Algorithms for ensuring fault tolerance are key ingredients in many applications such as avionics and networking. There is an increasing demand to integrate (formal) validation in the design process of these algorithms as they are often part of safety critical systems. We propose the use of an infinite state model checker for safety properties, called mcmt, to assist in the design of the considered class of algorithms. We apply mcmt to the verification of the Agreement property of a reliable broadcast algorithm proposed by Chandra and Toueg. Agreement as the safety property to check
In this paper we report the experience carried out to specify and validate the Inter-consistency fau...
Cyber-physical systems (CPS) are intended to receive information from the environment through sensor...
Safety critical systems are becoming more complex, both in the type of functionality they provide an...
We propose a methodology to use the infinite state model checker mcmt, based on the Satisfiability M...
We propose a methodology to use the infinite state model checker MCMT, based on Satisfiability Modul...
Abstract: We propose a methodology to use the infinite state model checker MCMT, based on Satisfiabi...
We propose a methodology to use the infinite state model checker MCMT, based on Satisfiability Modul...
The verification of properties of infinite state systems is generally undecidable. However, if an in...
We present a systematic approach to design and verification of fault-tolerant components with real-t...
We present McScM, a platform for implementing and comparing verification algorithms for the class of...
The validation of distributed algorithms is a crucial, although challenging, task. The processes exe...
We describe mcmt, a fully declarative and deductive symbolic model checker for safety properties of ...
Abstract. Fault-tolerant distributed algorithms are central for building reliable, spatially distrib...
We describe mcmt, a fully declarative and deductive symbolic model checker for safety properties of ...
International audienceWe present McScM, a platform for implementing and comparing verification algor...
In this paper we report the experience carried out to specify and validate the Inter-consistency fau...
Cyber-physical systems (CPS) are intended to receive information from the environment through sensor...
Safety critical systems are becoming more complex, both in the type of functionality they provide an...
We propose a methodology to use the infinite state model checker mcmt, based on the Satisfiability M...
We propose a methodology to use the infinite state model checker MCMT, based on Satisfiability Modul...
Abstract: We propose a methodology to use the infinite state model checker MCMT, based on Satisfiabi...
We propose a methodology to use the infinite state model checker MCMT, based on Satisfiability Modul...
The verification of properties of infinite state systems is generally undecidable. However, if an in...
We present a systematic approach to design and verification of fault-tolerant components with real-t...
We present McScM, a platform for implementing and comparing verification algorithms for the class of...
The validation of distributed algorithms is a crucial, although challenging, task. The processes exe...
We describe mcmt, a fully declarative and deductive symbolic model checker for safety properties of ...
Abstract. Fault-tolerant distributed algorithms are central for building reliable, spatially distrib...
We describe mcmt, a fully declarative and deductive symbolic model checker for safety properties of ...
International audienceWe present McScM, a platform for implementing and comparing verification algor...
In this paper we report the experience carried out to specify and validate the Inter-consistency fau...
Cyber-physical systems (CPS) are intended to receive information from the environment through sensor...
Safety critical systems are becoming more complex, both in the type of functionality they provide an...