Hardening techniques for MRAM-based nonvolatile latches and Logic

Yahya Lakys; Weisheng S. Zhao; Jacques Olivier Klein; Claude Chappert

doi:10.1109/TNS.2012.2195677

Hardening techniques for MRAM-based nonvolatile latches and Logic

Yahya Lakys^*
, Weisheng S. Zhao
, Jacques Olivier Klein
, Claude Chappert

^*Corresponding author for this work

Université Paris-Saclay
CNRS

Research output: Contribution to journal › Article › peer-review

49 Scopus citations

Abstract

Magnetic RAM (MRAM) is considered as a promising nonvolatile memory technology for aerospace and avionic electronics thanks to its intrinsic hardness to radiation. Data is stored on the spin direction up and down of electrons instead of positive and negative charge. Thanks to its fast speed, easy integration with CMOS and infinite endurance, MRAM has been proposed to build up nonvolatile latches and logic circuits to overcome the power challenge of conventional CMOS circuits. However, they are vulnerable to single event effects (SEE) due to their CMOS peripheral circuits. Hardening techniques to mitigate SEE are described in this paper. A new design of Radhard MRAM latch is firstly presented. TMR technique is then implemented on configurable logic block (CLB) to mitigate SET on data paths. By using 65 nm design kit and an MRAM compact model, hybrid simulations have been done to demonstrate the radiation hardness and performance.

Original language	English
Article number	6205343
Pages (from-to)	1136-1141
Number of pages	6
Journal	IEEE Transactions on Nuclear Science
Volume	59
Issue number	4 PART 1
DOIs	https://doi.org/10.1109/TNS.2012.2195677
State	Published - 2012
Externally published	Yes

Keywords

Magnetic RAM (MRAM)
SEU
Spintronics
multicontext
nonvolatile
radiation hardness by design

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10.1109/TNS.2012.2195677

Cite this

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title = "Hardening techniques for MRAM-based nonvolatile latches and Logic",

abstract = "Magnetic RAM (MRAM) is considered as a promising nonvolatile memory technology for aerospace and avionic electronics thanks to its intrinsic hardness to radiation. Data is stored on the spin direction up and down of electrons instead of positive and negative charge. Thanks to its fast speed, easy integration with CMOS and infinite endurance, MRAM has been proposed to build up nonvolatile latches and logic circuits to overcome the power challenge of conventional CMOS circuits. However, they are vulnerable to single event effects (SEE) due to their CMOS peripheral circuits. Hardening techniques to mitigate SEE are described in this paper. A new design of Radhard MRAM latch is firstly presented. TMR technique is then implemented on configurable logic block (CLB) to mitigate SET on data paths. By using 65 nm design kit and an MRAM compact model, hybrid simulations have been done to demonstrate the radiation hardness and performance.",

keywords = "Magnetic RAM (MRAM), SEU, Spintronics, multicontext, nonvolatile, radiation hardness by design",

author = "Yahya Lakys and Zhao, \{Weisheng S.\} and Klein, \{Jacques Olivier\} and Claude Chappert",

year = "2012",

doi = "10.1109/TNS.2012.2195677",

language = "英语",

volume = "59",

pages = "1136--1141",

journal = "IEEE Transactions on Nuclear Science",

issn = "0018-9499",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

number = "4 PART 1",

}

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T1 - Hardening techniques for MRAM-based nonvolatile latches and Logic

AU - Lakys, Yahya

AU - Zhao, Weisheng S.

AU - Klein, Jacques Olivier

AU - Chappert, Claude

PY - 2012

Y1 - 2012

N2 - Magnetic RAM (MRAM) is considered as a promising nonvolatile memory technology for aerospace and avionic electronics thanks to its intrinsic hardness to radiation. Data is stored on the spin direction up and down of electrons instead of positive and negative charge. Thanks to its fast speed, easy integration with CMOS and infinite endurance, MRAM has been proposed to build up nonvolatile latches and logic circuits to overcome the power challenge of conventional CMOS circuits. However, they are vulnerable to single event effects (SEE) due to their CMOS peripheral circuits. Hardening techniques to mitigate SEE are described in this paper. A new design of Radhard MRAM latch is firstly presented. TMR technique is then implemented on configurable logic block (CLB) to mitigate SET on data paths. By using 65 nm design kit and an MRAM compact model, hybrid simulations have been done to demonstrate the radiation hardness and performance.

AB - Magnetic RAM (MRAM) is considered as a promising nonvolatile memory technology for aerospace and avionic electronics thanks to its intrinsic hardness to radiation. Data is stored on the spin direction up and down of electrons instead of positive and negative charge. Thanks to its fast speed, easy integration with CMOS and infinite endurance, MRAM has been proposed to build up nonvolatile latches and logic circuits to overcome the power challenge of conventional CMOS circuits. However, they are vulnerable to single event effects (SEE) due to their CMOS peripheral circuits. Hardening techniques to mitigate SEE are described in this paper. A new design of Radhard MRAM latch is firstly presented. TMR technique is then implemented on configurable logic block (CLB) to mitigate SET on data paths. By using 65 nm design kit and an MRAM compact model, hybrid simulations have been done to demonstrate the radiation hardness and performance.

KW - Magnetic RAM (MRAM)

KW - SEU

KW - Spintronics

KW - multicontext

KW - nonvolatile

KW - radiation hardness by design

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Hardening techniques for MRAM-based nonvolatile latches and Logic

Abstract

Keywords

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