We present the design of the model-checking engine and internal data structures for the next generation of UPPAAL. The design is based on a pipeline architecture where each stage represents one independent operation in the verification algorithms. The architecture is based on essentially one shared data structure to reduce redundant computations in state exploration, which unifies the so-called passed and waiting lists of the traditional reachability algorithm. In the implementation, instead of using standard memory management functions from general-purpose operating systems, we have developed a special-purpose storage manager to best utilize sharing in physical storage. We present experimental results supporting these design decisions. It ...
This tutorial paper surveys the main features of Uppaal SMC, a model checking approach in Uppaal fam...
Timed automata are finite-state machines augmented with special clock variables that reflect the adv...
Timed Automata with Deadlines (TAD) is a notation to model concurrent real-time systems that has a n...
We present work on unifying the two main data structures involved during reachability analysis of t...
During the past few years, a number of verification tools have been developed for real-time systems ...
Model checking of timed automata is a widely used technique. But in order to take advantage of moder...
Model checking of timed automata is a widely used technique. But in order to take advantage of moder...
We present the design of the model-checking engine and internal data structures for the next genera...
Since real-time systems often operate in safety-critical environments it is extremely important that...
Abstract. We present the design of the model-checking engine and in-ternal data structures for the n...
Concurrent designs can be automatically verified by transforming them into an automata-based represe...
It has been our long time wish to combine the best parts of the real-time verification methods based...
Uppaal is a tool suite for automatic verification of safety andbounded liveness properties of real-t...
During the past few years, a number of verification tools have been developed for real--time systems...
UPPAAL is a tool suite for automatic verification of safety andbounded liveness properties of real-t...
This tutorial paper surveys the main features of Uppaal SMC, a model checking approach in Uppaal fam...
Timed automata are finite-state machines augmented with special clock variables that reflect the adv...
Timed Automata with Deadlines (TAD) is a notation to model concurrent real-time systems that has a n...
We present work on unifying the two main data structures involved during reachability analysis of t...
During the past few years, a number of verification tools have been developed for real-time systems ...
Model checking of timed automata is a widely used technique. But in order to take advantage of moder...
Model checking of timed automata is a widely used technique. But in order to take advantage of moder...
We present the design of the model-checking engine and internal data structures for the next genera...
Since real-time systems often operate in safety-critical environments it is extremely important that...
Abstract. We present the design of the model-checking engine and in-ternal data structures for the n...
Concurrent designs can be automatically verified by transforming them into an automata-based represe...
It has been our long time wish to combine the best parts of the real-time verification methods based...
Uppaal is a tool suite for automatic verification of safety andbounded liveness properties of real-t...
During the past few years, a number of verification tools have been developed for real--time systems...
UPPAAL is a tool suite for automatic verification of safety andbounded liveness properties of real-t...
This tutorial paper surveys the main features of Uppaal SMC, a model checking approach in Uppaal fam...
Timed automata are finite-state machines augmented with special clock variables that reflect the adv...
Timed Automata with Deadlines (TAD) is a notation to model concurrent real-time systems that has a n...