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 ...

BTQ head of silicon product Sean Hackett details how quantum computers could break asymmetric encryption, impacting ...

The U.S. and China are racing to develop computers based on the properties of quantum physics – with implications for science ...

Quantum comes down to size and efficiency. Current computers approach problems step by step, but quantum computers could theoretically use the principles of quantum mechanics to explore many ...

Quantum computing is advancing fast, and nations are racing to field the first machines powerful enough to break modern encryption. This race has direct consequences for the commercial space industry, ...

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 ...

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

President Donald Trump signed two executive orders on June 22 aimed at cementing the United States' leadership in quantum ...

The dreaded Q-day could arrive sooner than expected, and when it does, experts say we need to be ready. Reading time 8 minutes In 1994, American mathematician Peter Shor developed a quantum algorithm ...

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 ...

Building a utility-scale quantum computer that can crack one of the most vital cryptosystems—elliptic curves—doesn’t require nearly the resources anticipated just a year or two ago, two independently ...

Advances in recent years suggest we are entering the Quantum Frontier Era. National security, science, economic ...