Abstract: Device and test chip measurements show that forward body bias (FBB) can be used effectively to improve performance and reduce complexity of a ...

Device and test chip measurements show that forward body bias (FBB) can be used effectively to improve performance and reduce complexity of a 130-nm ...

It has been shown that, Forward Body Bias (FBB) is the most effective way to reduce both active and leakage power, while improving the performance of circuits ...

This paper proposes a methodology to alleviate the impact of process variation on the performance of MTJ based applications. The methodology is presented by ...

De, “Forward body bias for microprocessors in 130-nm technology generation and beyond,” IEEE J. Solid-State Circuits, vol. 38, no. 5, pp. 696–701, May 2003 ...

Jan 1, 2010 · Narendra, et al., “Forward Body Bias for Microprocessors in 130-nm. Technology Generation and Beyond,” IEEE Journal of Solid-State. Circuits ...

Bridge defect detection in nanometer CMOS circuits using Low VDD and body bias ... Forward body bias for microprocessors in 130nm technology generation and beyond.

Forward body bias for microprocessors in 130 nm technology generation and beyond ... Through forward body bias (FBB), the threshold voltage of the CMOS ...

We present techniques to determine the optimal body bias. (forward or reverse) to minimize leakage current and compensate process variations in scaled CMOS ...

Aug 30, 2019 · “Forward body bias for microprocessors in 130-nm technology generation and beyond,” IEEE Journal of Solid-State Circuits, vol. 38 no. 5, pp ...