Quantum computers will likely be able to crack current encryption algorithms earlier than once thought, posing a serious ...

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

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

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

NIST finalized the first three post-quantum cryptography standards (FIPS 203, 204, 205) in August 2024, ending an eight-year ...

Google reveals quantum threat to Bitcoin with new circuit designs using fewer resources, impacting 6.9 million BTC at risk.

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 ...

Google cut the qubits needed to break crypto encryption by 20x and withheld the circuits. Here's why that matters.

A small mathematical revision to quantum mechanics could effectively limit the purported infinite capacities of quantum ...

CoinDesk Research maps five crypto privacy approaches and examines which models hold up as AI improves. Full coverage of ...

A paper from Google suggests breaking the Bitcoin blockchain's cryptography with quantum computers could require fewer than ...