in this paper a solution for property verification of synchronous VHDL designs is introduced, and an efficient symbolic model checker is implemented. The model checker applies the feature of synchronous circuit design and the locality feature of property to reduce the size of the state space of the internal finite state machine (FSM) model, thus speeding up the reachability analysis and property checking of circuits. A counterexample generation mechanism is also implemented. We have used the implemented model checker to verify several benchmark circuits; the experimental results contrast with another well-known model checker and demonstrate that our solution is more practicable
This paper describes how model checking has been integrated into an industrial hardware design proce...
Abstract. The paper presents a new approach to formal verification of generic (i.e. parametrised) ha...
The ASICs in the automotive sensing area are greatly increasing in their complexity. Additional safe...
Abstract: In this paper, we defined a new FSM model that based on the synchronous behavior and symbo...
International audienceFormal tools for the verification of HDL synchronous descriptions are currentl...
ISBN: 0412813300This paper suggests that synchronous designs written in either Verilog or VHDL can b...
Abstract. The paper considers the problem of model checking real-life VHDLbased hardware designs via...
With increasing design complexity, verification becomes a more and more important aspect of the desi...
International audienceIn order to achieve bug-free designs, an important first step is to ascertain ...
This paper presents a complete methodology to design a totally self-checking (TSC) sequential system...
International audiencePrevail, a formal verification environment for proving the equivalence of two ...
ISBN: 3540603859This paper gives operational semantics for a subset of VHDL in terms of abstract mac...
The temporal logic model checking algorithm of Clarke, Emerson, and Sistla [17] is modified to repre...
Abstract: We use symbolic model checking to verify a VHDL design. This paper mainly focuses on Comp...
ISBN: 0444893679The authors describe a formal verification environment for proving the equivalence o...
This paper describes how model checking has been integrated into an industrial hardware design proce...
Abstract. The paper presents a new approach to formal verification of generic (i.e. parametrised) ha...
The ASICs in the automotive sensing area are greatly increasing in their complexity. Additional safe...
Abstract: In this paper, we defined a new FSM model that based on the synchronous behavior and symbo...
International audienceFormal tools for the verification of HDL synchronous descriptions are currentl...
ISBN: 0412813300This paper suggests that synchronous designs written in either Verilog or VHDL can b...
Abstract. The paper considers the problem of model checking real-life VHDLbased hardware designs via...
With increasing design complexity, verification becomes a more and more important aspect of the desi...
International audienceIn order to achieve bug-free designs, an important first step is to ascertain ...
This paper presents a complete methodology to design a totally self-checking (TSC) sequential system...
International audiencePrevail, a formal verification environment for proving the equivalence of two ...
ISBN: 3540603859This paper gives operational semantics for a subset of VHDL in terms of abstract mac...
The temporal logic model checking algorithm of Clarke, Emerson, and Sistla [17] is modified to repre...
Abstract: We use symbolic model checking to verify a VHDL design. This paper mainly focuses on Comp...
ISBN: 0444893679The authors describe a formal verification environment for proving the equivalence o...
This paper describes how model checking has been integrated into an industrial hardware design proce...
Abstract. The paper presents a new approach to formal verification of generic (i.e. parametrised) ha...
The ASICs in the automotive sensing area are greatly increasing in their complexity. Additional safe...