In this paper, we propose a novel technique to detect recycled ICs via an on-chip, coarse-grained aging sensor, which can be applied to low-power circuits featuring power gating. The sensor detects the increase in the power-rail discharge time of power-gated circuits, when the circuit enters the sleep condition. Through HSPICE simulations, we prove that power network discharge time (τdV) is extremely sensitive to the age of the circuit. Indeed, after only 1 month of operation, τdVincreases by more than 3X and, after 1 year, its increase exceeds 7X. Our technique enables the detection of recycled ICs with a very high confidence and is a considerably more sensitive indicator of an aged device that alternative solutions relying on fine-grained performance degradation sensors.
Recycled IC detection through aging sensor
Rossi D.
;
2018-01-01
Abstract
In this paper, we propose a novel technique to detect recycled ICs via an on-chip, coarse-grained aging sensor, which can be applied to low-power circuits featuring power gating. The sensor detects the increase in the power-rail discharge time of power-gated circuits, when the circuit enters the sleep condition. Through HSPICE simulations, we prove that power network discharge time (τdV) is extremely sensitive to the age of the circuit. Indeed, after only 1 month of operation, τdVincreases by more than 3X and, after 1 year, its increase exceeds 7X. Our technique enables the detection of recycled ICs with a very high confidence and is a considerably more sensitive indicator of an aged device that alternative solutions relying on fine-grained performance degradation sensors.| File | Dimensione | Formato | |
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