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

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 ...

Kimmo Järvinen is a hardware cryptography engineer and researcher with nearly 20 years of experience in the field. He has authored more than 60 scientific publications on cryptography, cryptographic ...

QSE, FTNT, IONQ, and ZS as the Post-Quantum Transition Reshapes the Global Cybersecurity Landscape Issued on behalf of QSE -- Quantum Secure Encryption ...

Changpeng Zhao says crypto must adopt quantum-resistant algorithms and coordinate upgrades to address future security risks.

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

Traditional encryption methods have long been vulnerable to quantum computers, but two new analyses suggest a capable enough ...

At 100 billion lookups/year, a server tied to Elasticache would spend more than 390 days of time in wasted cache time. Cachee reduces that to 48 minutes. Everyone pays for faster internet. For ...

With around 26,000 qubits, the encryption could be broken in a day, the researchers report in a paper submitted March 30 to ...

The research shows quantum computers may break bitcoin and ether wallet encryption with far fewer qubits than previously ...

Building a utility-scale quantum computer that can crack one of the most vital cryptosystems—elliptic curves—doesn’t require ...

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