Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs

Cezar Reinbrecht; Abdullah Aljuffri; Said Hamdioui; Mottaqiallah Taouil; Bruno Forlin; Johanna Sepulveda

doi:10.1109/ISVLSI49217.2020.000-1

Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs

Cezar Reinbrecht
, Abdullah Aljuffri
, Said Hamdioui
, Mottaqiallah Taouil
, Bruno Forlin
, Johanna Sepulveda

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

12 Citations (Scopus)

Abstract

Multi-Processor System-on-Chips (MPSoCs) are popular computational platforms for a wide variety of applications due to their energy efficiency and flexibility. Like many other platforms they are vulnerable to Side Channel Attacks (SCAs). In particular, Logical SCAs (LSCAs) are very powerful as sensitive information can be retrieved by simply observing system properties that depend on the victim's software execution on the MPSoC. Unfortunately, many of the current protection mechanisms are either platform dependent or are effective only against a reduced set of attacks. In this work, we present Guard-NoC, a secure Network-on-Chip (NoC) architecture able to protect MPSoCs against a wide variety of LSCAs. The secure NoC employs three application-independent strategies to hide and isolate sensitive information: i) blinding the execution time of operations; ii) masking the execution time of operations; and iii) dual communication strategy (i.e., use packet and circuit switching simultaneously). Our results show that our secure NoC is resilient against practical LSCAs and leaks almost no information while having a minimal area and power overhead.

Original language	English
Title of host publication	2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)
Publisher	IEEE Advancing Technology for Humanity
Pages	536-541
Number of pages	6
ISBN (Electronic)	978-1-7281-5775-7
ISBN (Print)	978-1-7281-5776-4
DOIs	https://doi.org/10.1109/ISVLSI49217.2020.000-1
Publication status	Published - 8 Jul 2020
Externally published	Yes
Event	2020 IEEE Computer Society Annual Symposium on VLSI, ISVLSI 2020 - GrandResort, Limassol, Cyprus Duration: 6 Jul 2020 → 8 Jul 2020 https://ieee-isvlsi.github.io/ISVLSI_2020_Website/

Publication series

Name	IEEE Computer Society Annual Symposium on VLSI
Publisher	IEEE
Volume	2020
ISSN (Print)	2159-3469
ISSN (Electronic)	2159-3477

Conference

Conference	2020 IEEE Computer Society Annual Symposium on VLSI, ISVLSI 2020
Abbreviated title	ISVLSI 2020
Country/Territory	Cyprus
City	Limassol
Period	6/07/20 → 8/07/20
Internet address	https://ieee-isvlsi.github.io/ISVLSI_2020_Website/

Keywords

n/a OA procedure
Hardware
Switching circuits
Side-channel attacks
Encryption
Software
Timing

Access to Document

10.1109/ISVLSI49217.2020.000-1

Cite this

Reinbrecht, C., Aljuffri, A., Hamdioui, S., Taouil, M., Forlin, B., & Sepulveda, J. (2020). Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs. In 2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI) (pp. 536-541). Article 9154989 (IEEE Computer Society Annual Symposium on VLSI; Vol. 2020). IEEE Advancing Technology for Humanity. https://doi.org/10.1109/ISVLSI49217.2020.000-1

@inproceedings{ac0da078ffdf4365bdd73e8b499c24c3,

title = "Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs",

abstract = "Multi-Processor System-on-Chips (MPSoCs) are popular computational platforms for a wide variety of applications due to their energy efficiency and flexibility. Like many other platforms they are vulnerable to Side Channel Attacks (SCAs). In particular, Logical SCAs (LSCAs) are very powerful as sensitive information can be retrieved by simply observing system properties that depend on the victim's software execution on the MPSoC. Unfortunately, many of the current protection mechanisms are either platform dependent or are effective only against a reduced set of attacks. In this work, we present Guard-NoC, a secure Network-on-Chip (NoC) architecture able to protect MPSoCs against a wide variety of LSCAs. The secure NoC employs three application-independent strategies to hide and isolate sensitive information: i) blinding the execution time of operations; ii) masking the execution time of operations; and iii) dual communication strategy (i.e., use packet and circuit switching simultaneously). Our results show that our secure NoC is resilient against practical LSCAs and leaks almost no information while having a minimal area and power overhead.",

keywords = "n/a OA procedure, Hardware, Switching circuits, Side-channel attacks, Encryption, Software, Timing",

author = "Cezar Reinbrecht and Abdullah Aljuffri and Said Hamdioui and Mottaqiallah Taouil and Bruno Forlin and Johanna Sepulveda",

note = "{\textcopyright}2020 IEEE.; 2020 IEEE Computer Society Annual Symposium on VLSI, ISVLSI 2020, ISVLSI 2020 ; Conference date: 06-07-2020 Through 08-07-2020",

