Prepare for the quantum computing era and its cybersecurity risks. We discuss how post-quantum cryptography (PQC) and secure-memory solutions protect industries and supply chains. The importance of ...

It’ll still be a while before quantum computers become powerful enough to do anything useful, but it’s increasingly likely that we will see full-scale, error-corrected quantum computers become ...

What’s the best way to solve hard problems? That’s the question at the heart of a subfield of computer science called computational complexity theory. It’s a hard question to answer, but flip it ...

New cryptographic algorithms have been created that are based on particularly hard mathematical problems. They would be virtually unbreakable, say investigators. RUB researchers have developed new ...

In 1994, a Bell Labs mathematician named Peter Shor cooked up an algorithm with frightening potential. By vastly reducing the computing resources required to factor large numbers—to break them down ...

That mismatch is creating a risk most organizations are not tracking: cryptographic debt—the accumulated risk and cost that ...

When quantum computers become powerful enough, they could theoretically crack the encryption algorithms that keep us safe. The race is on to find new ones. Tech Review Explains: Let our writers ...

It takes an expert to determine whether a cryptographic system is truly secure, but CSOs can learn to spot red flags To determine if a cryptographic protocol or system is actually secure takes an ...

Author Nick Sullivan worked for six years at Apple on many of its most important cryptography efforts before recently joining CloudFlare, where he is a systems engineer. He has a degree in mathematics ...