Add to ORKGIn order to build energy efficient digital CMOS circuits, the supply voltage must be reduced to near-threshold. Problematically, due to random parameter variation, supply scaling reduces circuit robustness to noise. Moreover, the effects of parameter variation worsen as device dimensions diminish, further reducing robustness, and making parameter variation one of the most significant hurdles to continued CMOS scaling. This paper presents a new metric to quantify circuit robustness with respect to variation and noise along with an efficient method of calculation. The method relies on the statistical analysis of standard cells and memories resulting an an extremely compact representation of robustness data. With this metric and method of c...
As device feature sizes shrink to nano-scale, continuous technology scaling has led to a large incre...
In this paper, we present a design approach based on a reassessment of design priorities to obtain r...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...
In order to build energy efficient digital CMOS circuits, the supply voltage must be reduced to near...
Device scaling, the driving force of CMOS technology, led to continuous decrease in the energy level...
As feature sizes of integrated circuits shrink, fluctuations in electrical performance parameters dr...
With the continuous downscaling of CMOS technology, precise control over process parameters has beco...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Near-Threshold Voltage Computing (NTC), where the supply voltage is only slightly higher than the tr...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
CMOS devices have been scaled down aggressively in last few decades resulting in higher integration ...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Advanced CMOS technologies have enabled high density designs at the cost of complex fabrication proc...
As device feature sizes shrink to nano-scale, continuous technology scaling has led to a large incre...
In this paper, we present a design approach based on a reassessment of design priorities to obtain r...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...
In order to build energy efficient digital CMOS circuits, the supply voltage must be reduced to near...
Device scaling, the driving force of CMOS technology, led to continuous decrease in the energy level...
As feature sizes of integrated circuits shrink, fluctuations in electrical performance parameters dr...
With the continuous downscaling of CMOS technology, precise control over process parameters has beco...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Near-Threshold Voltage Computing (NTC), where the supply voltage is only slightly higher than the tr...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
CMOS devices have been scaled down aggressively in last few decades resulting in higher integration ...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Advanced CMOS technologies have enabled high density designs at the cost of complex fabrication proc...
As device feature sizes shrink to nano-scale, continuous technology scaling has led to a large incre...
In this paper, we present a design approach based on a reassessment of design priorities to obtain r...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...