Controlling NBTI degradation during static burn-in testing
Ashutosh Chakraborty,David Z. Pan +1 more
- pp 597-602
TLDR
Experimental results show that the NBTI induced critical path delay degradation can be reduced by more than 50% using the proposed technique, and the technique allows other objectives (such as leakage reduction) to be considered simultaneously.Abstract:
Negative Bias Temperature Instability (NBTI) has emerged as the dominant PMOS device failure mechanism in the nanometer VLSI era. The extent of NBTI degradation of a PMOS device increases dramatically at elevated operating temperature and supply voltage. Unfortunately, both these conditions are concurrently experienced by a VLSI chip during the process of burn-in testing. Our analysis shows that even with a short burn-in duration of 10 hours, the degradation accumulated can be as much as 60% of the NBTI degradation experienced over 10 years of use at nominal conditions. Static burn-in testing in particular is observed to cause most NBTI degradation due to absence of relaxation phase unlike the case for dynamic burn-in testing. The delay of benchmark circuits is observed to increase by over 10% due to static burn-in testing. We propose the first technique to reduce the NBTI degradation during static burn-in test by finding the minimum NBTI induced delay degradation vector (MDDV) based on timing criticality and threshold voltage change (ΔV TH ) sensitivity of the cells. Further, only a subset of the input pins need to be controlled for NBTI reduction, thus our technique allows other objectives (such as leakage reduction) to be considered simultaneously. Experimental results show that the NBTI induced critical path delay degradation can be reduced by more than 50% using our proposed technique.read more
Citations
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The next-generation 64b SPARC core in a T4 SoC processor
Jinuk Luke Shin,Robert T. Golla,Hongping Li,Sudesna Dash,Youngmoon Choi,A. Smith,H. Sathianathan,M. Joshi,Heechoul Park,M. Elgebaly,Sebastian Turullols,Song Kim,Robert P. Masleid,Georgios Konstadinidis,M. J. Doherty,Gregory F. Grohoski,Curtis McAllister +16 more
TL;DR: The T4 microprocessor introduces the next generation dual-issue, out-of-order SPARC core that delivers up to 5x integer and 7x floating-point single-thread performance improvement for both commercial and industry standard work- loads.
Proceedings ArticleDOI
An experiment of burn-in time reduction based on parametric test analysis
TL;DR: It is shown that after 10 hours of burn-in, it is possible to identify a large portion of all parts that do not require longer burn- in time, potentially providing significant cost saving.
Journal ArticleDOI
MAGIC: Malicious Aging in Circuits/Cores
TL;DR: A hardware attack to maliciously accelerate NBTI aging effects in cores by identifying the input patterns that maliciously age the pipestages of a core and craft a program that generates these patterns at the inputs of the targeted pipestage.
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Reliable Power Gating With NBTI Aging Benefits
TL;DR: It is shown that negative bias temperature instability (NBTI) aging of sleep transistors (STs) presents considerable benefits for power-gated circuits, and it reduces static power due to leakage current, and increases ST switch efficiency, making power gating more efficient and effective over time.
Proceedings ArticleDOI
NBTI and leakage aware sleep transistor design for reliable and energy efficient power gating
TL;DR: It is shown that power gating techniques become more effective during their lifetime, since the aging of sleep transistors (STs) due to negative bias temperature instability (NBTI) drastically reduces leakage power.
References
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Proceedings ArticleDOI
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Proceedings ArticleDOI
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TL;DR: This paper presents a predictive model for the negative bias temperature instability (NBTI) of PMOS under both short term and long term operation based on the reaction-diffusion (R-D) mechanism, which accurately captures the dependence of NBTI on the oxide thickness, the diffusing species and other key transistor and design parameters.
Proceedings ArticleDOI
Impact of NBTI on SRAM Read Stability and Design for Reliability
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Journal ArticleDOI
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