The federal government has drawn a line: encryption that protects bank transactions, power grids, and classified communications will not survive the arrival of large-scale quantum computers, and the ...

Tier-one telecom operator deploys hybrid PQC key exchange across existing infrastructure, upgrading encryption without rewriting legacy applications ...

The Quantum Almanac 2026–2027: Signal Over Noise on Quantum Risk to Data Security, authored by J. Nathaniel Ader, was released on March 4, 2026. The publication explores how emerging quantum ...

The quantum computing revolution is an imminent reality that will fundamentally alter the cybersecurity landscape. As quantum computers reach sufficient scale, they will render today's cryptographic ...

Equity-Insider.com News Commentary, With 97% of organizations now planning to invest cybersecurity budget in post-quantum cryptography over the next 24 months, the enterprise migration away from ...

Quantum computing capabilities are accelerating, pushing traditional encryption methods closer to obsolescence. In response, cryptographers and security professionals are advancing post-quantum ...

Quantum computers have the potential to break most existing encryption methods—including AES-256, one of the strongest encryption standards used today—in just hours, compared with the millions of ...

They can't read it yet, but the technology needed to do so is rapidly approaching. When ready, that technology will allow criminals to break even the most stringent traditional protections in a matter ...

Google aims to secure web certificates against quantum attacks without slowing performance ...

Harvest-now-decrypt-later threats push organizations toward hybrid cryptography and ML-KEM as quantum risks grow. Learn strategies in a webinar.

Less than a year ago, NIST released its first set of Post Quantum Cryptography (PQC) standards. The call then went out from quantum cryptography experts for federal agencies to immediately start ...

On the post-quantum side, Cryptolib now includes hardware-accelerated implementations of three families of NIST-standardized PQC algorithms: ML-KEM, ML-DSA, and SLH-DSA. The SLH-DSA (SPHINCS+) ...