Advanced analysis techniques for cross-product coverage

“…[7]) and to discover shorter and more meaningful hints for the generation of better stimuli (see e.g. [8]). By this, the tedious analysis of a large set of scenarios is avoided and dedicated stimuli are derived earlier.…”

“…[5,6,7,8,9,10,11,12,13]). This led to Coveragedriven Verification (CDV) which is well acknowledged and applied in industry.…”

“…Here, advanced coverage analysis methods (see e.g. [7,8]) are applied. They analyse the coverage of the already applied stimuli and derive further information on which scenarios have not sufficiently been triggered yet.…”

Determining Cases of Scenarios to Improve Coverage in Simulation-based Verification

“…[7]) and to discover shorter and more meaningful hints for the generation of better stimuli (see e.g. [8]). By this, the tedious analysis of a large set of scenarios is avoided and dedicated stimuli are derived earlier.…”

“…[5,6,7,8,9,10,11,12,13]). This led to Coveragedriven Verification (CDV) which is well acknowledged and applied in industry.…”

“…Here, advanced coverage analysis methods (see e.g. [7,8]) are applied. They analyse the coverage of the already applied stimuli and derive further information on which scenarios have not sufficiently been triggered yet.…”

Determining Cases of Scenarios to Improve Coverage in Simulation-based Verification

Seed Selector: A Tree Evaluation Mechanism to Speed Up Functional Coverage Collection in Hardware Verification Environments

Increasing the Efficiency of Simulation-Based Functional Verification Through Unsupervised Support Vector Analysis