DocumentCode
1757267
Title
Security Analysis of Industrial Test Compression Schemes
Author
Das, Aruneema ; Ege, Baris ; Ghosh, Sudip ; Batina, Lejla ; Verbauwhede, Ingrid
Author_Institution
Dept. of Electr. Eng., KU Leuven, Leuven-Heverlee, Belgium
Volume
32
Issue
12
fYear
2013
fDate
Dec. 2013
Firstpage
1966
Lastpage
1977
Abstract
Test compression is widely used for reducing test time and cost of a very large scale integration circuit. It is also claimed to provide security against scan-based side-channel attacks. This paper pursues the legitimacy of this claim and presents scan attack vulnerabilities of test compression schemes used in commercial electronic design automation tools. A publicly available advanced encryption standard design is used and test compression structures provided by Synopsys, Cadence, and Mentor Graphics design for testability tools are inserted into the design. Experimental results of the differential scan attacks employed in this paper suggest that tools using X-masking and X-tolerance are vulnerable and leak information about the secret key. Differential scan attacks on these schemes have been demonstrated to have a best case success rate of 94.22% and 74.94%, respectively, for a random scan design. On the other hand, time compaction seems to be the strongest choice with the best case success rate of 3.55%. In addition, similar attacks are also performed on existing scan attack countermeasures proposed in the literature, thus experimentally evaluating their practical security. Finally, a suitable countermeasure is proposed and compared to the previously proposed countermeasures.
Keywords
VLSI; cryptography; data privacy; design for testability; electronic design automation; integrated circuit design; integrated circuit testing; Cadence design for testability tool; Mentor Graphics design for testability tool; Synopsys design for testability tool; X-masking tool; X-tolerance tool; advanced encryption standard design; commercial electronic design automation tool; cost reduction; industrial test compression scheme; random scan design; scan-based side-channel attack countermeasure; secret key information; security analysis; test time reduction; very large scale integration circuit; Design automation; Design for testability; Encryption; Test data compression; Very large scale integration; Adaptive scan; countermeasures; embedded deterministic test; on-product multiple input signature register (OPMISR); scan attack; security; test compression;
fLanguage
English
Journal_Title
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
Publisher
ieee
ISSN
0278-0070
Type
jour
DOI
10.1109/TCAD.2013.2274619
Filename
6663238
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