QuantumPQC answers that. Our open-source auditor finds quantum-unsafe cryptography, maps it to regulatory standards, and prepares you for the next step, integrating with a hybrid computing platform built for the future.​

 

Open-source cryptographic auditing built in Rust. Scan your codebase across eight languages, identify vulnerable algorithms, and generate compliance reports that satisfy both NIST and Canadian security frameworks.

Quantum computers will break RSA, ECDSA, and other widely deployed cryptographic algorithms. Adversaries are already harvesting encrypted data today, planning to decrypt it once quantum capabilities mature. Federal mandates require cryptographic migration by 2035, but your inventory work should start now.

QuantumPQC scans your repositories to find exactly where quantum-vulnerable cryptography exists in your codebase. You get actionable findings with automated compliance documentation that maps directly to SC-13 requirements. Security teams use QuantumPQC to build their cryptographic inventory, prioritize migration efforts, and demonstrate regulatory readiness to auditors and leadership.

This is not theoretical preparation. This is operational security tooling that runs in your CI/CD pipeline today.

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Run it locally or as a GitHub Action. Built for Python 3.9+. Contributions welcome.

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Github: https://github.com/arcqubit/quantum-pqc

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Ready to dig into the specs? Explore the full technical breakdown and FAQ on the QuantumPQC page.