Impact of back gate biasing schemes on energy and robustness of ULV logic in 28nm UTBB FDSOI technology

Minimum energy per operation is typically achieved in the subthreshold region where low speed and low robustness are two challenging problems. This paper studies the impact of Back Biasing (BB) schemes on these features for FDSOI technology. We show that Forward BB can help cover a wider design spac...

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Bibliographic Details
Published inProceedings of the 2013 International Symposium on Low Power Electronics and Design pp. 255 - 260
Main Authors de Streel, Guerric, Bol, David
Format Conference Proceeding
LanguageEnglish
Published Piscataway, NJ, USA IEEE Press 04.09.2013
SeriesACM Conferences
Subjects
Applied computing > Physical sciences and engineering > Electronics
Hardware > Integrated circuits > Logic circuits
ultra-low-voltage
28nm
CMOS FDSOI
robustness
back gate biasing
die yield
ultra-low power
subthreshold logic
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ISBN1479912352
9781479912353
DOI10.5555/2648668.2648733

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Summary:Minimum energy per operation is typically achieved in the subthreshold region where low speed and low robustness are two challenging problems. This paper studies the impact of Back Biasing (BB) schemes on these features for FDSOI technology. We show that Forward BB can help cover a wider design space in term of optimal frequency of operation while keeping minimum energy. Asymmetric BB between NMOS and PMOS can mitigate the effect of systematic mismatch on Minimum Energy Point (MEP) and robustness. With optimal asymmetric BB, we achieve either a MEP reduction up to 18% or a 36X speedup at the MEP.
ISBN:1479912352
9781479912353
DOI:10.5555/2648668.2648733