Publication
We address the problem of minimizing the area of circuits mapped to a technology library, with or without delay constraints. While traditional methods optimize first a technology-independent representation and then perform technology mapping to a library, this paper explores the potential for further optimizations through technology-dependent algorithms. We propose an optimization engine for mapped circuits that relies on a database of mapped sub-networks for efficient resynthesis. Experimental results on the EPFL benchmarks after area-oriented optimization and mapping show that the proposed method leads to average area improvements of 5.47% without degrading the delay.