Supply-voltage optimization for below-70-nm technology-node MOSFETs

Supply-voltage optimization for below-70-nm technology-node MOSFETs

A tradeoff between the performance and power consumption is discussed for below-70-nm technology-node MOSFETs, as a function of power-supply voltage. In order to optimize the supply voltage, gate-delay (CV/I) and energy-delay product (C/sup 2/V/sup 3//I) trends are evaluated using the characteristic...

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Veröffentlicht in:IEEE transactions on semiconductor manufacturing 2002-05, Vol.15 (2), p.151-156
Hauptverfasser: Wakabayashi, H., Samudra, G.S., Djomehri, I.J., Nayfeh, H., Antoniadis, D.A.
Format: Artikel
Sprache:eng
Schlagworte:
CMOS technology
Delay effects
Electric potential
Energy consumption
Exact solutions
Laboratories
Large scale integration
Mathematical analysis
MOSFETs
Optimization
Paper technology
Power consumption
Power dissipation
Power generation
Semiconductors
Threshold voltage
Voltage
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Beschreibung
Zusammenfassung:A tradeoff between the performance and power consumption is discussed for below-70-nm technology-node MOSFETs, as a function of power-supply voltage. In order to optimize the supply voltage, gate-delay (CV/I) and energy-delay product (C/sup 2/V/sup 3//I) trends are evaluated using the characteristics of down to 24-nm physical-gate-length nMOSFETs. The gate-delay dependence on the supply voltage down to 0.9 V is almost constant at the same OFF current of 100 nA//spl mu/m. On the other hand, an optimum supply voltage for the energy-delay product significantly depends, on the short-channel characteristics, and is interpreted with analytic expressions. Therefore, for the below-70-nm technology node at sub-1.0 V, it is important to design the power-supply voltage taking into consideration of a short-channel effect (SCE).
ISSN:0894-6507
1558-2345
DOI:10.1109/66.999586