posted on 1997-06-01, 00:00authored byMiroslav N Velev, Randal E. Bryant
We present a way to abstract functional units in symbolic simulation of
actual circuits, thus achieving the effect of uninterpreted functions at the bit-level.
Additionally, we propose an efficient encoding technique that can be used to represent
uninterpreted symbols with BDDs, while allowing these symbols to be propagated
by simulation with a conventional bit-level symbolic simulator. Our abstraction
and encoding techniques result in an automatic symmetry reduction and allow the
control and forwarding logic of the actual circuit to be used unmodified. The abstraction
method builds on the behavioral Efficient Memory Model [18][19] and its capability
to dynamically introduce consistent initial state, which is identical for two
simulation sequences. We apply the abstraction and encoding ideas on the verification
of pipelined microprocessors by correspondence checking, where a pipelined
microprocessor is compared against a non-pipelined specification