Security Analysis of Lightweight loT Encryption Algorithms: SIMON and SIMECK

Ashutosh Dhar Dwivedi; Gautam Srivastava

doi:10.1016/j.iot.2022.100677

Security Analysis of Lightweight loT Encryption Algorithms: SIMON and SIMECK

Ashutosh Dhar Dwivedi^*, Gautam Srivastava

^*Corresponding author af dette arbejde

Institut for Digitalisering

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Abstract

This paper presents the differential cryptanalysis of two lightweight ciphers, namely, SIMON and SIMECK. The first cipher SIMON was presented by the U.S. National Security Agency in 2013 and the second one SIMECK was presented by researchers from the University of Waterloo, Canada in 2015. Both block ciphers belong to the lightweight encryption family that relies on the Feistel structure. The primary goal of making a differential attack is finding a high probability differential characteristic (path) for the cipher. However, finding a differential characteristic in a limited amount of time is the most challenging and take several hours, which can possibly be reduced by a heuristic approach. This paper used nested tree search-based methods to find differential paths and presented a state of art results but in reduced time and simpler framework.

Originalsprog	Engelsk
Artikelnummer	100677
Tidsskrift	Internet of Things
Vol/bind	21
Antal sider	11
ISSN	2543-1536
DOI	https://doi.org/10.1016/j.iot.2022.100677
Status	Udgivet - apr. 2023

Bibliografisk note

Published online: 6 January 2023.

Emneord

Differential cryptanalysis
ARX ciphers
Lightweight encryption
Nested tree search
Heuristic techniques
Block ciphers
Internet of things (iot)

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Citationsformater

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abstract = "This paper presents the differential cryptanalysis of two lightweight ciphers, namely, SIMON and SIMECK. The first cipher SIMON was presented by the U.S. National Security Agency in 2013 and the second one SIMECK was presented by researchers from the University of Waterloo, Canada in 2015. Both block ciphers belong to the lightweight encryption family that relies on the Feistel structure. The primary goal of making a differential attack is finding a high probability differential characteristic (path) for the cipher. However, finding a differential characteristic in a limited amount of time is the most challenging and take several hours, which can possibly be reduced by a heuristic approach. This paper used nested tree search-based methods to find differential paths and presented a state of art results but in reduced time and simpler framework.",

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author = "Dwivedi, {Ashutosh Dhar} and Gautam Srivastava",

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AU - Dwivedi, Ashutosh Dhar

AU - Srivastava, Gautam

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PY - 2023/4

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N2 - This paper presents the differential cryptanalysis of two lightweight ciphers, namely, SIMON and SIMECK. The first cipher SIMON was presented by the U.S. National Security Agency in 2013 and the second one SIMECK was presented by researchers from the University of Waterloo, Canada in 2015. Both block ciphers belong to the lightweight encryption family that relies on the Feistel structure. The primary goal of making a differential attack is finding a high probability differential characteristic (path) for the cipher. However, finding a differential characteristic in a limited amount of time is the most challenging and take several hours, which can possibly be reduced by a heuristic approach. This paper used nested tree search-based methods to find differential paths and presented a state of art results but in reduced time and simpler framework.

AB - This paper presents the differential cryptanalysis of two lightweight ciphers, namely, SIMON and SIMECK. The first cipher SIMON was presented by the U.S. National Security Agency in 2013 and the second one SIMECK was presented by researchers from the University of Waterloo, Canada in 2015. Both block ciphers belong to the lightweight encryption family that relies on the Feistel structure. The primary goal of making a differential attack is finding a high probability differential characteristic (path) for the cipher. However, finding a differential characteristic in a limited amount of time is the most challenging and take several hours, which can possibly be reduced by a heuristic approach. This paper used nested tree search-based methods to find differential paths and presented a state of art results but in reduced time and simpler framework.

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KW - Heuristic techniques

KW - Block ciphers

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KW - ARX ciphers

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KW - Nested tree search

KW - Heuristic techniques

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