Ultra-low voltage large-scale integrated circuits (LSIs) in nano-scale technologies are needed to:

-Meet the needs of a rapidly growing mobile cell phone market
-Offset a significant increase in the power dissipation of high-end microprocessor units.

Low power large capacity memories are a necessary component of low voltage LSIs. Many challenges arise in the process of achieving such memories as their devices and voltages are scaled down below 100nm and sub-1-V. A high signal-to-noise (S/N) ratio design is necessary to deal with small signal voltages from low-voltage...

Ultra-low voltage large-scale integrated circuits (LSIs) in nano-scale technologies are needed to:

-Meet the needs of a rapidly growing mobile cell phone market
-Offset a significant increase in the power dissipation of high-end microprocessor units.

Low power large capacity memories are a necessary component of low voltage LSIs. Many challenges arise in the process of achieving such memories as their devices and voltages are scaled down below 100nm and sub-1-V. A high signal-to-noise (S/N) ratio design is necessary to deal with small signal voltages from low-voltage...