According to a study by engineers at Caltech and the UC Department of Physics, quantum computers do not need to be nearly as ...

In today's electronic age, the importance of digitalcryptography in securing electronic data transactions isunquestionable. Every day, users electronically generate andcommunicate a large volume of ...

Network encryption was designed for a world in which adversaries needed to break cryptography in real time to extract value.

With 90% of organizations unprepared for quantum threats, the shift to post-quantum cryptography (PQC) is a structural necessity. Explore the "harvest now, decrypt later" risk and the NIST PQC ...

How would you react if you knew that all your constituents' information is now readable and available to the highest bidder? Since the proliferation of the Internet and digitization of government ...

Today, threat actors are quietly collecting data, waiting for the day when that information can be cracked with future technology.

Research suggests fault-tolerant quantum machines could arrive sooner than expected, posing a threat to Bitcoin and Ethereum cryptography.

The PQC algorithm is designed based on mathematical problems that are extremely difficult to solve not only with current classical computers, but also with future quantum computers, aiming to counter ...

European defense technology integrator STV Group a.s. and London-based cybersecurity firm Post-Quantum flew what they ...

Future quantum computers will need to be less powerful than we thought to threaten the security of encrypted messages.