Eyecharts: constructive benchmarking of gate sizing heuristics
Proceedings of the 47th Design Automation Conference
Slack redistribution for graceful degradation under voltage overscaling
Proceedings of the 2010 Asia and South Pacific Design Automation Conference
Post sign-off leakage power optimization
Proceedings of the 48th Design Automation Conference
Construction of realistic gate sizing benchmarks with known optimal solutions
Proceedings of the 2012 ACM international symposium on International Symposium on Physical Design
Discrete sizing for leakage power optimization in physical design: A comparative study
ACM Transactions on Design Automation of Electronic Systems (TODAES) - Special section on adaptive power management for energy and temperature-aware computing systems
Sensitivity-guided metaheuristics for accurate discrete gate sizing
Proceedings of the International Conference on Computer-Aided Design
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This paper revisits and extends a general linear programming (LP) formulation to exploit multiple knobs such as multi-Lgate footprint-compatible libraries and post-layout Lgate-biasing to minimize total leakage power under timing constraints. We minimize positive timing slack for each cell according to its leakage vs. delay sensitivity, so that unnecessary leakage power consumption is saved without degrading circuit performance. A key difference between our work and previous works is that we pre-process timing libraries to estimate the linear relation - in every slew-load condition - between the gate delay and gate length by linear fitting; we then optimize total leakage power by estimating the optimal gate length for each gate using fast linear programming. With a 65GP industry testbed, and directly comparing with commercial tools, we show the QOR and runtime advantages of our method for the multi-Lgate and Lgate-biasing knobs. We also show a promising application to circuit timing legalization, a problem which frequently arises when implementation and signoff timers differ. Overall, our results show strong viability of LP based estimation and optimization: compared with the commercial tools, we: (1) shift the achievable delay-leakage tradeoff curve in a positive way, and (2) more accurately maintain prescribed timing constraints.