@inproceedings{d77b92eb9eee4ccab2d637ff099e62e5,
title = "Workload-And instruction-Aware timing analysis-the missing link between technology and system-level resilience",
abstract = "In today's design of resilient embedded systems, logic circuit components play a key role. Many possible design choices at the gate level, such as implementation architecture or synthe- sis constraints, are vital for the resilience of the entire system. Hence, EDA algorithms at this level have to support exposing technology characteristics (such as process variations or aging) for consideration on higher levels of abstraction. Similarly, key parameters from system level, such as workload or executed processor instructions, have to be considered at lower levels for accurate analysis of, e.g., degradation eects. Circuit-level timing analysis plays a key role in this context as it provides key metrics such as achievable frequency, available timing margins and timing violation vulnerabilities of the analyzed circuit. We present an enhanced static timing analysis which links technology-level eects to system-level and vice versa. Specically, we discuss the accurate and efficient considera- tion of system workload and impact of executed instructions on circuit timing.",
keywords = "Aging, Instructions, Process Variations, Signal Probability, Timing Analysis, Workload",
author = "Kleeberger, {Veit B.} and Maier, {Petra R.} and Ulf Schlichtmann",
year = "2014",
doi = "10.1145/2593069.2596694",
language = "English",
isbn = "9781479930173",
series = "Proceedings - Design Automation Conference",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
booktitle = "DAC 2014 - 51st Design Automation Conference, Conference Proceedings",
note = "51st Annual Design Automation Conference, DAC 2014 ; Conference date: 02-06-2014 Through 05-06-2014",
}