We are currently in a critical transitional phase in the development of quantum hardware. The era in which technology ...

ENISA (the EU Agency for Cybersecurity) has published the first draft of Version 3 of the Agreed Cryptographic Mechanisms (ACM) document. The draft, authored by the ECCG (European ...

Issued on behalf of Quantum Secure Encryption Corp.The world spent the last decade racing to build quantum computers. It will spend the next one ...

New York-London trial demonstrates how ultra-high-speed data can remain protected from quantum threats across 6900km of ...

Encryption systems rely on “random” numbers, but conventional computers can’t generate them perfectly. New research shows that quantum physics can.

Modern encryption relies on mathematical assumptions that quantum computers may soon render obsolete. This technological shift creates new ...

Quantum computers are closer than ever. The year 2026 has been internationally designated the "Year of Quantum Security" -- ...

Discusses Quantum Computing Threats and Strategies for Achieving Quantum-Safe Cybersecurity June 2, 2026 1:30 AM ...

As threats evolve faster, protecting security algorithms from design through manufacturing and across the supply chain is ...

AES is one of the most widely used cryptographic algorithms in embedded systems today. It protects industrial gateways, FPGA-based communication systems, automotive networks, VPNs, secure boot chains, ...

The new DST Task Force report on making India’s digital ecosystems quantum-safe is a product of contemplating a threat that is both long-term and urgent. Today, public-key cryptography underpins ...

Creating perfect randomness is surprisingly difficult. Even modern random number generators never generate completely ideal random numbers: small systematic errors can result in some numbers appearing ...