New-Age: A Negative Bias Temperature Instability-Estimation Framework for Microarchitectural Components

New-Age: A Negative Bias Temperature Instability-Estimation Framework for Microarchitectural Components

Degradation of device parameters over the lifetime of a system is emerging as a significant threat to system reliability. Among the aging mechanisms, wearout resulting from Negative Bias Temperature Instability (NBTI) is of particular concern in deep submicron technology generations. While there has...

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Veröffentlicht in:International journal of parallel programming 2009-08, Vol.37 (4), p.417-431
Hauptverfasser: DeBole, Michael, Krishnan, Ramakrishnan, Balakrishnan, Varsha, Wang, Wenping, Luo, Hong, Wang, Yu, Xie, Yuan, Cao, Yu, Vijaykrishnan, N
Format: Artikel
Sprache:eng
Schlagworte:
Age
Aging
Analysis
Bias
Circuits
Computer programming
Computer Science
Lifetime
Microprocessors
Processor Architectures
Reliability
Software Engineering/Programming and Operating Systems
Studies
Temperature
Theory of Computation
Transistors
Workloads
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Zusammenfassung:Degradation of device parameters over the lifetime of a system is emerging as a significant threat to system reliability. Among the aging mechanisms, wearout resulting from Negative Bias Temperature Instability (NBTI) is of particular concern in deep submicron technology generations. While there has been significant effort at the device and circuit level to model and characterize the impact of NBTI, the analysis of NBTI's impact at the architectural level is still at its infancy. To facilitate architectural level aging analysis, a tool capable of evaluating NBTI vulnerabilities early in the design cycle has been developed that evaluates timing degradation due to NBTI. The tool includes workload-based temperature and performance degradation analysis across a variety of technologies and operating conditions, revealing a complex interplay between factors influencing NBTI timing degradation.
ISSN:0885-7458
1573-7640
DOI:10.1007/s10766-009-0104-y