,15] for computing V . We will find that abstract reachability is in co−NP.…”

Section: Example 2 An Affine Hybrid Automaton Is Given Bymentioning

confidence: 99%

“…We aim at adapting the max-strategy improvement algorithms of Gawlitza and Seidl [10,11,12,14,15] in order to obtain an algorithm for computing abstract semantics. For that we have to formulate the problem as a problem of finding the least fixpoint of a self-map that is a maximum of finitely many monotone and concave self-maps (cf.…”

Section: Our Approach: Getting Into the Corset Of The Monotone Frameworkmentioning

confidence: 99%

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Template-Based Unbounded Time Verification of Affine Hybrid Automata

Dang

Gawlitza

2011

Programming Languages and Systems

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Abstract.Computing over-approximations of all possible time trajectories is an important task in the analysis of hybrid systems. Sankaranarayanan et al. [20] suggested to approximate the set of reachable states using template polyhedra. In the present paper, we use a max-strategy improvement algorithm for computing an abstract semantics for affine hybrid automata that is based on template polyhedra and safely over-approximates the concrete semantics. Based on our formulation, we show that the corresponding abstract reachability problem is in co−NP. Moreover, we obtain a polynomial-time algorithm for the time elapse operation over template polyhedra.

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Section: Contributionsmentioning

confidence: 99%

Section: Contributionsmentioning

confidence: 99%

“…In this paper, we will adapt the max-strategy improvement algorithm of Gawlitza and Seidl [10,11,12,14,15] for computing V . We will find that abstract reachability is in co−NP.…”

Section: Example 2 An Affine Hybrid Automaton Is Given Bymentioning

confidence: 99%

Section: Our Approach: Getting Into the Corset Of The Monotone Frameworkmentioning

confidence: 99%

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Template-Based Unbounded Time Verification of Affine Hybrid Automata

Dang

Gawlitza

2011

Programming Languages and Systems

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“…In all the considered cases, no common quadratic Lyapunov existed. In other words, not only the existing linear abstractions such as intervals or polyhedra would fail in computing a non trivial post-fixpoint, but also the existing analyses dedicated to digital filters such as [Fer04,GS07,AGG12,RJGF12]. The analysis has been implemented in Matlab and relies on the Mosek SDP solver [AA00], through the Yalmip [L04] SOS front-end.…”

Section: Benchmarksmentioning

confidence: 99%

A Sums-of-Squares extension of policy iterations

Adjé

Garoche²,

Magron

2017

Nonlinear Analysis: Hybrid Systems

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In order to address the imprecision often introduced by widening operators in static analysis, policy iteration based on min-computations amounts to considering the characterization of reachable value set of a program as an iterative computation of policies, starting from a postfixpoint. Computing each policy and the associated invariant relies on a sequence of numerical optimizations. While the early research efforts relied on linear programming (LP) to address linear properties of linear programs, the current state of the art is still limited to the analysis of linear programs with at most quadratic invariants, relying on semidefinite programming (SDP) solvers to compute policies, and LP solvers to refine invariants.We propose here to extend the class of programs considered through the use of Sums-ofSquares (SOS) based optimization. Our approach enables the precise analysis of switched systems with polynomial updates and guards. The analysis presented has been implemented in Matlab and applied on existing programs coming from the system control literature, improving both the range of analyzable systems and the precision of previously handled ones.

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A Change-Based Heuristic for Static Analysis with Policy Iteration

Völker

Kowalewski

2019

Static Analysis

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Precise Fixpoint Computation Through Strategy Iteration

Cited by 62 publications

References 14 publications

Template-Based Unbounded Time Verification of Affine Hybrid Automata

Template-Based Unbounded Time Verification of Affine Hybrid Automata

A Sums-of-Squares extension of policy iterations

A Change-Based Heuristic for Static Analysis with Policy Iteration

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