Bong-Il Park scite author profile

In modern system-on-chip implementations, multimode design is commonly used to achieve better circuit performance and power across voltage-scaled, "turbo" and other operating modes. To the best of our knowledge, there is no available systematic analysis or methodology for the selection of associated signoff modes for multimode circuit implementations. In this brief, we observe significant impacts of signoff mode selection on circuit area, power, and performance. For example, incorrect choice of signoff voltages for required overdrive frequencies can incur 12% suboptimality in power or 20% in area. Using the concept of mode dominance as a guideline, we propose a scalable, model-based adaptive search methodology to explore the design space for signoff mode selection. Our proposed methodology is duty cycle-aware in its minimization of lifetime energy. Results show that our proposed methodology provides >8% improvement in performance, for given V dd , area and power constraints, compared with the traditional "signoff and scale" method. Further, the signoff modes determined by our methods result in <6% overhead in power compared with the optimal signoff modes.Index Terms-Design space exploration, frequency overdrive, multicorner multimode design, signoff optimization.

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Radix-4 multiplier with regular layout structure

Park

Shin

Park

et al. 1998

Electron. Lett.

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A new single-clock flip-flop for half-swing clocking

Kwon

Park

et al. 1999

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Customization of a CISC processor core for low-power applications

Chang

Park²,

Park³

et al.

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Bong-Il Park

Active-Mode Leakage Reduction with Data-Retained Power Gating

Optimization of Overdrive Signoff in High-Performance and Low-Power ICs

Radix-4 multiplier with regular layout structure

A new single-clock flip-flop for half-swing clocking

Customization of a CISC processor core for low-power applications

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