To be “quantum safe,” a blockchain must adopt cryptographic primitives—signatures, hashing, key encapsulation—that could ...

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

The threat landscape is being shaped by two seismic forces. To future-proof their organizations, security leaders must take a ...

Improving your cryptographic agility goes far beyond files and folders. It’s about preserving the integrity of every handshake, header and hidden dependency in your stack. If data touches it, moves ...

Safeguarding government operations in a world where today’s public key cryptography can be broken forces a new approach to ...

Get the latest federal technology news delivered to your inbox. Scientific guidance meant to ensure the U.S. is ready to shore up cyber defenses against a potential quantum computers’ ability to break ...

The proof-of-concept involved chips produced by German semiconductor manufacturer Infineon, featuring a new design that ...

Multivariate cryptography and finite field algorithms are two interlocking research areas that underpin many modern cryptographic systems and computational methods. Multivariate cryptography relies on ...

Members can download this article in PDF format. In the last two articles, we covered the basic concepts and two basic types of cryptography. In this article, we will look at specific implementation ...

Members can download this article in PDF format. In our day-to-day lives, the use of cryptography is everywhere. For example, we use it to securely send passwords over vast networks for online ...