DocumentCode
2197580
Title
Side-channel attack mitigation using dual-spacer Dual-rail Delay-insensitive Logic (D3L)
Author
Cilio, Washington ; Linder, Michael ; Porter, Christopher ; Di, Jia ; Smith, Scott ; Thompson, Dale
Author_Institution
Dept. of Comput. Sci. Comput. Eng., Univ. of Arkansas, Fayetteville, AR, USA
fYear
2010
fDate
18-21 March 2010
Firstpage
471
Lastpage
474
Abstract
Side-channel attacks have become a threat to secure electronic circuits, due to the strong correlation between data pattern and leaking power/timing information. By monitoring the power/timing behavior of a synchronous circuit, an attacker can easily obtain the secret data stored in the device. Although dual-rail asynchronous circuits have more stable power traces, they still show power fluctuation because of the imbalanced load between two rails. Moreover, asynchronous circuits are the most prone to timing attacks since delay is data dependent. Dual-spacer Dual-rail Delay-insensitive Logic (D3L), presented in this paper, is able to mitigate power and timing based side-channel attacks. Power fluctuation is decoupled from data pattern by the use of a dual-spacer protocol, while timing-data correlation is broken by insertion of random delays.
Keywords
asynchronous circuits; cryptography; formal logic; power aware computing; D3L logic; data pattern; dual-spacer dual-rail delay-insensitive logic; dual-spacer protocol; electronic circuits security; power behavior; power fluctuation; side-channel attack; synchronous circuit; timing behavior; timing-data correlation; Asynchronous circuits; Cryptography; Delay; Energy consumption; Hardware; Logic; Noise reduction; Power engineering computing; Power measurement; Timing;
fLanguage
English
Publisher
ieee
Conference_Titel
IEEE SoutheastCon 2010 (SoutheastCon), Proceedings of the
Conference_Location
Concord, NC
Print_ISBN
978-1-4244-5854-7
Type
conf
DOI
10.1109/SECON.2010.5453826
Filename
5453826
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