Many automated finite-state verification procedures can be viewed as fixpoint computations over a finite lattice (typically the powerset of the set of system states). For this reason, fixpoint calculi such as those proposed by Kozen and Park have proved useful, both as ways to describe verification algorithms and as specification formalisms in their own right. We consider the problem of evaluating expressions in these calculi over a given model. A naive algorithm for this task may require time nq, where n is the maximum length of a chain in the lattice and q is the depth of fixpoint nesting. In 1986, Emerson and Lei presented a method requiring about nd steps, where d is the number of alternations between least and greatest fixpoints. More...
We present a very simple, yet general algorithm for computing simultaneous, minimum fixed-points of...
The propositionalμ-calculus can be divided into two categories, global model checking algorithm and ...
Formal verification by model checking verifies whether a system satisfies some given correctness pro...
AbstractMany automated finite-state verification procedures can be viewed as fixpoint computations o...
Abstract We prove a general finite-time convergence theorem for fixpoint expressions over a well-qua...
Abstract. Higher Order Fixpoint Logic (HFL) is a hybrid of the simply typed λ-calculus and the modal...
Many analysis and verifications tasks, such as static program analyses and model-checking for tempor...
We present a new algorithm for conjunctive and disjunctive boolean equation systems which arise freq...
Systems of fixpoint equations over complete lattices, consisting of (mixed) least and greatest fixpo...
Colloque sans acte à diffusion restreinte. internationale.International audienceTransition systems h...
Abstract. We present a model checking algorithm for HFL1, the first-order fragment of Higher-Order F...
This paper analyses the complexity of model checking fixpoint logic with Chop – an extension of the ...
In a number of areas software correctness is crucial, therefore it is often desirable to formally ve...
We review the techniques for over- and underapproximation used in symbolic model checking and their ...
Abstract. This paper analyses the complexity of model checking Fix-point Logic with Chop – an extens...
We present a very simple, yet general algorithm for computing simultaneous, minimum fixed-points of...
The propositionalμ-calculus can be divided into two categories, global model checking algorithm and ...
Formal verification by model checking verifies whether a system satisfies some given correctness pro...
AbstractMany automated finite-state verification procedures can be viewed as fixpoint computations o...
Abstract We prove a general finite-time convergence theorem for fixpoint expressions over a well-qua...
Abstract. Higher Order Fixpoint Logic (HFL) is a hybrid of the simply typed λ-calculus and the modal...
Many analysis and verifications tasks, such as static program analyses and model-checking for tempor...
We present a new algorithm for conjunctive and disjunctive boolean equation systems which arise freq...
Systems of fixpoint equations over complete lattices, consisting of (mixed) least and greatest fixpo...
Colloque sans acte à diffusion restreinte. internationale.International audienceTransition systems h...
Abstract. We present a model checking algorithm for HFL1, the first-order fragment of Higher-Order F...
This paper analyses the complexity of model checking fixpoint logic with Chop – an extension of the ...
In a number of areas software correctness is crucial, therefore it is often desirable to formally ve...
We review the techniques for over- and underapproximation used in symbolic model checking and their ...
Abstract. This paper analyses the complexity of model checking Fix-point Logic with Chop – an extens...
We present a very simple, yet general algorithm for computing simultaneous, minimum fixed-points of...
The propositionalμ-calculus can be divided into two categories, global model checking algorithm and ...
Formal verification by model checking verifies whether a system satisfies some given correctness pro...