Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation over a lattice of abstract state sets. The STE algorithm operates over families of these abstractions encoded by Boolean formulas, enabling verification with many different abstraction cases in a single modelchecking run. This provides a flexible way to achieve partitioned data abstraction. It is usually called "symbolic indexing' and is widely used in memory verification, but has seen relatively limited adoption elsewhere, primarily because users typically have to create the right indexed family of abstractions manually. This work provides the first known algorithm that automatically computes these partitioned abstractions given a reference-mod...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
This paper enables symbolic ternary simulation of systems with large embedded memories. Each memory ...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
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...
Symbolic indexing is a data abstraction technique that exploits the partially-ordered state space of...
Abstract. We present a SAT-based algorithm for assisting users of Symbolic Trajectory Evaluation (ST...
Abstract. Verifying whether an ω-regular property is satisfied by a finite-state system is a core pr...
Traditional methods of testing computer systems, although valuable, are inadequate for ensuring suff...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
We present a new SAT-based algorithm for Symbolic Trajectory Evaluation (STE), and compare it to mor...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Symbolic trajectory evaluation (Seger and Bryant, 1995) or STE in short has been successfully used i...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
This paper enables symbolic ternary simulation of systems with large embedded memories. Each memory ...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
The rapid growth in hardware complexity has led to a need for formal verification of hardware design...
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...
Symbolic indexing is a data abstraction technique that exploits the partially-ordered state space of...
Abstract. We present a SAT-based algorithm for assisting users of Symbolic Trajectory Evaluation (ST...
Abstract. Verifying whether an ω-regular property is satisfied by a finite-state system is a core pr...
Traditional methods of testing computer systems, although valuable, are inadequate for ensuring suff...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
We present a new SAT-based algorithm for Symbolic Trajectory Evaluation (STE), and compare it to mor...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Symbolic trajectory evaluation (Seger and Bryant, 1995) or STE in short has been successfully used i...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
This paper enables symbolic ternary simulation of systems with large embedded memories. Each memory ...