Encryption forms the backbone of digital security but now faces a fundamental challenge: the emergence of quantum computers.

The PQC algorithm is designed based on mathematical problems that are extremely difficult to solve not only with current classical computers, but also with future quantum computers, aiming to counter ...

It'll still be a while before quantum computers become powerful enough to do anything useful, but it's increasingly likely that we will see full-scale, error-corrected quantum computers become ...

The National Institute of Standards and Technology (NIST) has released its first three encryption standards designed to withstand decryption efforts from a quantum computer. Quantum computers will ...

They include the general availability of Red Hat Enterprise Linux 10.1 and 9.7 and Red Hat Developer Hub 1.8, all of which ...

Implementing the NIST-standardized ML-KEM and ML-DSA algorithms (FIPS 203 & 204), the KiviPQC cores enable system designers to deploy post-quantum-resistant security today, protecting products for ...

FIPS 203 for ML-KEM (also known as CRYSTALS-Kyber) FIPS 204 for ML-DSA (also known as CRYSTALS-Dilithium) FIPS 205 for SLH-DSA (also known as Sphincs+) The publication of these draft standards is an ...

The Entrust nShield HSM implementation of three NIST standardized post-quantum algorithms have been validated by NIST’s Cryptographic Algorithm Validation Program (CAVP). The latest firmware (v13.8.0) ...