Creating revolutionary pharmaceutical drugs, testing new materials for cars and simulating how market scenarios can affect banks — these are just some of the tasks that could take months or years to ...

Encryption forms the backbone of digital security but now faces a fundamental challenge: the emergence of quantum computers.

The threat landscape is being shaped by two seismic forces. To future-proof their organizations, security leaders must take a ...

To be “quantum safe,” a blockchain must adopt cryptographic primitives—signatures, hashing, key encapsulation—that could ...

A data-first approach can help agencies avoid turning post-quantum cryptography adoption into a multi-year overhaul.

This governance model aligns with global calls for digital provenance and deepfake regulation under frameworks like the EU AI ...

In short, quantum computing will impact payment standards in future. But the good news is we are adequately prepared.

The proof-of-concept involved chips produced by German semiconductor manufacturer Infineon, featuring a new design that ...

Safeguarding government operations in a world where today’s public key cryptography can be broken forces a new approach to ...

Identifying quantum phases of matters has quantum computers stumped and could represent a boundary to physical observation ...

Overview Each serves a different purpose. AI focuses on learning, reasoning, and decision-making, while quantum computing ...

The algorithms could also benefit AI by generating large, diverse datasets to train models or by enabling quantum-enhanced ...