Acceleration methods are commonly used for speeding up the convergence of loops in reachability analysis of counter machine models. Applying these methods to synchronous data-flow programs with Boolean and numerical variables, e.g., Lustre programs, requires the enumeration of the Boolean states in order to obtain a control flow graph (CFG) with numerical variables only. Our goal is to apply acceleration techniques to data-flow programs without resorting to this exhaustive enumeration. To this end, we present (1) logico-numerical abstract acceleration methods for CFGs with Boolean and numerical variables and (2) partitioning techniques that make logical-numerical abstract acceleration effective. Experimental results show that incorporating ...
This paper presents FLAVERS, a finite state verification approach that analyzes whether concurrent o...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
Data-flow analysis is an integral part of any aggressive optimizing compiler. We propose a framework...
International audienceAcceleration methods are commonly used for speeding up the convergence of loop...
AbstractAcceleration methods are commonly used for computing precisely the effects of loops in the r...
International audienceAcceleration methods are commonly used for computing precisely the effects of ...
Acceleration methods are commonly used for computing precisely the effects of loops in the reachabil...
AbstractThe combination of static and dynamic software analysis, such as data flow analysis (Dfa) an...
The combination of static and dynamic software analysis, such as data flow analysis (Dfa) and model ...
Soundness is a major objective for verification tools. Methods that use exact arithmetic or symbolic...
Data-flow program analysis (DFA) is a powerful technique with applications ranging from compiler opt...
This paper describes about Data Flow Computers. The dataflow model of computation offers an attracti...
Part of the Computer Sciences Commons This Article is brought to you for free and open access by the...
This paper describes FLAVERS, a finite-state verification approach that analyzes whether concurrent ...
The correctness of a sequential program can be shown by the anno-tation of its control flow graph wi...
This paper presents FLAVERS, a finite state verification approach that analyzes whether concurrent o...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
Data-flow analysis is an integral part of any aggressive optimizing compiler. We propose a framework...
International audienceAcceleration methods are commonly used for speeding up the convergence of loop...
AbstractAcceleration methods are commonly used for computing precisely the effects of loops in the r...
International audienceAcceleration methods are commonly used for computing precisely the effects of ...
Acceleration methods are commonly used for computing precisely the effects of loops in the reachabil...
AbstractThe combination of static and dynamic software analysis, such as data flow analysis (Dfa) an...
The combination of static and dynamic software analysis, such as data flow analysis (Dfa) and model ...
Soundness is a major objective for verification tools. Methods that use exact arithmetic or symbolic...
Data-flow program analysis (DFA) is a powerful technique with applications ranging from compiler opt...
This paper describes about Data Flow Computers. The dataflow model of computation offers an attracti...
Part of the Computer Sciences Commons This Article is brought to you for free and open access by the...
This paper describes FLAVERS, a finite-state verification approach that analyzes whether concurrent ...
The correctness of a sequential program can be shown by the anno-tation of its control flow graph wi...
This paper presents FLAVERS, a finite state verification approach that analyzes whether concurrent o...
We present abstract acceleration techniques for computing loop in-variants for numerical programs wi...
Data-flow analysis is an integral part of any aggressive optimizing compiler. We propose a framework...