When that break occurs, the mathematics behind the code moves instantly. Organizations, however, do not move so fast.

Quantum computing is no longer a distant research project—it’s steadily moving toward real-world capability. While large-scale, fault-tolerant quantum computers aren’t ...

ABSTRACT: We show that any semiprime number can be factorized as the product of two prime numbers in the form of a kernel factor pair of two out of 48 root numbers. Specifically, each natural number ...

So, you’ve probably heard a lot of buzz lately about quantum computers and how they might break RSA encryption. It sounds pretty scary, right? Like the internet as we know it is about to crumble. But ...

The sophistication of AI fraud is attracting the attention of the global financial market and this challenge was a central theme of the RSA Conference, the world's largest cybersecurity event, held ...

Will quantum computers crack cryptographic codes and cause a global security disaster? You might certainly get that impression from a lot of news coverage, the latest of which reports new estimates ...

Quantum computers could crack a common data encryption technique once they have a million qubits, or quantum bits. While this is still well beyond the capabilities of existing quantum computers, this ...

Hello! I guess, I found a mistake in the CTF Primer, section 6.5 Modern Cryptography. In the first point of RSA key generation algorithm says "Generate two large co-prime numbers, p and q.". But it's ...

Abstract: We propose a public-key encryption algorithm based on torus automorphisms, which is secure, practical, and can be used for both encryption and digital signature. Software implementation and ...