New research suggests that a quantum computer could crack a crucial cryptography method with just 10,000 qubits.

​For much of the past decade, post-quantum cryptography (PQC) lived primarily in academic journals and standards committees.

Guidance for CSA members on deploying post-quantum crypto in cloud-native zero-trust architectures, with priorities, timelines, and governance.

Aethyr Research has released post-quantum encrypted IoT edge node firmware for ESP32-S3 targets that boots in 2.1 seconds and ...

The encryption protecting global banking, government communications, and digital identity does not fail when a quantum ...

Explore how Post-Quantum Key Encapsulation Mechanisms (KEM) secure AI proxy orchestration and MCP deployments against future ...

Research suggests fault-tolerant quantum machines could arrive sooner than expected, posing a threat to Bitcoin and Ethereum cryptography.

The latest specification integrates NIST-standardized ML-KEM and ML-DSA to help device owners safeguard sensitive data ...

For decades, the quantum threat to RSA and ECC encryption has been tied to Shor’s algorithm and the assumption that we would need million-qubit quantum computers to make it practical. A newly ...

The amount of quantum computing power needed to crack a common data encryption technique has been reduced tenfold. This makes the encryption method even more vulnerable to quantum computers, which may ...

The day when quantum computers will be able to break conventional encryption is rapidly approaching, but not all companies are prepared to implement post-quantum cryptography. Quantum-safe encryption ...

As part of daily operations, small businesses may need to collect or exchange sensitive data that should be protected. It could be a financial transaction, a mailing address or some other personally ...