This article describes FLAVERS, a finite-state verification approach that analyzes whether con-current systems satisfy user-defined, behavioral properties. FLAVERS automatically creates a compact, event-based model of the system that supports efficient dataflow analysis. FLAVERS achieves this efficiency at the cost of precision. Analysts, however, can improve the precision of analysis results by selectively and judiciously incorporating additional semantic information into an analysis. We report on an empirical study of the performance of the FLAVERS/Ada toolset applied to a collection of multitasking Ada systems. This study indicates that sufficient precision for proving system properties can usually be achieved and that the cost for such ...
Finite-state verification techniques are often hampered by the state-explosion problem. One proposed...
The pervasiveness of computer systems in virtually every aspect of daily life entails a growing depe...
During maintenance and particularly during corrective and perfective tasks, systems tend to exhibit ...
This paper presents FLAVERS, a finite state verification approach that analyzes whether concurrent o...
This paper describes FLAVERS, a finite-state verification approach that analyzes whether concurrent ...
This paper presents FLAVERS, a nite state verication approach that analyzes whether concurrent or se...
With the proliferation of concurrent software systems, automated finite state verification technique...
Finite state verication techniques can be used for detecting the presence or proving the absence of ...
Software systems are increasing in size and complexity and, subsequently, are becoming ever more dif...
Finite state verification is emerging as an important technology for proving properties about softwa...
Part of the Computer Sciences Commons This Article is brought to you for free and open access by the...
In this paper we demonstrate the effectiveness of data flow analysis for verifying requirements of c...
FLAVERS, a tool for verifying properties of concurrent systems, uses composite data flow analysis to...
Finite-state verification techniques are often hampered by the state-explosion problem. One proposed...
A variety of largely automated methods have been proposed for finite-state verification of software ...
Finite-state verification techniques are often hampered by the state-explosion problem. One proposed...
The pervasiveness of computer systems in virtually every aspect of daily life entails a growing depe...
During maintenance and particularly during corrective and perfective tasks, systems tend to exhibit ...
This paper presents FLAVERS, a finite state verification approach that analyzes whether concurrent o...
This paper describes FLAVERS, a finite-state verification approach that analyzes whether concurrent ...
This paper presents FLAVERS, a nite state verication approach that analyzes whether concurrent or se...
With the proliferation of concurrent software systems, automated finite state verification technique...
Finite state verication techniques can be used for detecting the presence or proving the absence of ...
Software systems are increasing in size and complexity and, subsequently, are becoming ever more dif...
Finite state verification is emerging as an important technology for proving properties about softwa...
Part of the Computer Sciences Commons This Article is brought to you for free and open access by the...
In this paper we demonstrate the effectiveness of data flow analysis for verifying requirements of c...
FLAVERS, a tool for verifying properties of concurrent systems, uses composite data flow analysis to...
Finite-state verification techniques are often hampered by the state-explosion problem. One proposed...
A variety of largely automated methods have been proposed for finite-state verification of software ...
Finite-state verification techniques are often hampered by the state-explosion problem. One proposed...
The pervasiveness of computer systems in virtually every aspect of daily life entails a growing depe...
During maintenance and particularly during corrective and perfective tasks, systems tend to exhibit ...