Process variability is a challenging fabrication issue impacting, mainly, the reliability and performance of chips. Variability is already present in current technology nodes and is expected to become even more significant in the future. In this work, we focus on the study of performance variation in 16nm FinFET FPGAs. We devise a comprehensive assessment methodology based on multiple programmable sensors with diverse resource and delay characteristics. Additionally, we consider various voltage and temperature conditions and decouple variability to systematic and stochastic. The experimental results on Zynq XCZU7EV show up to 7.3% intra-die variation increasing to 9.9% for certain operating conditions. Our approach demonstrates that logic a...
Abstract—As the trend towards increasing semiconductor miniaturization continues, maintaining unifor...
A simple device-level characterization approach to quantitatively evaluate the impacts of different ...
FinFETs operated with varying bias, and in particular with Short-circuited Gates (SG) or Independent...
The mitigation of process variability becomes paramount as chip fabrication advances deeper into the...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
Abstract—Negative bias temperature instability (NBTI) signif-icantly affects nanoscale integrated ci...
we propose a process and device design strategy for L-g = 14 nm Si bulk n/p-FinFETs based on the eff...
This paper presents a comprehensive simulation study of the interactions between long-range process ...
Continued miniaturization of semiconductor technology to nanoscale dimensions has elevated reliabili...
A nearly insatiable appetite for the latest electronic device enables the electronic technology sect...
As processor clock frequencies become faster, architecture-level design is becoming increasingly lim...
International audienceAdvanced CMOS devices are increasingly affected by various kinds of process va...
The technology scaling impact on FinFET-based Field-Programmable Gate Array (FPGA) components (Flip-...
Advanced CMOS devices are increasingly affected by various kinds of process variations. Whereas the ...
The Green’s Function based TCAD device variability analysis is extended to allow for temperature-dep...
Abstract—As the trend towards increasing semiconductor miniaturization continues, maintaining unifor...
A simple device-level characterization approach to quantitatively evaluate the impacts of different ...
FinFETs operated with varying bias, and in particular with Short-circuited Gates (SG) or Independent...
The mitigation of process variability becomes paramount as chip fabrication advances deeper into the...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
Abstract—Negative bias temperature instability (NBTI) signif-icantly affects nanoscale integrated ci...
we propose a process and device design strategy for L-g = 14 nm Si bulk n/p-FinFETs based on the eff...
This paper presents a comprehensive simulation study of the interactions between long-range process ...
Continued miniaturization of semiconductor technology to nanoscale dimensions has elevated reliabili...
A nearly insatiable appetite for the latest electronic device enables the electronic technology sect...
As processor clock frequencies become faster, architecture-level design is becoming increasingly lim...
International audienceAdvanced CMOS devices are increasingly affected by various kinds of process va...
The technology scaling impact on FinFET-based Field-Programmable Gate Array (FPGA) components (Flip-...
Advanced CMOS devices are increasingly affected by various kinds of process variations. Whereas the ...
The Green’s Function based TCAD device variability analysis is extended to allow for temperature-dep...
Abstract—As the trend towards increasing semiconductor miniaturization continues, maintaining unifor...
A simple device-level characterization approach to quantitatively evaluate the impacts of different ...
FinFETs operated with varying bias, and in particular with Short-circuited Gates (SG) or Independent...