FIPS 204 ML-DSA Tools

Secure your digital signatures with NIST-compliant post-quantum cryptography

Secure Signatures with ML-DSA

At Kyber Club, our FIPS 204 tools implement the Module-Lattice-Based Digital Signature Algorithm (ML-DSA), a quantum-safe standard based on the Dilithium algorithm. Supporting ML-DSA-44, ML-DSA-65, and ML-DSA-87, our platform offers flexible security levels for diverse applications.

Generate keys, sign data, and verify signatures with confidence in a post-quantum world.

What is FIPS 204?

FIPS 204 defines the Module-Lattice-Based Digital Signature Algorithm (ML-DSA), a NIST-standardised approach to quantum-safe digital signatures. Detailed in the FIPS 204 final publication, it protects against quantum computer threats.

ML-DSA, derived from Dilithium, ensures authenticity and integrity. Kyber Club’s tools implement this standard to secure your signatures.

What is a Digital Signature Algorithm?

A Digital Signature Algorithm (DSA) verifies the authenticity and integrity of digital messages or documents. It uses a private key to create a signature and a public key to verify it, ensuring the data is unchanged and from a trusted source.

ML-DSA, as specified in FIPS 204, delivers quantum-safe signatures resilient to advanced computational attacks.

Signatures vs Encryption

Digital signatures ensure authenticity and integrity, while encryption protects confidentiality. ML-DSA focuses on quantum-safe signing, complementing encryption tools like our FIPS 203 ML-KEM suite.

Why Choose ML-DSA?

ML-DSA offers key advantages for post-quantum security:

Start securing signatures with our FIPS 204 tools.

Try ML-DSA Tools

Explore our FIPS 204 ML-DSA tools:

Begin using our quantum-resistant tools today.

Further Reading

Learn more about ML-DSA and post-quantum cryptography:

You may also like to consult our implementation guide.