Abstract

Local routing congestion is becoming increasingly important as complex design rules make local pin access the bottle-neck for modern designs and routers. Since congestion analysis based on global routing does not model these effects, routability-driven placement and physical synthesis fail to alleviate local congestion. This work models routing congestion at the placement level in order to apply local congestion mitigation. We propose a local congestion metric that computes a routing-difficulty score for every cell in the design library. To disperse local congestion, we apply a suite of detailed placement techniques called MILOR (Movement, cell Inflation and Legalization, and Optimization within a Row). Experimental results show that our techniques can significantly improve routing quality on real industry designs from 65, 45, and 32 nanometer technologies.