But RSA worked until the advent of quantum computers. These machines harness the physics of subatomic particles to process information in fundamentally different ways, including factoring long strings ...

According to the latest Google research, it could take as few as 1,200 logical qubits for a quantum computer to break ...

ZeroTier reports that enterprise networks should prepare for post-quantum cryptography to adapt and protect against future quantum attacks.

The very prospect of the quantum apocalypse has driven various stakeholders to consider what that could be like and how to ...

​For much of the past decade, post-quantum cryptography (PQC) lived primarily in academic journals and standards committees.

Post‑quantum cryptography is now required, not optional. Federal and industry experts explain why visibility, crypto agility, and execution — not just new algorithms — will define quantum readiness.

Recent advancements in cryptographic research underpin the evolution of secure digital communication systems. Cryptographic algorithms form the backbone of information security, defending data ...

Online data is generally pretty secure. Assuming everyone is careful with passwords and other protections, you can think of it as being locked in a vault so strong that even all the world's ...

The original version of this story appeared in Quanta Magazine. In our increasingly digital lives, security depends on cryptography. Send a private message or pay a bill online, and you’re relying on ...

Cryptographic algorithms lie at the heart of modern information security, and substitution box (S‐box) design is a critical component in achieving robust encryption. S‐boxes provide the nonlinearity ...

The National Institute of Standards and Technology (NIST) has selected a group of cryptographic algorithms to secure the Internet of Things (IoT) devices and the related tiny sensors and actuators.