Publication
A Guiding Coverage Metric for Formal Verification
Finn Haedicke; Daniel Große; Rolf Drechsler
In: Conference Proceedings. Design, Automation & Test in Europe (DATE-12), March 12-16, Dresden, Germany, 2012.
Abstract
Considerable effort is made to verify the correct
functional behavior of circuits and systems. To guarantee the over-
all success metric-driven verification flows have been developed.
In these flows coverage metrics are omnipresent. Well established
coverage metrics for simulation-based verification approaches
exist. This is however not the case for formal verification where
property checking is a major technique to prove the correctness
of the implementation.
In this paper we present a guiding coverage metric for this
formal verification setting. Our metric reports a single number de-
scribing how much of the circuit behavior is uniquely determined
by the properties. In addition, the coverage metric guides the
verification engineer to achieve completeness by providing helpful
information about missing scenarios. This information comes
from a new behavior classification algorithm which determines
uncovered behavior classes for a signal and allows to compute the
coverage of a signal. To measure the complete circuit behavior
we devise a coverage metric for a set of signals. The metric
is calculated by partitioning the coverage computation into a
safe part and an unsafe part where the latter one is weighted
accordingly using recursion. This procedure takes into account
that in practice properties refer to internal signals which in turn
need to be covered them-self. Overall, our metric allows to track
the verification progress in property checking and significantly
aid the verification engineers in completing the property set.