Improved Design Debugging Using Maximum Satisfiability

Abstract

In today's SoC design cycles, debugging is one of the most time consuming manual tasks. CAD solutions strive to reduce the inefficiency of debugging by identifying error sources in designs automatically. Unfortunately, the capacity and performance of such automated techniques must be considerably extended for industrial applicability. This work aims to improve the performance of current state-of-the-art debugging techniques, thus making them more practical. More specifically, this work proposes a novel design debugging formulation based on maximum satisfiability (max-sat) and approximate max-sat. The developed technique can quickly discard many potential error sources in designs, thus drastically reducing the size of the problem passed to an existing debugger. The max-sat formulation is used as a pre-processing step to construct a highly optimized debugging framework. Empirical results demonstrate the effectiveness of the proposed framework as run-time improvements of orders of magnitude are consistently realized over a state-of-the-art debugger.