TY - GEN
T1 - Asymmetric Aging Avoidance EDA Tool
AU - Gabbay, Freddy
AU - Mendelson, Avi
AU - Salameh, Basel
AU - Ganaiem, Majd
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/8/23
Y1 - 2021/8/23
N2 - The latest process technologies have become highly susceptible to asymmetric aging, whereby the timing of logical elements degrades at unequal rates over the element lifetime, causing severe reliability concerns. Although several tools are available to handle asymmetric aging, such tools mainly rely on circuit or physical design approaches and offer a limited capability to handle large-scale ICs. In this paper, we introduce a flow and a tool to minimize the asymmetric aging effect in data path design structures. The proposed tool can be straightforwardly integrated as part of standard design flows of large-scale ICs. In addition, the tool can automatically analyze various designs at RTL or gate-level and identify logical elements which are suspectable to asymmetric aging. As part of the design flow, the tool automatically embeds a special logical circuitry in the design to eliminate asymmetric aging. Our experimental analysis shows that the proposed design flow can minimize the asymmetric aging effect and eliminate reliability concerns while introducing minor power and silicon area overhead.
AB - The latest process technologies have become highly susceptible to asymmetric aging, whereby the timing of logical elements degrades at unequal rates over the element lifetime, causing severe reliability concerns. Although several tools are available to handle asymmetric aging, such tools mainly rely on circuit or physical design approaches and offer a limited capability to handle large-scale ICs. In this paper, we introduce a flow and a tool to minimize the asymmetric aging effect in data path design structures. The proposed tool can be straightforwardly integrated as part of standard design flows of large-scale ICs. In addition, the tool can automatically analyze various designs at RTL or gate-level and identify logical elements which are suspectable to asymmetric aging. As part of the design flow, the tool automatically embeds a special logical circuitry in the design to eliminate asymmetric aging. Our experimental analysis shows that the proposed design flow can minimize the asymmetric aging effect and eliminate reliability concerns while introducing minor power and silicon area overhead.
KW - Asymmetric Aging
KW - Asymmetric Aging aware EDA
KW - Bias Temperature Instability
KW - Reliability
UR - http://www.scopus.com/inward/record.url?scp=85116294932&partnerID=8YFLogxK
U2 - 10.1109/SBCCI53441.2021.9529984
DO - 10.1109/SBCCI53441.2021.9529984
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AN - SCOPUS:85116294932
T3 - Proceedings - 34th SBC/SBMicro/IEEE/ACM Symposium on Integrated Circuits and Systems Design, SBCCI 2021
BT - Proceedings - 34th SBC/SBMicro/IEEE/ACM Symposium on Integrated Circuits and Systems Design, SBCCI 2021
T2 - 34th SBC/SBMicro/IEEE/ACM Symposium on Integrated Circuits and Systems Design, SBCCI 2021
Y2 - 23 August 2021 through 27 August 2021
ER -