Nathan Eddy works as an independent filmmaker and journalist based in Berlin, specializing in architecture, business technology and healthcare IT. He is a graduate of Northwestern University’s Medill ...

Stop obsessing over trendy algorithms; your sloppy key management is the real security "black hole" that AI and quantum ...

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

Current public-key cryptography is expected to be broken by a large-scale quantum computer as soon as eight years from now. There is no question that quantum computing poses significant risks to the ...

Cryptography is an obscure discipline. Unless you're in big tech, a university or a research organization, you're unlikely to meet its practitioners. Even then, you might have to search to find them.

Cryptography secures digital data using algorithms, essential in private secure communications. Cryptos use cryptographic methods like asymmetric encryption and hash functions for transactions.

In the context of cryptography, a public key is an alphanumeric string that serves as an essential component of asymmetric encryption algorithms. It is typically derived from a private key, which must ...

Join our daily and weekly newsletters for the latest updates and exclusive content on industry-leading AI coverage. Learn More The creation of classical computing may have paved the way for the modern ...

Public and private keys are the fundamental building blocks of secure transactions in the world of cryptocurrencies. These cryptographic instruments existed long before digital currencies were ...

As a Bitcoiner, you’re going to need a secure way to communicate privately, without relying on a company to encrypt your data for you. For example, freely available methods with end-to-end encryption ...

Keeping secrets is hard. Kids know it. Celebrities know it. National security experts know it, too. And it’s about to get even harder. There’s always someone who wants to get at the juicy details we’d ...