Cloud modernization, API-first architectures, distributed work, hybrid environments, and AI systems all rely on secure, ...

Lightweight electronics, meet the heavyweight champion for protecting your information: Security experts at the National Institute of Standards and Technology (NIST) have announced a victor in their ...

Recent advancements in cryptographic research underpin the evolution of secure digital communication systems. Cryptographic algorithms form the backbone of information security, defending data ...

The U.S. Department of War (DoW) has announced plans to transition to post-quantum cryptography (PQC) to safeguard its ...

Learn how to integrate post-quantum cryptographic algorithms with Model Context Protocol (MCP) for robust AI infrastructure security against quantum computing threats.

In the end, critical infrastructure’s biggest quantum risk is the outdated, manual trust models of today. Only by replacing ...

Cryptographic algorithms lie at the heart of modern information security, and substitution box (S‐box) design is a critical component in achieving robust encryption. S‐boxes provide the nonlinearity ...

The Entrust nShield HSM implementation of three NIST standardized post-quantum algorithms have been validated by NIST’s Cryptographic Algorithm Validation Program (CAVP). The latest firmware (v13.8.0) ...

The assessment service includes creation of a cryptographic bill of materials to map where and how encryption is used across ...

Agencies should test post-quantum cryptography algorithms with their software and decide whether information security benefits outweigh the efficiency losses ahead of a federally mandated transition, ...

The National Institute of Standards and Technology (NIST) has selected a group of cryptographic algorithms to secure the Internet of Things (IoT) devices and the related tiny sensors and actuators.

Quantum computing represents a major threat to encryption, and the inflection point may be less than five years away.