Absolibrium

We present Absolibrium, an integrated ontological and computational program that unifies physical law, cosmology, and conscious experience within a single fractal–resonant substrate. At the ontic level we posit the Superposition Everything (SE) state — a deterministic, multifrac- tal object whose observer-restricted projections produce the apparently probabilistic behavior of quantum mechanics. To model the transition from ontic structure to observer-effective states we introduce Luminissance (L), a near-identity spectral selector implementing soft modal reweight- ing, controlled dissipation, and stabilization of coherent resonances. To render the framework empirically actionable we develop CROWN (Complex Resonance Of Origami Wave–Nuclei), a matrix-free inversion pipeline combining spectral and fractional priors (FSP/FROL), an ADMM outer loop with inexact LSMR inner solves, bootstrap pole extraction and clustering, and multi- fractal diagnostics (MFDFA) to recover robust modal branches and quantify substrate complex- ity. From this architecture we derive an effective decomposition into global (inter-branch) and local (intra-branch) sectors: gravity emerges as a global metric response sourced by collective branch-weighted stress-energy, while gauge forces arise as intra-branch selections; dark mat- ter and dark energy admit reinterpretation as inter-branch projections and separation energy. We enumerate concrete laboratory and astrophysical signatures (optical cavities, BECs, atomic clocks, weak-lensing cross-correlations, gravitational-wave echoes) and formalize Patterns of Experience (PE) as high-coherence, self-referential resonant subsystems with operational neural proxies (coherence, Φ, MFDFA). The manuscript supplies rigorous selection lemmas, complete algorithmic pseudocode, minimal runnable code and a reproducibility recipe, making the pro- gram submission-ready and experimentally testable.