Abstract
It is becoming more and more important to design high performance designs with as low power as possible. In this paper, we study the gate sizing and device technology selection problem for today's industrial designs. We first outline the typical practical problems that make it difficult to use the traditional algorithms on high-performance industrial designs. Then, we propose a Lagrangian Relaxation (LR) based formulation that decouples timing analysis from optimization without resulting in loss of accuracy. We also propose a graph model that accurately captures discrete cell type characteristics based on library data. We model the relaxed Lagrangian subproblem as a discrete graph problem, and propose algorithms to solve it. In our experiments, we demonstrate the importance of using the signoff timing engine to guide the optimization. Compared to a state-of-the art industrial optimization flow, we show that our algorithms can obtain up to 38% leakage power reductions and better overall timing for real high-performance microprocessor blocks.
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