Add to ORKGGeneralized symbolic trajectory evaluation (GSTE) is a model checking approach and has successfully demonstrated its powerful capacity in formal verification of VLSI systems. GSTE is an extension of symbolic trajectory evaluation (STE) to the model checking of -regular properties. It is an alternative to classical model checking algorithms where properties are specified as finite-state automata. In GSTE, properties are specified as assertion graphs, which are labeled directed graphs where each edge is labeled with two labeling functions: antecedent and consequent. In this paper, we show the complement relation between GSTE assertion graphs and finite-state automata with the expressiveness of regular languages and -regular languages. We pres...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
AbstractIn this paper, we consider the model-checking problem for regular graphs, i.e. infinite tran...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
Generalized symbolic trajectory evaluation (GSTE) is a model checking approach and has successfully ...
Abstract- We address the problem of implication of assertion graphs that occur in generalized symbol...
Abstract. Verifying whether an ω-regular property is satisfied by a finite-state system is a core pr...
Verifying whether an ?-regular property is satisfied by a finite-state system is a core problem in m...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
AbstractMany different methods have been devised for automatically verifying finite state systems by...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
AbstractThe paper shows that, by an appropriate choice of a rich assertional language, it is possibl...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Abstract The paper shows that, by an appropriate choice of a rich assertional language, it is possib...
Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used t...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
AbstractIn this paper, we consider the model-checking problem for regular graphs, i.e. infinite tran...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
Generalized symbolic trajectory evaluation (GSTE) is a model checking approach and has successfully ...
Abstract- We address the problem of implication of assertion graphs that occur in generalized symbol...
Abstract. Verifying whether an ω-regular property is satisfied by a finite-state system is a core pr...
Verifying whether an ?-regular property is satisfied by a finite-state system is a core problem in m...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
AbstractMany different methods have been devised for automatically verifying finite state systems by...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
AbstractThe paper shows that, by an appropriate choice of a rich assertional language, it is possibl...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Abstract The paper shows that, by an appropriate choice of a rich assertional language, it is possib...
Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used t...
Checking infinite-state systems is frequently done by encoding infinite sets of states as regular la...
AbstractIn this paper, we consider the model-checking problem for regular graphs, i.e. infinite tran...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...