Technology scaling has been the most obvious choice of designers and chip manufacturing companies to improve the performance of analog and digital circuits. With the ever shrinking technological node, process variations can no longer be ignored and play a significant role in determining the performance of nanoscaled devices. By choosing a worst case design methodology, circuit designers have been very munificent with the design parameters chosen, often manifesting in pessimistic designs with significant area overheads. Significant work has been done in estimating the impact of intra-die process variations on circuit performance, pertinently, noise margin and standby leakage power, for fixed transistor channel dimensions. However, for an opt...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
In this thesis, we have investigated the impact of parametric variations on the behaviour of one per...
As Very Large Scale Integration (VLSI) technology moves to the nanoscale regime, design and manufac...
Variability is one of the most challenging obstacles for IC design in the nanometer regime. In nano...
Device scaling has resulted in large scale integrated, high performance, low-power, and low cost sys...
Robust SRAM design is one of the key challenges of process technology scaling. The steady pace of pr...
Aggressive scaling of transistor dimensions with each technology generation has resulted in increase...
Continued increase in the process variability is perceived to be a major roadblock for future techno...
The downscaling of device geometry towards its physical limits exacerbates the impact of the inevita...
Design variability due to inter-die (D2D) and intra-die (WID) process variations has the potential t...
Abstract—Evaluation results about area scaling capa-bilities of various SRAM margin-assist technique...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...
For robust design of SRAM memories, it is not sufficient to guarantee good statistical margins on th...
As the feature sizes decrease, understanding manufacturing variations becomes essential to effective...
The digital technology in the nanoelectronic era is based on intensive data processing and battery-b...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
In this thesis, we have investigated the impact of parametric variations on the behaviour of one per...
As Very Large Scale Integration (VLSI) technology moves to the nanoscale regime, design and manufac...
Variability is one of the most challenging obstacles for IC design in the nanometer regime. In nano...
Device scaling has resulted in large scale integrated, high performance, low-power, and low cost sys...
Robust SRAM design is one of the key challenges of process technology scaling. The steady pace of pr...
Aggressive scaling of transistor dimensions with each technology generation has resulted in increase...
Continued increase in the process variability is perceived to be a major roadblock for future techno...
The downscaling of device geometry towards its physical limits exacerbates the impact of the inevita...
Design variability due to inter-die (D2D) and intra-die (WID) process variations has the potential t...
Abstract—Evaluation results about area scaling capa-bilities of various SRAM margin-assist technique...
As CMOS technology continuously scales, the process variability becomes a major challenge in designi...
For robust design of SRAM memories, it is not sufficient to guarantee good statistical margins on th...
As the feature sizes decrease, understanding manufacturing variations becomes essential to effective...
The digital technology in the nanoelectronic era is based on intensive data processing and battery-b...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
In this thesis, we have investigated the impact of parametric variations on the behaviour of one per...
As Very Large Scale Integration (VLSI) technology moves to the nanoscale regime, design and manufac...