Rejuvenation of nanoscale logic at NBTI-critical paths using evolutionary TPG

One of the main reliability concerns in the nanoscale logic is the time-dependent variation caused by Negative Bias Temperature Instability (NBTI). It increases the threshold voltage of pMOS transistors, which slows down signal propagation along the paths between flip-flops. As a consequence, NBTI m...

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Main Authors: Palermo, N., Tihhomirov, V., Copetti, T. S., Jenihhin, M., Raik, J., Kostin, S., Gaudesi, M., Squillero, G., Sonza Reorda, M., Vargas, F., Bolzani Poehls, L.
Format: Conference Proceeding
Language:English
Subjects:
Aging
critical path identification
Degradation
Delays
Evolutionary computation
hardware rejuvenation
logic circuit
Logic gates
MicroGP
MOSFET
Nanoscale devices
NBTI
zamiaCAD
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creator Palermo, N.
Tihhomirov, V.
Copetti, T. S.
Jenihhin, M.
Raik, J.
Kostin, S.
Gaudesi, M.
Squillero, G.
Sonza Reorda, M.
Vargas, F.
Bolzani Poehls, L.
description One of the main reliability concerns in the nanoscale logic is the time-dependent variation caused by Negative Bias Temperature Instability (NBTI). It increases the threshold voltage of pMOS transistors, which slows down signal propagation along the paths between flip-flops. As a consequence, NBTI may cause transient faults and, ultimately, permanent circuit functional failure. In this paper, we propose an innovative NBTI mitigation approach by rejuvenation of nanoscale logic along NBTI-critical paths. The method is based on hierarchical NBTI-critical paths identification and rejuvenation stimuli generation using an Evolutionary Algorithm. The rejuvenation stimuli are used to drive to the recovery phase the pMOS transistors that are the most significant for the NBTI-induced path delay. This rejuvenation procedure is to be applied to the circuit as an execution overhead at predefined periods. The proposed approach is aimed at extending the reliable lifetime of nanoelectronics. Experimental results are demonstrated by electrical simulations of an ALU circuit design.
doi_str_mv 10.1109/LATW.2015.7102405
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S.</au><au>Jenihhin, M.</au><au>Raik, J.</au><au>Kostin, S.</au><au>Gaudesi, M.</au><au>Squillero, G.</au><au>Sonza Reorda, M.</au><au>Vargas, F.</au><au>Bolzani Poehls, L.</au><format>book</format><genre>proceeding</genre><ristype>CONF</ristype><atitle>Rejuvenation of nanoscale logic at NBTI-critical paths using evolutionary TPG</atitle><btitle>2015 16th Latin-American Test Symposium (LATS)</btitle><stitle>LATW</stitle><date>2015-03-01</date><risdate>2015</risdate><spage>1</spage><epage>6</epage><pages>1-6</pages><issn>2373-0862</issn><eisbn>9781467367103</eisbn><eisbn>1467367109</eisbn><abstract>One of the main reliability concerns in the nanoscale logic is the time-dependent variation caused by Negative Bias Temperature Instability (NBTI). It increases the threshold voltage of pMOS transistors, which slows down signal propagation along the paths between flip-flops. As a consequence, NBTI may cause transient faults and, ultimately, permanent circuit functional failure. 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source IEEE Xplore All Conference Series
subjects Aging
critical path identification
Degradation
Delays
Evolutionary computation
hardware rejuvenation
logic circuit
Logic gates
MicroGP
MOSFET
Nanoscale devices
NBTI
zamiaCAD
title Rejuvenation of nanoscale logic at NBTI-critical paths using evolutionary TPG
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