Abstract—With shrinking feature sizes, transistor aging due to NBTI and HCI becomes a major reliability challenge for microprocessors. These processes lead to increased gate delays, more failures during runtime and eventually reduced operational lifetime. Currently, to ensure correct functionality for a certain operational lifetime, additional timing margins are added to the design. However, this approach implies a significant performance loss and may fail to meet reliability requirements. Therefore, aging-aware microarchitecture design is inevitable. In this paper we present ExtraTime, a novel microarchitectural aging analysis framework, which can be used in early design phases when detailed transistor-level information is not yet availabl...
The significance of transistor degradation due to aging mechanisms such as BTI or HCI has increased ...
This research developed a framework which analyzes circuit-level reliability and evaluates the lifet...
Aggressive CMOS technology feature size scaling has been going on for the past decades, while the su...
Bias Temperature Instability (BTI) and Hot Carrier Injection (HCI) are two major causes for transist...
Abstract—As complementary metal–oxide–semiconductor technologies enter nanometer scales, microproces...
Abstract-Degradation of device parameters over the lifetime of a system is emerging as a significant...
As CMOS technologies have shrunk to tens of nanometers, aging problems have emerged as a major chall...
One of the fundamental challenges to the performance gain in advanced semiconductor technologyis agi...
In deeply scaled CMOS technologies, device aging causes transistor performance parameters to degrade...
Abstract—As transistor downsizing continues beyond Moore’s law, new challenges plague its operation,...
University of Minnesota Ph.D. dissertation. April 2010. Major: Electrical Engineering. Advisor: Chri...
The significance of transistor degradation due to aging mechanisms such as BTI or HCI has increased ...
Aggressive CMOS technology feature size down-scaling into the deca nanometer regime, while benefitin...
A novel and comprehensive framework for aging analysis is presented in this work, comprehending degr...
As technology scaling enters the nanometer regime, device aging effects cause quality and reliabilit...
The significance of transistor degradation due to aging mechanisms such as BTI or HCI has increased ...
This research developed a framework which analyzes circuit-level reliability and evaluates the lifet...
Aggressive CMOS technology feature size scaling has been going on for the past decades, while the su...
Bias Temperature Instability (BTI) and Hot Carrier Injection (HCI) are two major causes for transist...
Abstract—As complementary metal–oxide–semiconductor technologies enter nanometer scales, microproces...
Abstract-Degradation of device parameters over the lifetime of a system is emerging as a significant...
As CMOS technologies have shrunk to tens of nanometers, aging problems have emerged as a major chall...
One of the fundamental challenges to the performance gain in advanced semiconductor technologyis agi...
In deeply scaled CMOS technologies, device aging causes transistor performance parameters to degrade...
Abstract—As transistor downsizing continues beyond Moore’s law, new challenges plague its operation,...
University of Minnesota Ph.D. dissertation. April 2010. Major: Electrical Engineering. Advisor: Chri...
The significance of transistor degradation due to aging mechanisms such as BTI or HCI has increased ...
Aggressive CMOS technology feature size down-scaling into the deca nanometer regime, while benefitin...
A novel and comprehensive framework for aging analysis is presented in this work, comprehending degr...
As technology scaling enters the nanometer regime, device aging effects cause quality and reliabilit...
The significance of transistor degradation due to aging mechanisms such as BTI or HCI has increased ...
This research developed a framework which analyzes circuit-level reliability and evaluates the lifet...
Aggressive CMOS technology feature size scaling has been going on for the past decades, while the su...