Antonio Leonel Hernandez Martinez scite author profile

et al. 2021

IEEE Trans. VLSI Syst.

Electronic system components can fall prey to counterfeiting via untrustworthy parties in the semiconductor supply chain, which has established a worldwide span to reduce costs, time to market and increase productivity. Recently, the integrated circuits (ICs) counterfeiting has threatened systems security and reliability that utilize ICs in all domains. This paper focuses on the most counterfeited area-recycled and remarked ICs-and aims to develop a technique to distinguish between new and used digital ICs based on an aging sensor mechanism. Aging sensors have been studied based on path-delay fingerprinting and ring oscillators frequency degradation, but their resolution requires further development to accurately detect short usage. This study proposes a novel differential aging sensor to measure the discharge time (τdv) increase that depends on the subthreshold leakage current due to aging with two on-chip designs. Simulations were conducted using the GlobalFoundries 22nm for aging with bias temperature instability and hot carrier injection combined. The results show that the τdv increase is 14.72% after 15 days of usage and increases to 60.49% after 3 years. This further increases at higher temperatures; the highest simulated temperature (125°C), τdv increases by 55.93% after 15 days, and 310.17% after 3 years. Proposed method also outperformed the traditional frequency degradation based aging estimation method, which at nominal temperature is found to be 5.00% after 15 days and 23.68% after 3 years. Therefore, discharge time is a sensitive indicator for aging, surpasses frequency in detecting previous usage and is robust against process, voltage, and temperature variations.

show abstract

Differential Aging Sensor to Detect Recycled ICs using Sub-threshold Leakage Current

Alnuayri

et al. 2021

A Support Vector Regression based Machine Learning method for on-chip Aging Estimation

Alnuayri

et al. 2021

Leveraging CMOS Aging for Efficient Microelectronics Design

Rossi

2020