Metal Fillers as Potential Low Cost Countermeasure against Optical Fault Injection Attacks

TL;DR

This paper explores the use of metal fillers as a low-cost physical countermeasure to protect ASICs against optical fault injection attacks, aiming to enhance security in IoT and sensor devices.

Contribution

It proposes metal fillers as a novel, cost-effective countermeasure against optical fault injection attacks on ASICs, with plans for further evaluation and integration into design flows.

Findings

Metal fillers show potential as a low-cost defense mechanism.

The approach could be effective against a broad spectrum of physical attacks.

Future work will optimize placement methods and integration into design processes.

Abstract

Physically accessible devices such as sensor nodes in Wireless Sensor Networks or "smart" devices in the Internet of Things have to be resistant to a broad spectrum of physical attacks, for example to Side Channel Analysis and to Fault Injection attacks. In this work we concentrate on the vulnerability of ASICs to precise optical Fault Injection attacks. Here we propose to use metal fillers as potential low-cost countermeasure that may be effective against a broad spectrum of physical attacks. In our future work we plan to evaluate different methods of metal fillers placement, to select an effective one and to integrate it as additional design rules into automated design flows.