A Flip-Flop Matching Engine to Verify Sequential Optimizations

In: Computing and Informatics, vol. 23, no. 5-6

Solaiman Rahim - Bruno Rouzeyre - Lionel Torres

Details:

Year, pages: 2004, 437 - 460

Keywords:

Equivalence checking, synthesis, matching, combinational equivalence checking, sequential optimizations, redundancy removal, don´t care conditions

About article:

Equivalence checking tools often use a flip-flop matching step to avoid the state space traversal. Due to sequential optimizations performed during synthesis (merge, replication, redundancy removal, ...) and don't care conditions, the matching step can be very complex as well as incomplete. If the matching is incomplete, even the use of a fast and efficient SAT solver during the combinational equivalence-checking step may not prevent the failure of this approach. In this paper, we present a flip-flop matching engine, which is able to verify optimized circuits and handle don't care conditions.

How to cite:

ISO 690:

Rahim, S., Rouzeyre, B., Torres, L. 2004. A Flip-Flop Matching Engine to Verify Sequential Optimizations. In Computing and Informatics, vol. 23, no.5-6, pp. 437-460. 1335-9150.

APA:

Rahim, S., Rouzeyre, B., Torres, L. (2004). A Flip-Flop Matching Engine to Verify Sequential Optimizations. Computing and Informatics, 23(5-6), 437-460. 1335-9150.