Integrating formal verification techniques into the hardware design process provides the means to rigorously prove critical properties. However, most automatic verification techniques, such as model checking, are only effectively applicable to designs of limited sizes due to the state explosion problem. The Multiway Decision Graphs (MDG) method is an efficient method to define hardware designs into more abstract environments; however, the MDG model checker (MDG-MC) still suffers from the state explosion problem. Furthermore, all the backward reduction algorithms cannot be used in MDG, due to the presence of abstract state variables. In this study, an efficient extractor for MDG Hardware Descrpiton Languge (MDG-HDL) is introduced based on st...
While model checking suffers from the state space explosion problem, theorem proving is quite tediou...
Abstract. Slicing is a technique for extracting parts of programs or specifications with respect to ...
AbstractIn this work, we present an abstraction based property verification technique for hardware u...
Multiway Decision Graphs (MDGs) subsume Binary Decision Diagrams (BDDs) by representing formulae whi...
Abstract:- The complexity of digital hardware designs has increased substantially with new advanceme...
The increasing complexity of hardware systems requires more and more sophisticated methods of verifi...
Symbolic model-checking tools encounter state-explosion problem when verifying designs with large da...
Abstract Multiway Decision Graphs (MDGs) are a canonical representation of a subset of many-sorted f...
As an efficient representation of Extended Finite State Machines, Multiway Decision Graphs (MDG) are...
Model checking the design of a software system can be supported by providing an interface from a hig...
AbstractModel checking the design of a software system can be supported by providing an interface fr...
This thesis demonstrates the effectiveness of Multiway Decision Graphs (MDG) to carry out the formal...
Traditional OBDD-based methods of automated verification suffer from the drawback that they require ...
We present a framework for the formal verification of abstract state machine (ASM) designs using the...
It is essential to ensure the correctness of software systems, especially for large and safety-criti...
While model checking suffers from the state space explosion problem, theorem proving is quite tediou...
Abstract. Slicing is a technique for extracting parts of programs or specifications with respect to ...
AbstractIn this work, we present an abstraction based property verification technique for hardware u...
Multiway Decision Graphs (MDGs) subsume Binary Decision Diagrams (BDDs) by representing formulae whi...
Abstract:- The complexity of digital hardware designs has increased substantially with new advanceme...
The increasing complexity of hardware systems requires more and more sophisticated methods of verifi...
Symbolic model-checking tools encounter state-explosion problem when verifying designs with large da...
Abstract Multiway Decision Graphs (MDGs) are a canonical representation of a subset of many-sorted f...
As an efficient representation of Extended Finite State Machines, Multiway Decision Graphs (MDG) are...
Model checking the design of a software system can be supported by providing an interface from a hig...
AbstractModel checking the design of a software system can be supported by providing an interface fr...
This thesis demonstrates the effectiveness of Multiway Decision Graphs (MDG) to carry out the formal...
Traditional OBDD-based methods of automated verification suffer from the drawback that they require ...
We present a framework for the formal verification of abstract state machine (ASM) designs using the...
It is essential to ensure the correctness of software systems, especially for large and safety-criti...
While model checking suffers from the state space explosion problem, theorem proving is quite tediou...
Abstract. Slicing is a technique for extracting parts of programs or specifications with respect to ...
AbstractIn this work, we present an abstraction based property verification technique for hardware u...