Stealth assessment of hardware Trojans in a microcontroller

Trey Reece; Daniel B. Limbrick; Xiaowen Wang; Bradley T. Kiddie; William H. Robinson

doi:10.1109/iccd.2012.6378631

Stealth assessment of hardware Trojans in a microcontroller

Trey Reece
, Daniel B. Limbrick
, Xiaowen Wang
, Bradley T. Kiddie
, William H. Robinson

Electrical and Computer Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Many experimental hardware Trojans from the literature explore the potential threat vectors, but do not address the stealthiness of the malicious hardware. If a Trojan requires a large amount of area or power, then it can be easier to detect. Instead, a more focused attack can potentially avoid detection. This paper explores the cost in both area and power consumption of several small, focused attacks on an Intel 8051 microcontroller implemented with a standard cell library. The resulting cost in total area varied from a 0.4% increase in the design, down to a 0.150% increase in the design. Dynamic and leakage power showed similar results. © 2012 IEEE.

Original language	English
Title of host publication	2012 IEEE 30th International Conference on Computer Design, ICCD 2012
DOIs	https://doi.org/10.1109/iccd.2012.6378631
State	Published - 2012

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10.1109/iccd.2012.6378631

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title = "Stealth assessment of hardware Trojans in a microcontroller",

abstract = "Many experimental hardware Trojans from the literature explore the potential threat vectors, but do not address the stealthiness of the malicious hardware. If a Trojan requires a large amount of area or power, then it can be easier to detect. Instead, a more focused attack can potentially avoid detection. This paper explores the cost in both area and power consumption of several small, focused attacks on an Intel 8051 microcontroller implemented with a standard cell library. The resulting cost in total area varied from a 0.4\% increase in the design, down to a 0.150\% increase in the design. Dynamic and leakage power showed similar results. {\textcopyright} 2012 IEEE.",

author = "Trey Reece and Limbrick, \{Daniel B.\} and Xiaowen Wang and Kiddie, \{Bradley T.\} and Robinson, \{William H.\}",

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AU - Kiddie, Bradley T.

AU - Robinson, William H.

PY - 2012

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N2 - Many experimental hardware Trojans from the literature explore the potential threat vectors, but do not address the stealthiness of the malicious hardware. If a Trojan requires a large amount of area or power, then it can be easier to detect. Instead, a more focused attack can potentially avoid detection. This paper explores the cost in both area and power consumption of several small, focused attacks on an Intel 8051 microcontroller implemented with a standard cell library. The resulting cost in total area varied from a 0.4% increase in the design, down to a 0.150% increase in the design. Dynamic and leakage power showed similar results. © 2012 IEEE.

AB - Many experimental hardware Trojans from the literature explore the potential threat vectors, but do not address the stealthiness of the malicious hardware. If a Trojan requires a large amount of area or power, then it can be easier to detect. Instead, a more focused attack can potentially avoid detection. This paper explores the cost in both area and power consumption of several small, focused attacks on an Intel 8051 microcontroller implemented with a standard cell library. The resulting cost in total area varied from a 0.4% increase in the design, down to a 0.150% increase in the design. Dynamic and leakage power showed similar results. © 2012 IEEE.

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DO - 10.1109/iccd.2012.6378631

M3 - Conference contribution

BT - 2012 IEEE 30th International Conference on Computer Design, ICCD 2012

ER -

Stealth assessment of hardware Trojans in a microcontroller

Abstract

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