Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming framework, is a well-established technology for correctness verification of industrial-scale circuit designs. Most verifications in this domain require decomposition into subproblems that symbolic trajectory evaluation can handle, and deductive theorem proving has long been proposed as a complement to symbolic trajectory evaluation to enable such compositional reasoning. This paper describes an approach to verification by symbolic simulation, called Relational STE, that raises verification properties to the purely logical level suitable for compositional reasoning in a theorem prover. We also introduce a new deductive theorem prover, called G...
Abstract. We have developed a verification framework that combines deductive reasoning, general purp...
This dissertation investigates the problems of two distinctive formal verification techniques for ve...
Symbolic trajectory evaluation (STE) — a model checking technique based on partial order representa...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
textThe goal of formal verification is to use mathematical methods to prove that a computing system...
This dissertation documents two contributions to automating the formal verification of hardware – pa...
Symbolic trajectory evaluation (Seger and Bryant, 1995) or STE in short has been successfully used i...
Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used t...
Abstract. Combining theorem proving and model checking o ers the tantalizing possibility of e cientl...
For the past decade, a framework combining model checking (symbolic trajectory evaluation) and highe...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
We describe the use of symmetry for verification of transistor-level circuits by symbolic trajectory...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
Symbolic Trajectory Evaluation is an industrial-strength verification method, based on symbolic simu...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Abstract. We have developed a verification framework that combines deductive reasoning, general purp...
This dissertation investigates the problems of two distinctive formal verification techniques for ve...
Symbolic trajectory evaluation (STE) — a model checking technique based on partial order representa...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
textThe goal of formal verification is to use mathematical methods to prove that a computing system...
This dissertation documents two contributions to automating the formal verification of hardware – pa...
Symbolic trajectory evaluation (Seger and Bryant, 1995) or STE in short has been successfully used i...
Symbolic trajectory evaluation (STE) is a model checking technique that has been successfully used t...
Abstract. Combining theorem proving and model checking o ers the tantalizing possibility of e cientl...
For the past decade, a framework combining model checking (symbolic trajectory evaluation) and highe...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
We describe the use of symmetry for verification of transistor-level circuits by symbolic trajectory...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
Symbolic Trajectory Evaluation is an industrial-strength verification method, based on symbolic simu...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Abstract. We have developed a verification framework that combines deductive reasoning, general purp...
This dissertation investigates the problems of two distinctive formal verification techniques for ve...
Symbolic trajectory evaluation (STE) — a model checking technique based on partial order representa...