期刊
2021 58TH ACM/IEEE DESIGN AUTOMATION CONFERENCE (DAC)
卷 -, 期 -, 页码 127-132出版社
IEEE
DOI: 10.1109/DAC18074.2021.9586258
关键词
-
类别
资金
- NSF IUCRC Center for Hardware and Embedded Systems Security and Trust
- NSF [CCF 1815033, ECCS 1954589]
This study proposes a logic locking scheme utilizing the non-volatility of nanomagnet logic to achieve both physical and algorithmic security. Polymorphic NML minority gates protect the obfuscation key against algorithmic attacks, while a strain-inducing shield surrounding the nanomagnets provides physical security through a self-destruction mechanism.
Prevention of integrated circuit counterfeiting through logic locking faces the fundamental challenge of securing an obfuscation key against both physical and algorithmic threats. Previous work has focused on strengthening the logic encryption to protect the key against algorithmic attacks, but failed to provide adequate physical security. In this work, we propose a logic locking scheme that leverages the non-volatility of the nanomagnet logic (NML) family to achieve both physical and algorithmic security. Polymorphic NML minority gates protect the obfuscation key against algorithmic attacks, while a strain-inducing shield surrounding the nanomagnets provides physical security via a self-destruction mechanism.
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