A new research paper from a Google researcher slashed the estimated quantum resources needed to break RSA encryption, which is used by some crypto wallets.

The shining goal is to create fully homomorphic encryption (FHE) algorithms that allow arbitrary, Turing-complete computations on encrypted data without unscrambling it.

Encryption stands as one of the most powerful tools in the network and cyber security arsenal, safeguarding data from breaches, cyber threats and unauthorized access.

AES-256 encryption is the gold standard in data security, but what actually is it?

The new algorithm, called HQC, will be a backup for the main algorithm NIST announced last year for general encryption in a future quantum age.

Encryption is essential for protecting data, with both symmetric and asymmetric methods offering unique advantages.

Following the release of the first set of post-quantum encryption algorithms, the National Institute of Standards and Technology is advancing a second series of options to protect important data.

It has long been predicted that quantum computers would make current encryption technology obsolete, and scientists said they have broken a form of RSA encryption using a D-Wave quantum computer.

The network is open, which makes it vulnerable to attacks and reduces the accuracy of multi-modal big data security fusion. To solve this problem, a multi-modal big data security fusion method based ...

Researchers at MIT have developed a quantum algorithm that could potentially break RSA encryption, a widely used method for securing data.