Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique for hardware. GSTE is an extension of Symbolic Trajectory Evaluation (STE). The difference is that STE is limited to properties ranging over finite time-intervals whereas GSTE can deal with properties over unbounded time. GSTE uses abstraction, meaning that details of the circuit behaviour are removed from the circuit model. This improves the capacity of the method, but has as down-side that certain properties cannot be proven if the wrong abstraction is chosen. A semantics for GSTE can be used to predict and understand why certain circuit properties can or cannot be proven by GSTE. Several semantics have been described for GSTE by Yang and Se...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
AbstractThis paper presents a formal symbolic trajectory evaluation (STE) theory based on a structur...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
Generalized symbolic trajectory evaluation (GSTE) is a model checking approach and has successfully ...
Abstract. Verifying whether an ω-regular property is satisfied by a finite-state system is a core pr...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
This dissertation documents two contributions to automating the formal verification of hardware – pa...
Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used t...
Abstract- We address the problem of implication of assertion graphs that occur in generalized symbol...
Verifying whether an ?-regular property is satisfied by a finite-state system is a core problem in m...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
AbstractThis paper presents a formal symbolic trajectory evaluation (STE) theory based on a structur...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
Generalized symbolic trajectory evaluation (GSTE) is a model checking approach and has successfully ...
Abstract. Verifying whether an ω-regular property is satisfied by a finite-state system is a core pr...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
This dissertation documents two contributions to automating the formal verification of hardware – pa...
Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used t...
Abstract- We address the problem of implication of assertion graphs that occur in generalized symbol...
Verifying whether an ?-regular property is satisfied by a finite-state system is a core problem in m...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
AbstractThis paper presents a formal symbolic trajectory evaluation (STE) theory based on a structur...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...