The Death of Cryptanalysis: Technology for Non-Committed (Unhackable) Ciphertexts.

All mainstay ciphers are based on complexity theory which concerns itself with general statements, proving, for example, threshold complexity for hardest case and average case. Alas, the keyspace used in every such cipher may contain hidden weak keys for which the cryptanalytic computation is sufficiently limited. Weak keys are like “Zero Days vulnerabilities” for operating system. They are vigorously chased and well-hidden by those who spot them. They pose a daunting cloud on modern day security. This threat is unbound. Another weakness may always be found. Fortunately modern technology offers a means to totally wipe out the threat of weak keys. Using “Rock of Randomness” technology one can capture large amounts of quantum grade randomness into an integrated circuit, expressing this randomness off the digital grid — within crystalized assymetry of composite material. This randomness then deploys through a suit of ciphers that generate ciphertexts with built-in plaintext equivocation, namely ciphertexts that don’t commit to a single plaintext. They can be decrypted to a large number of plausible messages. The decrypted messages are mathematically indistinguishable, and hence no cryptanalytic effort can further reduce this list to the one message that actually generated the captured ciphertext. To the extent that the decrypted messages reflect the contextual plausibility range, the communication is completely secure.

As more and more of humanity assets are digitally communicated, the death of cryptanalysis merits a universal welcome (cipher crackers will have to find a decent job).

Check out a few of our patents (more in Bitmintalk.com)