Application-aware cross-layer reliability analysis and optimization

Michael Glaß; Hananeh Aliee; Liang Chen; Mojtaba Ebrahimi; Faramarz Khosravi; Veit B. Kleeberger; Alexandra Listl; Daniel Müller-Gritschneder; Fabian Oboril; Ulf Schlichtmann; Mehdi B. Tahoori; Jürgen Teich; Norbert Wehn; Christian Weis

doi:10.1515/itit-2014-1080

Application-aware cross-layer reliability analysis and optimization

Michael Glaß, Hananeh Aliee, Liang Chen, Mojtaba Ebrahimi, Faramarz Khosravi, Veit B. Kleeberger, Alexandra Listl, Daniel Müller-Gritschneder, Fabian Oboril, Ulf Schlichtmann, Mehdi B. Tahoori, Jürgen Teich, Norbert Wehn, Christian Weis

Chair of Electronic Design Automation

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The increasing error susceptibility of semiconductor devices has put reliability in the focus of modern design methodologies. Low-level techniques alone cannot economically tackle this problem. Instead, counter measures on all system layers from device and circuit up to the application are required. As these counter measures are not for free, orchestrating them across different layers to achieve optimum trade-offs for the application wrt. reliability but also cost, timeliness, or energy consumption becomes a challenge. This typically requires a combination of analysis techniques to quantify the achieved reliability and optimization techniques that search for the best combination of counter measures. This work presents five recent approaches for application-aware cross-layer reliability optimization from within the embedded domain. Moreover, the Resilience Articulation Point (RAP) as a concept cooperatively developed to model errors across different layers is discussed. The developed approaches are showcased via applications, ranging from MIMO systems to distributed embedded control applications.

Original language	English
Pages (from-to)	159-169
Number of pages	11
Journal	IT - Information Technology
Volume	57
Issue number	3
DOIs	https://doi.org/10.1515/itit-2014-1080
State	Published - 28 Jun 2015

Keywords

Cross-layer analysis
Error abstraction
Optimization
Permanent aging defects
Reliability
Resilience articulation point
Transient soft errors

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1515/itit-2014-1080

Cite this

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title = "Application-aware cross-layer reliability analysis and optimization",

abstract = "The increasing error susceptibility of semiconductor devices has put reliability in the focus of modern design methodologies. Low-level techniques alone cannot economically tackle this problem. Instead, counter measures on all system layers from device and circuit up to the application are required. As these counter measures are not for free, orchestrating them across different layers to achieve optimum trade-offs for the application wrt. reliability but also cost, timeliness, or energy consumption becomes a challenge. This typically requires a combination of analysis techniques to quantify the achieved reliability and optimization techniques that search for the best combination of counter measures. This work presents five recent approaches for application-aware cross-layer reliability optimization from within the embedded domain. Moreover, the Resilience Articulation Point (RAP) as a concept cooperatively developed to model errors across different layers is discussed. The developed approaches are showcased via applications, ranging from MIMO systems to distributed embedded control applications.",

keywords = "Cross-layer analysis, Error abstraction, Optimization, Permanent aging defects, Reliability, Resilience articulation point, Transient soft errors",

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year = "2015",

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doi = "10.1515/itit-2014-1080",

language = "English",

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AU - Glaß, Michael

AU - Aliee, Hananeh

AU - Chen, Liang

AU - Ebrahimi, Mojtaba

AU - Khosravi, Faramarz

AU - Kleeberger, Veit B.

AU - Listl, Alexandra

AU - Müller-Gritschneder, Daniel

AU - Oboril, Fabian

AU - Schlichtmann, Ulf

AU - Tahoori, Mehdi B.

AU - Teich, Jürgen

AU - Wehn, Norbert

AU - Weis, Christian

PY - 2015/6/28

Y1 - 2015/6/28

N2 - The increasing error susceptibility of semiconductor devices has put reliability in the focus of modern design methodologies. Low-level techniques alone cannot economically tackle this problem. Instead, counter measures on all system layers from device and circuit up to the application are required. As these counter measures are not for free, orchestrating them across different layers to achieve optimum trade-offs for the application wrt. reliability but also cost, timeliness, or energy consumption becomes a challenge. This typically requires a combination of analysis techniques to quantify the achieved reliability and optimization techniques that search for the best combination of counter measures. This work presents five recent approaches for application-aware cross-layer reliability optimization from within the embedded domain. Moreover, the Resilience Articulation Point (RAP) as a concept cooperatively developed to model errors across different layers is discussed. The developed approaches are showcased via applications, ranging from MIMO systems to distributed embedded control applications.

AB - The increasing error susceptibility of semiconductor devices has put reliability in the focus of modern design methodologies. Low-level techniques alone cannot economically tackle this problem. Instead, counter measures on all system layers from device and circuit up to the application are required. As these counter measures are not for free, orchestrating them across different layers to achieve optimum trade-offs for the application wrt. reliability but also cost, timeliness, or energy consumption becomes a challenge. This typically requires a combination of analysis techniques to quantify the achieved reliability and optimization techniques that search for the best combination of counter measures. This work presents five recent approaches for application-aware cross-layer reliability optimization from within the embedded domain. Moreover, the Resilience Articulation Point (RAP) as a concept cooperatively developed to model errors across different layers is discussed. The developed approaches are showcased via applications, ranging from MIMO systems to distributed embedded control applications.

KW - Cross-layer analysis

KW - Error abstraction

KW - Optimization

KW - Permanent aging defects

KW - Reliability

KW - Resilience articulation point

KW - Transient soft errors

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Application-aware cross-layer reliability analysis and optimization

Abstract

Keywords

UN SDGs

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