Passkeys are great, but not safe from quantum computers. Dilithium could change that.

Passkeys are great, but not safe from quantum computers. Dilithium could change that.

a year ago
Anonymous $pUsIN4hzN9

https://arstechnica.com/security/2023/08/passkeys-are-great-but-not-safe-from-quantum-computers-dilithium-could-change-that/

The FIDO2 industry standard adopted five years ago provides the most secure known way to log in to websites because it doesn’t rely on passwords and has the most secure form of  built-in two-factor authentication. Like many existing security schemes today, though, FIDO faces an ominous if distant threat from quantum computing, which one day will cause the currently rock-solid cryptography the standard uses to completely crumble.

Over the past decade, mathematicians and engineers have scrambled to head off this cryptopocalypse with the advent of PQC—short for post-quantum cryptography—a class of encryption that uses algorithms resistant to quantum-computing attacks. This week, researchers from Google announced the release of the first implementation of quantum-resistant encryption for use in the type of security keys that are the basic building blocks of FIDO2.

Passkeys are great, but not safe from quantum computers. Dilithium could change that.

Aug 18, 2023, 8:17pm UTC
https://arstechnica.com/security/2023/08/passkeys-are-great-but-not-safe-from-quantum-computers-dilithium-could-change-that/ > The FIDO2 industry standard adopted five years ago provides the most secure known way to log in to websites because it doesn’t rely on passwords and has the most secure form of  built-in two-factor authentication. Like many existing security schemes today, though, FIDO faces an ominous if distant threat from quantum computing, which one day will cause the currently rock-solid cryptography the standard uses to completely crumble. > Over the past decade, mathematicians and engineers have scrambled to head off this cryptopocalypse with the advent of PQC—short for post-quantum cryptography—a class of encryption that uses algorithms resistant to quantum-computing attacks. This week, researchers from Google announced the release of the first implementation of quantum-resistant encryption for use in the type of security keys that are the basic building blocks of FIDO2.