A group of academics at South Korea’s Gwangju Institute of Science and Technology (GIST) have utilized natural silk fibers from domesticated silkworms to build an environmentally friendly digital security system that they say is “practically unbreachable.”
“The first natural physical unclonable function (PUF) […] takes advantage of the diffraction of light through natural microholes in native silk to create a secure and unique digital key for future security solutions,” the researchers said.
Physical unclonable functions or PUFs refer to devices that leverage inherent randomness and microscopic differences in electronics introduced during manufacturing to generate a unique identifier (e.g., cryptographic keys) for a given set of inputs and conditions.
In other words, PUFs are non-algorithmic one-way functions derived from uncopiable elements to create unbreakable identifiers for strong authentication. Over the years, PUFs have been widely used in smartcards to provide “silicon fingerprints” as a means of uniquely identifying cardholders based on a challenge-response authentication scheme.
The newly proposed method from GIST employs native silk fibers produced by silkworms to create PUF-based tags that are then used to devise a PUF module. This mechanism banks on the underlying principle that a light beam experiences diffraction when it hits an obstacle, in this case, the silk fiber.
images from Hacker News