Journal ArticleDOI
Hardware Trojan Attacks: Threat Analysis and Countermeasures
Swarup Bhunia,Michael S. Hsiao,Mainak Banga,Seetharam Narasimhan +3 more
- Vol. 102, Iss: 8, pp 1229-1247
TLDR
The threat of hardware Trojan attacks is analyzed; attack models, types, and scenarios are presented; different forms of protection approaches are discussed; and emerging attack modes, defenses, and future research pathways are described.Abstract:
Security of a computer system has been traditionally related to the security of the software or the information being processed. The underlying hardware used for information processing has been considered trusted. The emergence of hardware Trojan attacks violates this root of trust. These attacks, in the form of malicious modifications of electronic hardware at different stages of its life cycle, pose major security concerns in the electronics industry. An adversary can mount such an attack with an objective to cause operational failure or to leak secret information from inside a chip-e.g., the key in a cryptographic chip, during field operation. Global economic trend that encourages increased reliance on untrusted entities in the hardware design and fabrication process is rapidly enhancing the vulnerability to such attacks. In this paper, we analyze the threat of hardware Trojan attacks; present attack models, types, and scenarios; discuss different forms of protection approaches, both proactive and reactive; and describe emerging attack modes, defenses, and future research pathways.read more
Citations
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OtherDOI
Proactive Defense Against Security Threats on IoT Hardware
TL;DR: In this paper, the authors summarized three types of potential hardware security threats to IoT devices, including sidechannel analysis attacks, hardware Trojans (HTs), and untrusted software, and introduced the feasibility countermeasures, such as dynamic masking error deflection combined method, power distribution network (PDN) noise-based countermeasure, hardened network on chip (NoC) design, and FPGA-oriented moving target defense.
Journal ArticleDOI
Behavioral-level hardware trust: Analysis and enhancement
TL;DR: Three design-for-trust methods are proposed, which reduce circuit vulnerability to hardware Trojans by increasing the probability of Trojan detection and can improve Trojan detection probability by up to 5 times, with negligible hardware overhead.
Journal ArticleDOI
Towards bidirectional LUT-level detection of hardware Trojans
TL;DR: Huang et al. as discussed by the authors developed a bidirectional mechanism for detecting hardware Trojans in FPGAs at any stage by exploiting both netlists available at the development stage and bitstreams available at deployment stage.
Proceedings ArticleDOI
Covert Communication Channel Detection in Low-Power Battery Operated IoT Devices: Leveraging Power Profiles
TL;DR: This paper leveraged the low and power frugal feature of IoT device to its benefit and shows that the hardware Trojan can be detected by judiciously observing the power profile of the IoT device and proposes that any covert channel activity in such low-power device can distinctly alter the power Profile of such devices.
Book ChapterDOI
A Survey on Hardware Trojan Detection: Alternatives to Destructive Reverse Engineering
TL;DR: A broad overview on different techniques that can be used to detect HT inside a circuit in place of destructive reverse engineering is given in this paper, which gives an overview of the efficiency of the detection techniques used in the literature.
References
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Journal ArticleDOI
A Survey of Hardware Trojan Taxonomy and Detection
TL;DR: A classification of hardware Trojans and a survey of published techniques for Trojan detection are presented.
Proceedings ArticleDOI
Trojan Detection using IC Fingerprinting
TL;DR: These results show that Trojans that are 3-4 orders of magnitude smaller than the main circuit can be detected by signal processing techniques and provide a starting point to address this important problem.
Proceedings ArticleDOI
Hardware Trojan detection using path delay fingerprint
Yier Jin,Yiorgos Makris +1 more
TL;DR: A new behavior-oriented category method is proposed to divide trojans into two categories: explicit payload trojan and implicit payloadtrojan, which makes it possible to construct trojan models and then lower the cost of testing.
Journal ArticleDOI
A taxonomy of computer program security flaws
TL;DR: This survey provides a taxonomy for computer program security flaws, with an Appendix that documents 50 actual security flaws that provide a good introduction to the characteristics of security flaws and how they can arise.
Journal ArticleDOI
Trustworthy Hardware: Identifying and Classifying Hardware Trojans
TL;DR: A proposed new hardware Trojan taxonomy provides a first step in better understanding existing and potential threats.