We describe the use of symmetry for verification of transistor-level circuits by symbolic trajectory evaluation (STE). We present a new formulation of STE which allows a succinct description of symmetry properties in circuits, Symmetries in circuits are classified as structural symmetries, arising from similarities in circuit structure, data symmetries, arising from similarities in the handling of data values, and mixed structural-data symmetries. We use graph isomorphism testing and symbolic simulation to verify the symmetries in the original circuit, Using conservative approximations, we partition a circuit to expose the symmetries in its components, and construct reduced system models which can be verified efficiently, Introducing X-driv...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Symmetry reduction is a well-known approach for alleviating the state explosion problem in model che...
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...
This paper combines symmetry reduction with generalized symbolic trajectory evaluation (GSTE) to tac...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
One technique to reduce the state-space explosion problem in temporal logic model checking is symmet...
This dissertation documents two contributions to automating the formal verification of hardware – pa...
Abstract. BDDs allow succinct symbolic representation of digital circuits. Symmetry reduction factor...
Verifying memory arrays such as on-chip caches and register files is a difficult part of designing a...
Verifying memory arrays such as on-chip caches and register files is a difficult part of designing ...
Abstract. BDDs allow succinct symbolic representation of digital circuits. Sym-metry reduction facto...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Symmetry reduction is a well-known approach for alleviating the state explosion problem in model che...
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...
This paper combines symmetry reduction with generalized symbolic trajectory evaluation (GSTE) to tac...
Model checking by symbolic trajectory evaluation, orchestrated in a flexible functional-programming ...
One technique to reduce the state-space explosion problem in temporal logic model checking is symmet...
This dissertation documents two contributions to automating the formal verification of hardware – pa...
Abstract. BDDs allow succinct symbolic representation of digital circuits. Symmetry reduction factor...
Verifying memory arrays such as on-chip caches and register files is a difficult part of designing a...
Verifying memory arrays such as on-chip caches and register files is a difficult part of designing ...
Abstract. BDDs allow succinct symbolic representation of digital circuits. Sym-metry reduction facto...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Symmetry reduction is a well-known approach for alleviating the state explosion problem in model che...