Approximate reachability with combined symbolic and ternary simulation

Logic synthesis and formal verification both rely on scalable reachable state characterization for numerous purposes. One popular technique is over-approximate reachability analysis using an iterative ternary simulation. This method trades precision of reachability characterization for a high degree...

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Hauptverfasser: Case, Michael, Baumgartner, Jason, Mony, Hari, Kanzelman, Robert
Format: Tagungsbericht
Sprache:eng
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Zusammenfassung:Logic synthesis and formal verification both rely on scalable reachable state characterization for numerous purposes. One popular technique is over-approximate reachability analysis using an iterative ternary simulation. This method trades precision of reachability characterization for a high degree of computational efficiency. Although effective on many industrial designs, it breaks down when the design has registers that have complex initial states or has extremely deep deterministic subcircuits. In this paper, we improve upon the precision of ternary simulation-based approximate reachability while retaining its scalability by representing certain variables as symbols vs. unknowns, and by selectively saturating subcircuits which would otherwise preclude convergence. These techniques are particularly beneficial for enhancing the scalability of industrial sequential equivalence checking problems, occasionally solving such problems outright with no need for more costly and precise analysis.
DOI:10.5555/2157654.2157673