Title :
Identification of recovered ICs using fingerprints from a light-weight on-chip sensor
Author :
Zhang, Xuehui ; Tuzzio, Nicholas ; Tehranipoor, Mohammad
Abstract :
The counterfeiting and recycling of integrated circuits (ICs) have become major problems in recent years, potentially impacting the security of electronic systems bound for military, financial, or other critical applications. With identical functionality and packaging, it is extremely difficult to distinguish recovered ICs from unused ICs. A technique is proposed to distinguish used ICs from the unused ones using a fingerprint generated by a light-weight on-chip sensor. Using statistical data analysis, process and temperature variations´ effects on the sensors can be separated from aging experienced by the sensors in the ICs when used in the field. Simulation results, featuring the sensor using 90nm technology, and silicon results from 90nm test chips demonstrate the effectiveness of this technique for identification of recovered ICs.
Keywords :
integrated circuit packaging; integrated circuit testing; recycling; security; sensors; silicon; statistical analysis; electronic system security; fingerprint; identical functionality; integrated circuit counterfeiting; integrated circuit recycling; light-weight on-chip sensor; packaging; recovered IC identification; silicon; size 90 nm; statistical data analysis; test chip; Aging; Degradation; Integrated circuits; Inverters; Logic gates; Ring oscillators; Temperature sensors; Circuit aging; Counterfeiting; Hardware security; Recovered ICs;
Conference_Titel :
Design Automation Conference (DAC), 2012 49th ACM/EDAC/IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4503-1199-1
