Infra-Red, In Situ (IRIS) Inspection of Silicon « bunnie's blog

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2024-12-23 10:00:03

Cryptography tells us how to make a chain of trust rooted in special-purpose chips known as secure elements. But how do we come to trust our secure elements? I have been searching for solutions to this thorny supply chain problem. Ideally, one can directly inspect the construction of a chip, but any viable inspection method must verify the construction of silicon chips after they have been integrated into finished products, without having to unmount or destroy the chips (“in situ“). The method should also ideally be cheap and simple enough for end users to access.

This post introduces a technique I call “Infra-Red, In Situ” (IRIS) inspection. It is founded on two insights: first, that silicon is transparent to infra-red light; second, that a digital camera can be modified to “see” in infra-red, thus effectively “seeing through” silicon chips. We can use these insights to inspect an increasingly popular family of chip packages known as Wafer Level Chip Scale Packages (WLCSPs) by shining infrared light through the back side of the package and detecting reflections from the lowest layers of metal using a digital camera. This technique works even after the chip has been assembled into a finished product. However, the resolution of the imaging method is limited to micron-scale features.

This post will start by briefly reviewing why silicon inspection is important, as well as some current methods for inspecting silicon. Then, I will go into the IRIS inspection method, giving background on the theory of operation while disclosing methods and initial results. Finally, I’ll contextualize the technique and discuss methods for closing the gap between micron-scale feature inspection and the nanometer-scale features found in today’s chip fabrication technology.

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