Quantitative verification tools compute probabilities, expected rewards, or steady-state values for formal models of stochastic and timed systems. Exact results often cannot be obtained efficiently, so most tools use floating-point arithmetic in iterative algorithms that approximate the quantity of interest. Correctness is thus defined by the desired precision and determines performance. In this paper, we report on the experimental evaluation of these trade-offs performed in QComp 2020: the second friendly competition of tools for the analysis of quantitative formal models. We survey the precision guarantees - ranging from exact rational results to statistical confidence statements - offered by the nine participating tools. They gave rise t...
This paper presents a quantitative program verification infrastructure for discrete probabilistic pr...
Many software systems exhibit probabilistic behaviour, either added explicitly, to improve performan...
AbstractProbabilistic model checking is a formal verification technique for establishing the correct...
Quantitative verification tools compute probabilities, expected rewards, or steady-state values for ...
Quantitative verification tools compute probabilities, expected rewards, or steady-state values for ...
Quantitative formal models capture probabilistic behaviour, real-time aspects, or general continuous...
We present an extensive collection of quantitative models to facilitate the development, comparison,...
Formal verification is used to establish the compliance of software and hardware systems with import...
Computerised systems appear in almost all aspects of our daily lives, often in safety-critical scena...
Soon after the birth of model checking, the first theoretical achievements have been reported on the...
We introduce FACT, a probabilistic model checker that computes confidence intervals for the evaluate...
Quantitative aspects of computation are related to the use of both physical and mathematical quantit...
Formal verification aims to improve the quality of software by detecting errors before they do harm....
© 2015 IEEE. Probabilistic model checking is a verification technique that has been the focus of int...
Probabilistic model checking is a verification technique that has been the focus of intensive resear...
This paper presents a quantitative program verification infrastructure for discrete probabilistic pr...
Many software systems exhibit probabilistic behaviour, either added explicitly, to improve performan...
AbstractProbabilistic model checking is a formal verification technique for establishing the correct...
Quantitative verification tools compute probabilities, expected rewards, or steady-state values for ...
Quantitative verification tools compute probabilities, expected rewards, or steady-state values for ...
Quantitative formal models capture probabilistic behaviour, real-time aspects, or general continuous...
We present an extensive collection of quantitative models to facilitate the development, comparison,...
Formal verification is used to establish the compliance of software and hardware systems with import...
Computerised systems appear in almost all aspects of our daily lives, often in safety-critical scena...
Soon after the birth of model checking, the first theoretical achievements have been reported on the...
We introduce FACT, a probabilistic model checker that computes confidence intervals for the evaluate...
Quantitative aspects of computation are related to the use of both physical and mathematical quantit...
Formal verification aims to improve the quality of software by detecting errors before they do harm....
© 2015 IEEE. Probabilistic model checking is a verification technique that has been the focus of int...
Probabilistic model checking is a verification technique that has been the focus of intensive resear...
This paper presents a quantitative program verification infrastructure for discrete probabilistic pr...
Many software systems exhibit probabilistic behaviour, either added explicitly, to improve performan...
AbstractProbabilistic model checking is a formal verification technique for establishing the correct...