Add to ORKGAbstract—With aggressive scaling down of the technology node, the time-dependent dielectric breakdown (TDDB) and negative biased temperature instability (NBTI) are becoming key challenges for circuit designers. Both TDDB and NBTI significantly degrade the electrical characteristic of the CMOS devices. A delay model considering TDDB and NBTI is proposed in this paper. The output degradation of the breakdown gate is considered in circuit-level delay analysis. Traditionally, it is considered the TDDB degradation always degrades the circuit delay. However, this paper shows the TDDB effect may boost up the circuit speed. The spatial correlation of TDDB effect is also demonstrated in this paper and shows the difference of 40 % in circuit delay de...
L'auteur n'a pas fourni de résumé en français.Integrated circuits evolution is driven by the trend o...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
Abstract-With integrated circnits scale into the nano-scale era, aging effect becomes one of the mos...
Abstract This paper presents the impact of time dependent dielectric breakdown (TDDB, also called as...
As technology further scales semiconductor devices, aging-induced device degradation has become one ...
Negative-bias-temperature-instability (NBTI) has become the primary limiting factor of circuit lifet...
The development of CMOS technology is a double-edged sword: for one thing, it provides faster,lowerp...
With the scaling of the CMOS technology and the associated gate oxide thickness, the reliability of ...
In this sliide presentation the statistical impact of PMOS Negative Bias Temperature Instability (NB...
Abstract-Bias Temperature Instability (BTI) becomes one of the most important reliability issues for...
Technology scaling along with the process developments has resulted in performance improvement of th...
For sub-65nm technology nodes, Negative Bias Temperature Instability (NBTI) has become a primary lim...
We experimentally and theoretically investigate the NBTI degradation of pMOS devices due to analog s...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
L'auteur n'a pas fourni de résumé en français.Integrated circuits evolution is driven by the trend o...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
Abstract-With integrated circnits scale into the nano-scale era, aging effect becomes one of the mos...
Abstract This paper presents the impact of time dependent dielectric breakdown (TDDB, also called as...
As technology further scales semiconductor devices, aging-induced device degradation has become one ...
Negative-bias-temperature-instability (NBTI) has become the primary limiting factor of circuit lifet...
The development of CMOS technology is a double-edged sword: for one thing, it provides faster,lowerp...
With the scaling of the CMOS technology and the associated gate oxide thickness, the reliability of ...
In this sliide presentation the statistical impact of PMOS Negative Bias Temperature Instability (NB...
Abstract-Bias Temperature Instability (BTI) becomes one of the most important reliability issues for...
Technology scaling along with the process developments has resulted in performance improvement of th...
For sub-65nm technology nodes, Negative Bias Temperature Instability (NBTI) has become a primary lim...
We experimentally and theoretically investigate the NBTI degradation of pMOS devices due to analog s...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
L'auteur n'a pas fourni de résumé en français.Integrated circuits evolution is driven by the trend o...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...
As we enter into sub-nanometer technologies in order to increase performance of CMOS devices, reliab...