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crystals-dilithium

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👨‍💻 🔐 📈 A project based in (Classical) Post-Quantum Cryptography, namely in Lattice-Based Cryptography. This project was built using Jupyter Notebook, SoS (Script of Script) Notebook, Java, Python, Bouncy Castle library, and TeX. The goal of the project was the study and analysis of the CRYSTALS public-key (asymmetric) cryptographic suite.

  • Updated Jun 7, 2024
  • TeX

Browser-based ML-DSA leakage demo — watch a toy hill-climb descend to a CRYSTALS-Dilithium (FIPS 204) secret subkey once one bit of per-signature masking randomness leaks, no lattice reduction, beside the real-scale numbers from IACR ePrint 2026/472. Real local-optimization dynamics. No backends. No simulated math. Runs no attack on real ML-DSA.

  • Updated Jun 28, 2026
  • TypeScript

Browser-based demo of ML-DSA (FIPS 204) rejection sampling. Live iteration feed, rejection-reason breakdown, acceptance histograms, and the timing side-channel tradeoff — why variable signing time is a feature, not a bug.

  • Updated Jun 28, 2026
  • TypeScript

Policy-gated AI decisions with NIST FIPS 204 post-quantum receipts. EU AI Act Article 50 native. Every MCP tool call signed, auditable, provable offline.

  • Updated May 26, 2026
  • Python

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