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

Quantum computing advances raise concerns over 10,000 qubits breaking P‑256 encryption using Shor’s algorithm, driving ...

Classical public-key cryptography derives its security from integer factorisation. Diagram by Venus Kolhi. Quantum computers bring exponential computing power, ultrafast calculations, advanced ...

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

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

But a newer category is beginning to mature from theoretical research into deployable infrastructure.​ Unlike QKD, which ...

Digital secrets are protected by encryption, which converts meaningful data into an unintelligible form. If quantum computers ...

MicroAlgo Inc. (the "Company" or "MicroAlgo") (NASDAQ: MLGO), today announced the development of an innovative high-precision, high-throughput reconfigurable simulation technology, aimed at providing ...

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

Protect your enterprise AI from 'Harvest Now, Decrypt Later' attacks. Learn how to implement quantum-resistant security for your critical AI infrastructure today.

Quantum power is calculated in qubits. Every 10 qubits supports 1,024 computations, giving hackers 1,024 times the power to break encryption in one swoop, Steward illustrated. There are now machines ...