TY - GEN
T1 - TPE
T2 - 20th IEEE Asia Pacific Conference on Circuits and Systems and IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics Electronics, APCCAS and PrimeAsia 2024
AU - Chen, Kun Chih
AU - Kao, Ting En
AU - Ke, Li Heng
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - The use of Network on Chip (NoC) in multi-core systems offers a flexible and scalable interconnection framework. However, concerns have been raised about Hardware Trojans (HT) due to the decentralized supply chain caused by globalization, especially in relation to third-party Intellectual Property (M3PIP). Of various HT attacks, eavesdropping is particularly worrisome as it operates with minimal power consumption and does not immediately disrupt system operations, compromising the reliability of NoC. Current research often focuses on packet payload encryption, overlooking potential risks associated with unsecured packet headers. To address this, we propose the Trajectory Path Encoding method, which establishes transport layer anonymity by substituting packet header details with specialized encoding based on the packet's routing path. This method aims to prevent eavesdropping attacks and minimize data leakage. The approach involves encoding packets at the Network Interface (NI) and decoding them at the Router to enable anonymous transmission. Experimental results have shown a significant reduction in overall transmission latency up to 73.4% compared to related works. Additionally, when compared to the baseline design achieving an average overall reduction of approximately 79.7% in data leakage.
AB - The use of Network on Chip (NoC) in multi-core systems offers a flexible and scalable interconnection framework. However, concerns have been raised about Hardware Trojans (HT) due to the decentralized supply chain caused by globalization, especially in relation to third-party Intellectual Property (M3PIP). Of various HT attacks, eavesdropping is particularly worrisome as it operates with minimal power consumption and does not immediately disrupt system operations, compromising the reliability of NoC. Current research often focuses on packet payload encryption, overlooking potential risks associated with unsecured packet headers. To address this, we propose the Trajectory Path Encoding method, which establishes transport layer anonymity by substituting packet header details with specialized encoding based on the packet's routing path. This method aims to prevent eavesdropping attacks and minimize data leakage. The approach involves encoding packets at the Network Interface (NI) and decoding them at the Router to enable anonymous transmission. Experimental results have shown a significant reduction in overall transmission latency up to 73.4% compared to related works. Additionally, when compared to the baseline design achieving an average overall reduction of approximately 79.7% in data leakage.
UR - http://www.scopus.com/inward/record.url?scp=85216130535&partnerID=8YFLogxK
U2 - 10.1109/APCCAS62602.2024.10808348
DO - 10.1109/APCCAS62602.2024.10808348
M3 - Conference contribution
AN - SCOPUS:85216130535
T3 - APCCAS and PrimeAsia 2024 - 2024 IEEE 20th Asia Pacific Conference on Circuits and Systems and IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics Electronics, Proceeding
SP - 179
EP - 182
BT - APCCAS and PrimeAsia 2024 - 2024 IEEE 20th Asia Pacific Conference on Circuits and Systems and IEEE Asia Pacific Conference on Postgraduate Research in Microelectronics Electronics, Proceeding
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 7 November 2024 through 9 November 2024
ER -