Symbolic trajectory evaluation is a new approach to formal hardware verification combining the circuit modeling capabilities of symbolic logic simulation with some of the analytic methods found in temporal logic model checkers. We have created such an evaluator by extending the symbolic switch-level simulator COSMOS. This program gains added efficiency by exploiting the ability of COSMOS to evaluate circuit operation over a ternary logic model, where the third value X represents an unknown logic value. This program can formally verify systems containing complex features such as switch-level models, detailed timing, and pipelining
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...
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...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
This paper enables symbolic ternary simulation of systems with large embedded memories. Each memory ...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Traditional methods of testing computer systems, although valuable, are inadequate for ensuring suff...
The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network sym...
Symbolic simulation involves evaluating circuit behavior using special symbolic values to encode a r...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
Symbolic trajectory evaluation provides a means to formally verify properties of a sequential system...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...
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...
Formal and dynamic (simulation, emulation, etc.) verification techniques are both needed to deal wi...
This paper enables symbolic ternary simulation of systems with large embedded memories. Each memory ...
Generalised Symbolic Trajectory Evaluation (GSTE) is a high-capacity formal verification technique f...
Traditional methods of testing computer systems, although valuable, are inadequate for ensuring suff...
The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network sym...
Symbolic simulation involves evaluating circuit behavior using special symbolic values to encode a r...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...
SoC design becomes more complex with the increasing amount of different kinds of IPs on the chip. Ho...
Symbolic trajectory evaluation (STE) is a model checking technology based on symbolic simulation ove...