Performance of taylor-kuznetsov memories under timing errors

Elsa Dupraz; Bane Vasic; David Declercq

doi:10.1109/ICC.2017.7996548

Performance of taylor-kuznetsov memories under timing errors

Elsa Dupraz, Bane Vasic, David Declercq

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Scopus citations

Abstract

Lowering the power supply of a circuit can induce transient errors in the memory cells and timing errors in the computation units. In this paper, we consider the Taylor-Kuznetsov (TK) memory architecture with transient errors in the memory cells and with timing errors in the correction circuit. We provide a theoretical analysis of the performance of TK memories under transient errors and timing errors. Our study is based on the analysis of the computation trees of the equivalent Gallager B decoders with and without timing errors. As a main result, we show that as the number of iterations goes to infinity, the error probability of the decoder with timing errors converges to the error probability of the decoder without timing errors. Monte Carlo simulations confirm this result even for moderate code lengths.

Original language	English (US)
Title of host publication	2017 IEEE International Conference on Communications, ICC 2017
Editors	Merouane Debbah, David Gesbert, Abdelhamid Mellouk
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781467389990
DOIs	https://doi.org/10.1109/ICC.2017.7996548
State	Published - Jul 28 2017
Event	2017 IEEE International Conference on Communications, ICC 2017 - Paris, France Duration: May 21 2017 → May 25 2017

Publication series

Name	IEEE International Conference on Communications
ISSN (Print)	1550-3607

Other

Other	2017 IEEE International Conference on Communications, ICC 2017
Country/Territory	France
City	Paris
Period	5/21/17 → 5/25/17

ASJC Scopus subject areas

Computer Networks and Communications
Electrical and Electronic Engineering

Access to Document

10.1109/ICC.2017.7996548

Cite this

Dupraz, E., Vasic, B., & Declercq, D. (2017). Performance of taylor-kuznetsov memories under timing errors. In M. Debbah, D. Gesbert, & A. Mellouk (Eds.), 2017 IEEE International Conference on Communications, ICC 2017 Article 7996548 (IEEE International Conference on Communications). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICC.2017.7996548

Performance of taylor-kuznetsov memories under timing errors. / Dupraz, Elsa; Vasic, Bane; Declercq, David.
2017 IEEE International Conference on Communications, ICC 2017. ed. / Merouane Debbah; David Gesbert; Abdelhamid Mellouk. Institute of Electrical and Electronics Engineers Inc., 2017. 7996548 (IEEE International Conference on Communications).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Dupraz, E, Vasic, B & Declercq, D 2017, Performance of taylor-kuznetsov memories under timing errors. in M Debbah, D Gesbert & A Mellouk (eds), 2017 IEEE International Conference on Communications, ICC 2017., 7996548, IEEE International Conference on Communications, Institute of Electrical and Electronics Engineers Inc., 2017 IEEE International Conference on Communications, ICC 2017, Paris, France, 5/21/17. https://doi.org/10.1109/ICC.2017.7996548

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abstract = "Lowering the power supply of a circuit can induce transient errors in the memory cells and timing errors in the computation units. In this paper, we consider the Taylor-Kuznetsov (TK) memory architecture with transient errors in the memory cells and with timing errors in the correction circuit. We provide a theoretical analysis of the performance of TK memories under transient errors and timing errors. Our study is based on the analysis of the computation trees of the equivalent Gallager B decoders with and without timing errors. As a main result, we show that as the number of iterations goes to infinity, the error probability of the decoder with timing errors converges to the error probability of the decoder without timing errors. Monte Carlo simulations confirm this result even for moderate code lengths.",

author = "Elsa Dupraz and Bane Vasic and David Declercq",

note = "Funding Information: This work is funded in part by NSF under grants CCF-1314147 and ECCS-1500170, and supported by Indo-US Science and Technology Forum (IUSSTF) through the Joint Networked Center for Data Storage Research (JC-16-2014-US). Publisher Copyright: {\textcopyright} 2017 IEEE.; 2017 IEEE International Conference on Communications, ICC 2017 ; Conference date: 21-05-2017 Through 25-05-2017",

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N2 - Lowering the power supply of a circuit can induce transient errors in the memory cells and timing errors in the computation units. In this paper, we consider the Taylor-Kuznetsov (TK) memory architecture with transient errors in the memory cells and with timing errors in the correction circuit. We provide a theoretical analysis of the performance of TK memories under transient errors and timing errors. Our study is based on the analysis of the computation trees of the equivalent Gallager B decoders with and without timing errors. As a main result, we show that as the number of iterations goes to infinity, the error probability of the decoder with timing errors converges to the error probability of the decoder without timing errors. Monte Carlo simulations confirm this result even for moderate code lengths.

AB - Lowering the power supply of a circuit can induce transient errors in the memory cells and timing errors in the computation units. In this paper, we consider the Taylor-Kuznetsov (TK) memory architecture with transient errors in the memory cells and with timing errors in the correction circuit. We provide a theoretical analysis of the performance of TK memories under transient errors and timing errors. Our study is based on the analysis of the computation trees of the equivalent Gallager B decoders with and without timing errors. As a main result, we show that as the number of iterations goes to infinity, the error probability of the decoder with timing errors converges to the error probability of the decoder without timing errors. Monte Carlo simulations confirm this result even for moderate code lengths.

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Performance of taylor-kuznetsov memories under timing errors

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