Abstract. One of the difficulties of proving program termination is managing the subtle interplay between the finding of a termination ar-gument and the finding of the argument’s supporting invariant. In this paper we propose a new mechanism that facilitates better cooperation between these two types of reasoning. In an experimental evaluation we find that our new method leads to dramatic performance improvements.
Current norm-based automatic termination analysis techniques for logic programs can be split up into...
The problem of determining whether or not any program terminates was shown to be undecidable by Turi...
International audienceThis paper describes our generic framework for detecting termination of progra...
Abstract. We present a novel technique for proving program termination which introduces a new dimens...
One way to develop more robust software is to use formal program verification. Formal program verifi...
Automated termination provers often use the following schema to prove that a program terminates: con...
Abstract. In this paper we introduce the basic concepts behind the problem of proving program termin...
After Turing proved the halting problem undecidable in 1936, many considered the dream of automatic ...
Modern termination provers rely on a safety checker to construct disjunctively well-founded transiti...
Program termination is central to the process of ensuring that reactive systems can always react. We...
We present a constraint-based method for proving conditional termination of integer programs. Buildi...
Abstract. Recent advances in termination analysis have yielded new methods and tools that are highly...
We describe a new program termination analysis designed to handle imperative programs whose termina...
Progress on automated termination detection for logic programs is reported. The prospects for handli...
Abstract. We describe a new program termination analysis designed to handle imperative programs whos...
Current norm-based automatic termination analysis techniques for logic programs can be split up into...
The problem of determining whether or not any program terminates was shown to be undecidable by Turi...
International audienceThis paper describes our generic framework for detecting termination of progra...
Abstract. We present a novel technique for proving program termination which introduces a new dimens...
One way to develop more robust software is to use formal program verification. Formal program verifi...
Automated termination provers often use the following schema to prove that a program terminates: con...
Abstract. In this paper we introduce the basic concepts behind the problem of proving program termin...
After Turing proved the halting problem undecidable in 1936, many considered the dream of automatic ...
Modern termination provers rely on a safety checker to construct disjunctively well-founded transiti...
Program termination is central to the process of ensuring that reactive systems can always react. We...
We present a constraint-based method for proving conditional termination of integer programs. Buildi...
Abstract. Recent advances in termination analysis have yielded new methods and tools that are highly...
We describe a new program termination analysis designed to handle imperative programs whose termina...
Progress on automated termination detection for logic programs is reported. The prospects for handli...
Abstract. We describe a new program termination analysis designed to handle imperative programs whos...
Current norm-based automatic termination analysis techniques for logic programs can be split up into...
The problem of determining whether or not any program terminates was shown to be undecidable by Turi...
International audienceThis paper describes our generic framework for detecting termination of progra...