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TVLSI
2008
2008
A Design-Specific and Thermally-Aware Methodology for Trading-Off Power and Performance in Leakage-Dominant CMOS Technologies
As CMOS technology scales deeper into the nanometer regime, factors such as leakage power and chip temperature emerge as critically important concerns for high-performance VLSI design. Consequently, enhancing processing performance is no longer the most important factor that dominates future circuit design considerations. This paper, for the first time, proposes a systematic methodology to determine a generalized design optimization metric for simultaneously trading-off power and performance in nanometer scale integrated circuits to achieve design-specific targets. The methodology incorporates interconnect effects as well as electrothermal couplings between substrate temperature, power, and performance for nanometer scale design optimization. Implications of choosing a specific design optimization metric on power, performance, and operating temperature are illustrated and discussed. The proposed methodology is shown to provide a more meaningful optimization metric (for power-performanc...
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| Added | 16 Dec 2010 |
| Updated | 16 Dec 2010 |
| Type | Journal |
| Year | 2008 |
| Where | TVLSI |
| Authors | Sheng-Chih Lin, Kaustav Banerjee |
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