Add to ORKGAbstract This paper presents the impact of time dependent dielectric breakdown (TDDB, also called as gate oxide breakdown) failure on nanoscale digital CMOS Circuits. Recently, TDDB for ultra-thin gate oxides has been considered as one of the critical reliability issues which can lead to performance degradation or logic failures in nanoscale CMOS devices. Also, leakage power in the standby mode can be increased significantly. In this paper, TDDB aging effects on large CMOS digital circuits in the 45nm technology are analyzed. Simulation results show that TDDB effect on MOSFET circuits can result in more significant increase of power consumption compared to delay increase
As technology is scaling down to nano-scale, reliability of the digital integrated circuits is reduc...
International audienceWe present a detailed analysis of Off-state Time Dependent Dielectric Breakdow...
International audienceWe present a detailed analysis of Off-state Time Dependent Dielectric Breakdow...
With the scaling of the CMOS technology and the associated gate oxide thickness, the reliability of ...
Comparing the characteristics of gate voltage shift (delta V-gw) to Time-Dependent Dielectric Breakd...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
Abstract—With aggressive scaling down of the technology node, the time-dependent dielectric breakdow...
Comparing the characteristics of gate voltage shift (DeltaV(gw)) to Time-Dependent Dielectric Breakd...
As technology is scaling down to nano-scale, reliability of the digital integrated circuits is reduc...
International audienceWe present a detailed analysis of Off-state Time Dependent Dielectric Breakdow...
International audienceWe present a detailed analysis of Off-state Time Dependent Dielectric Breakdow...
With the scaling of the CMOS technology and the associated gate oxide thickness, the reliability of ...
Comparing the characteristics of gate voltage shift (delta V-gw) to Time-Dependent Dielectric Breakd...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
The microelectronics industry has invaded our daily lives, particularly in the communication, automo...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
session 5A: Gate dielectrics reliabilityInternational audienceThis paper deals with oxide breakdown ...
Abstract—With aggressive scaling down of the technology node, the time-dependent dielectric breakdow...
Comparing the characteristics of gate voltage shift (DeltaV(gw)) to Time-Dependent Dielectric Breakd...
As technology is scaling down to nano-scale, reliability of the digital integrated circuits is reduc...
International audienceWe present a detailed analysis of Off-state Time Dependent Dielectric Breakdow...
International audienceWe present a detailed analysis of Off-state Time Dependent Dielectric Breakdow...