A Cross-Layer Technology-Based Study of How Memory Errors Impact System Resilience

A Cross-Layer Technology-Based Study of How Memory Errors Impact System Resilience

Highly scaled technologies at and beyond the 22-nm node exhibit increased sensitivity to various scaling-related problems that conspire to reduce the overall reliability of integrated circuits and systems. In prior technology nodes, the assumption was that manufacturing technology was responsible fo...

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Veröffentlicht in:IEEE MICRO 2013-07, Vol.33 (4), p.46-55
Hauptverfasser: Kleeberger, V. B., Gimmler-Dumont, C., Weis, C., Herkersdorf, A., Mueller-Gritschneder, D., Nassif, S. R., Schlichtmann, U., Wehn, N.
Format: Artikel
Sprache:eng
Schlagworte:
computer architecture
cross-layer approach
Data models
design hierarchy
Energy consumption
Error analysis
Integrated circuits
Manufacturing
performance and reliability
Performance evaluation
Reliability
Resilience
Robot sensing systems
scaled technologies
Semiconductor devices
semiconductor memories
technology nodes
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Beschreibung
Zusammenfassung:Highly scaled technologies at and beyond the 22-nm node exhibit increased sensitivity to various scaling-related problems that conspire to reduce the overall reliability of integrated circuits and systems. In prior technology nodes, the assumption was that manufacturing technology was responsible for ensuring device reliability. This basic assumption is no longer tenable. Trying to contain reliability problems purely at the technology level would cause prohibitive increases in power consumption. Thus, a cross-layer approach is required, which spreads the burden of ensuring resilience across multiple levels of the design hierarchy. This article illustrates a methodology for dealing with scaling-related problems via two case studies that link models of low-level technology-related problems to system behavior.
ISSN:0272-1732
1937-4143
DOI:10.1109/MM.2013.67