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Reinbrecht, C, Aljuffri, A, Hamdioui, S, Taouil, M, Forlin, B & Sepulveda, J 2020, Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs. in 2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)., 9154989, IEEE Computer Society Annual Symposium on VLSI, vol. 2020, IEEE Advancing Technology for Humanity, pp. 536-541, 2020 IEEE Computer Society Annual Symposium on VLSI, ISVLSI 2020, Limassol, Cyprus, 6/07/20. https://doi.org/10.1109/ISVLSI49217.2020.000-1

Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs. / Reinbrecht, Cezar; Aljuffri, Abdullah; Hamdioui, Said et al.
2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI). IEEE Advancing Technology for Humanity, 2020. p. 536-541 9154989 (IEEE Computer Society Annual Symposium on VLSI; Vol. 2020).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Guard-NoC

T2 - 2020 IEEE Computer Society Annual Symposium on VLSI, ISVLSI 2020

AU - Reinbrecht, Cezar

AU - Aljuffri, Abdullah

AU - Hamdioui, Said

AU - Taouil, Mottaqiallah

AU - Forlin, Bruno

AU - Sepulveda, Johanna

PY - 2020/7/8

Y1 - 2020/7/8

N2 - Multi-Processor System-on-Chips (MPSoCs) are popular computational platforms for a wide variety of applications due to their energy efficiency and flexibility. Like many other platforms they are vulnerable to Side Channel Attacks (SCAs). In particular, Logical SCAs (LSCAs) are very powerful as sensitive information can be retrieved by simply observing system properties that depend on the victim's software execution on the MPSoC. Unfortunately, many of the current protection mechanisms are either platform dependent or are effective only against a reduced set of attacks. In this work, we present Guard-NoC, a secure Network-on-Chip (NoC) architecture able to protect MPSoCs against a wide variety of LSCAs. The secure NoC employs three application-independent strategies to hide and isolate sensitive information: i) blinding the execution time of operations; ii) masking the execution time of operations; and iii) dual communication strategy (i.e., use packet and circuit switching simultaneously). Our results show that our secure NoC is resilient against practical LSCAs and leaks almost no information while having a minimal area and power overhead.

AB - Multi-Processor System-on-Chips (MPSoCs) are popular computational platforms for a wide variety of applications due to their energy efficiency and flexibility. Like many other platforms they are vulnerable to Side Channel Attacks (SCAs). In particular, Logical SCAs (LSCAs) are very powerful as sensitive information can be retrieved by simply observing system properties that depend on the victim's software execution on the MPSoC. Unfortunately, many of the current protection mechanisms are either platform dependent or are effective only against a reduced set of attacks. In this work, we present Guard-NoC, a secure Network-on-Chip (NoC) architecture able to protect MPSoCs against a wide variety of LSCAs. The secure NoC employs three application-independent strategies to hide and isolate sensitive information: i) blinding the execution time of operations; ii) masking the execution time of operations; and iii) dual communication strategy (i.e., use packet and circuit switching simultaneously). Our results show that our secure NoC is resilient against practical LSCAs and leaks almost no information while having a minimal area and power overhead.

KW - n/a OA procedure

KW - Hardware

KW - Switching circuits

KW - Side-channel attacks

KW - Encryption

KW - Software

KW - Timing

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M3 - Conference contribution

SN - 978-1-7281-5776-4

T3 - IEEE Computer Society Annual Symposium on VLSI

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EP - 541

BT - 2020 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)

PB - IEEE Advancing Technology for Humanity

Y2 - 6 July 2020 through 8 July 2020

ER -

Guard-NoC: A Protection Against Side-Channel Attacks for MPSoCs

Abstract

Publication series

Conference

Keywords

Access to Document

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Cite this