Quantum computing will break encryption, signatures, certificates, and secure channels. This makes every container-based security model vulnerable to Store-Now-Decrypt-Later attacks and future quantum-level decryption.

But quantum computing has a critical weakness: it can break containers, but it cannot recreate meaning. It cannot synthesize the intrinsic, atomic-level integrity that defines a document's truth.

Triple-DNA™ Integrity and Intrinsic Integrity Signatures™ (IIS™) protect the meaning of digital assets, not the container. Even if a quantum computer decrypts a file, it cannot forge the integrity signatures that prove authenticity. Meaning-level integrity remains constant across all states, making quantum-enabled forgery mathematically impossible.