This work presents an interdisciplinary research manifesto expanding the core concepts of digital physics and informational realism. Moving away from traditional, purely mathematical attempts to solve the Collatz conjecture, this framework introduces a comprehensive ontological and cosmological model where information is recognized as the ultimate foundation of the Universe, while physical space, time, and matter are treated as mere rendering artifacts. Within the proposed fractal framework (the Nautilus Attractor), the evolutionary cycles of the cosmos, biological life, and humanity's technological acceleration are interpreted as a continuous, end-to-end process of purging a useful signal from primordial stochastic noise (Shannon entropy). The system's dynamics are governed by the mathematical machinery of the Syracuse sequence (3N+1), where the odd step vector acts as a localized chaos generator, and the cascade of even divisions serves as a mechanism for data compaction and structural crystallization. The hypothesis is backed by a verifiable software suite running parallel node mesh configurations, an operational data gravity calculus based on Kolmogorov complexity, and a stability analysis engine proving strict energy potential decay according to Lyapunov's direct method (dV/dt < 0). The software simulation serves as a computational demonstrator of the model's internal consistency under relativistic time compression.
Kirill Maksimov (Fri,) studied this question.