Multivariate cryptography and finite field algorithms are two interlocking research areas that underpin many modern cryptographic systems and computational methods. Multivariate cryptography relies on ...

From Caesar ciphers to AES and RSA, Practical Microcontroller Cryptography shows how cryptography actually runs on ...

Elliptic curve cryptography (ECC) has emerged as a cornerstone of modern public‐key systems, offering high levels of security with relatively small key sizes. Central to many advanced cryptographic ...

It’ll still be a while before quantum computers become powerful enough to do anything useful, but it’s increasingly likely that we will see full-scale, error-corrected quantum computers become ...

Supervised learning algorithms like Random Forests, XGBoost, and LSTMs dominate crypto trading by predicting price directions or values from labeled historical data, enabling precise signals such as ...

NSS with ML-KEM and ML-DSA algorithms passes lab testing and enters Modules in Process list, making Rocky Linux from CIQ one of the first Enterprise Linux distributions advancing FIPS-validated ...

Two researchers have improved a well-known technique for lattice basis reduction, opening up new avenues for practical experiments in cryptography and mathematics. In our increasingly digital lives, ...

When that break occurs, the mathematics behind the code moves instantly. Organizations, however, do not move so fast.

Ark Invest CEO Cathie Wood weighed in on Bitcoin's BTC recent weakness, arguing that the decline reflects algorithmic selling rather than deteriorating fundamentals. Bitcoin vs. Gold: A “Risk-Off” ...

How South Korea is using AI, algorithms and automated surveillance to detect crypto market manipulation faster and at a ...

That mismatch is creating a risk most organizations are not tracking: cryptographic debt—the accumulated risk and cost that ...