In recent years, the LTSmin model checker has been extended with support for several new modelling languages, including probabilistic (Mapa) and timed systems (Uppaal). Also, connecting additional language front-ends or ad-hoc state-space generators to LTSmin was simplified using custom C-code. From symbolic and distributed reachability analysis and minimisation, LTSmin’s functionality has developed into a model checker with multi-core algorithms for on-the-fly LTL checking with partial-order reduction, and multi-core symbolic checking for the modal μ calculus, based on the multi-core decision diagram package Sylvan.\ud In LTSmin, the modelling languages and the model checking algorithms are connected through a Partitioned Next-State Interf...
This report provides evidence to support the claim that model checking for linear temporal logic (LT...
We show how LTL model checking can be reduced to CTL model checking with fairness constraints. Using...
Formal verification techniques are growing increasingly vital for the development of safety-critical...
In recent years, the LTSmin model checker has been extended with support for several new modelling l...
The LTSMIN toolset provides a new level of modular design to high-performance model checkers. Its di...
The LTSmin toolset provides multiple generation and on-the-fly analysis algorithms for large graphs ...
AbstractWe show how Promela can be supported by the high-performance generic model checker LTSmin.Th...
In previous work, we presented symbolic reachability analysis by linking ProB, an animator and model...
We present a symbolic reachability analysis approach for B that can provide a significant speedup ov...
We review our progress in high-performance model checking. Our multi-core model checker is based on ...
In Linear Temporal Logic (LTL) model checking, we check LTL formulas representing desired behaviors ...
We show how PROMELA can be supported by the high-performance generic model checking tools of LTSMIN....
Model checking is an automated verification procedure, which checks that a model of a system satisfi...
This paper aims at improving symbolic model checking for explicit state modeling languages, e.g., Pr...
Efficient symbolic and explicit-state model checking approaches have been developed for the verifi...
This report provides evidence to support the claim that model checking for linear temporal logic (LT...
We show how LTL model checking can be reduced to CTL model checking with fairness constraints. Using...
Formal verification techniques are growing increasingly vital for the development of safety-critical...
In recent years, the LTSmin model checker has been extended with support for several new modelling l...
The LTSMIN toolset provides a new level of modular design to high-performance model checkers. Its di...
The LTSmin toolset provides multiple generation and on-the-fly analysis algorithms for large graphs ...
AbstractWe show how Promela can be supported by the high-performance generic model checker LTSmin.Th...
In previous work, we presented symbolic reachability analysis by linking ProB, an animator and model...
We present a symbolic reachability analysis approach for B that can provide a significant speedup ov...
We review our progress in high-performance model checking. Our multi-core model checker is based on ...
In Linear Temporal Logic (LTL) model checking, we check LTL formulas representing desired behaviors ...
We show how PROMELA can be supported by the high-performance generic model checking tools of LTSMIN....
Model checking is an automated verification procedure, which checks that a model of a system satisfi...
This paper aims at improving symbolic model checking for explicit state modeling languages, e.g., Pr...
Efficient symbolic and explicit-state model checking approaches have been developed for the verifi...
This report provides evidence to support the claim that model checking for linear temporal logic (LT...
We show how LTL model checking can be reduced to CTL model checking with fairness constraints. Using...
Formal verification techniques are growing increasingly vital for the development of safety-critical...