Effective Method for Simultaneous Gate Sizing and $V$ th Assignment Using Lagrangian Relaxation

This paper presents a fast and effective approach to gate-version selection and threshold voltage, $V_{th}$, assignment. In the proposed flow, first, a solution without slew and load violation is generated. Then, a Lagrangian Relaxation (LR) method is used to reduce leakage power and achieve timing closure while keeping the circuit no or few violations. If the set of gate-versions given by LR produces a circuit with negative slack, a timing recovery method is applied to find near zero positive slack. The solution without negative slack is finally introduced to a power reduction step. For the ISPD 2012 Contest benchmarks, the leakage power of our solutions is, on average, 9.53% smaller than and 12.45% smaller than . The sizing produced using our approach achieved the first place in the ISPD 2013 Discrete Gate Sizing Contest with, on average, 8.78% better power results than the second place tool. With new timing calculation applied, this flow can provide, on average, an extra 9.62% power reduction compared to the best Contest results. This flow is also the first gate sizing method to report violation-free solutions for all benchmarks of the ISPD 2013 Contest.