How quantum computers actually work, in plain language To understand why quantum machines are so dangerous to encryption, I start with how different they are from the laptops on our desks. Classical ...

The same weaknesses leave organizations exposed to both AI-enabled attacks and delayed cryptographic migration.

Somewhere before 2030, a quantum computer powerful enough to crack the cryptography behind every major blockchain may switch ...

Quantum computing encryption is reshaping how we think about digital security in a world built on encrypted communication. Today's systems rely on mathematical complexity, but emerging quantum ...

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 day when a quantum computer can crack commonly used forms of encryption is drawing closer. The world isn’t prepared, experts say.

It's an aggressive move that'll effectively force operators of critical French infrastructure to move away from traditional cryptographic systems.

Quantum is fundamentally complex and can be very confusing, even to those in the field.  The vast majority of people are not ...

The quantum threat is accelerating significantly. It's time to have a fresh look at the current state of affairs and what we're doing about it.

Quantum computers should be powerful enough to crack Bitcoin’s security features—by instantly solving the mining mechanism or guessing wallet passwords by brute force—a few years after 2030, according ...

Billionaire investor Tim Draper has said quantum computers are more likely to compromise traditional banking systems before ...