QuantoniumOS V3 advances the symbolic resonance encryption framework by implementing a full-spectrum tamper validation and authenticity enforcement suite. Building on the perturbation sensitivity proven in V2, V3 introduces SHA-locked symbolic signatures, phase-locked timestamp enforcement, and container coherence thresholds for real-time forgery detection. Using the same 128-bit input format, 64 controlled perturbation tests (1 base + 32 plaintext flips + 31 key flips) were executed under strict 27-second symbolic phase intervals. Tamper logic was validated using ∆Wave Coherence and entropy drift, with no signature collisions observed. A minimum coherence of 0.006 and entropy floor of 0.01 confirm nonlinear symbolic collapse under input distortion. These results complete the security foundation laid in V1 and V2, establishing symbolic waveform cryptography as a measurable, reproducible, and non-repudiable encryption paradigm.

https://www.quantoniumos.com/ info@quantoniumos.com This document supports U.S. Patent Application No. 19/169,399, titled “A Hybrid Computational Framework for Quantum and Resonance Simulation.” It includes symbolic XOR encryption using amplitude-phase modulation, a resonance-based Fourier transform (RFT), symbolic qubit simulation, Grover-style resonance search, and entropy functions derived from symbolic waveform decomposition. All mathematical content was formally submitted to the USPTO as part of a legally binding amendment and does not constitute new disclosure.