Artificial Intelligence (AI) presents prodigious technological prospects for
development, however, all that glitters is not gold! The cyber-world faces the
worst nightmare with the advent of AI and quantum computers. Together with
Quantum Artificial Intelligence (QAI), they pose a catastrophic threat to
modern cryptography. It would also increase the capability of cryptanalysts
manifold, with its built-in persistent and extensive predictive intelligence.
This prediction ability incapacitates the constrained message space in device
cryptography. With the comparison of these assumptions and the intercepted
ciphertext, the code-cracking process will considerably accelerate. Before the
vigorous and robust developments in AI, we have never faced and never had to
prepare for such a plaintext-originating attack. The supremacy of AI can be
challenged by creating ciphertexts that would give the AI attacker erroneous
responses stymied by randomness and misdirect them. AI threat is deterred by
deviating from the conventional use of small, known-size keys and
pattern-loaded ciphers. The strategy is vested in implementing larger secret
size keys, supplemented by ad-hoc unilateral randomness of unbound limitations
and a pattern-devoid technique. The very large key size can be handled with low
processing and computational burden to achieve desired unicity distances. The
strategy against AI odds is feasible by implementing non-algorithmic
randomness, large and inexpensive memory chips, and wide-area communication
networks. The strength of AI, i.e., randomness and pattern detection can be
used to generate highly optimized ciphers and algorithms. These pattern-devoid,
randomness-rich ciphers also provide a timely and plausible solution for NIST's
proactive approach toward the quantum challenge