Global Gauge-Constrained Quantum Information Cosmology (GCQIC)（The new version cannot be uploaded.）

（The new version cannot be uploaded.）Modern physics rests on two cornerstones: general relativity (GR) and quantum field theory (QFT), but they have a fundamental ontological split: GR geometrizes spacetime while QFT treats it as a fixed background; GR sees matter as the source of geometry, QFT as field excitations. This split leads to key dilemmas: inability to quantize gravity, 19 unexplained Standard Model free parameters, unknown dark matter/energy origins, unresolved black hole information paradox, and no physical ontological basis for quantum entanglement nonlocality or the measurement problem.This paper proposes Global Gauge-Constrained Quantum Information Cosmology (GCQIC), which systematically reconstructs physics from one axiom: \(\hat{G}^a|\Psi\rangle = 0\) (\(\hat{G}^a\) are \(E_8\) self-adjoint generators). This axiom elevates physical laws from "evolutionary equations" to "existential constraints" and defines the universe’s fundamental reality as a quantum information network governed by global gauge constraints.Via rigorous mathematical derivations (noncommutative geometry spectral triples, \(E_8\) Lie algebra representation, Atiyah-Singer index theorem, heat kernel expansion), key results emerge: (1) Symmetry breaking and information localization: Elementary particles are discrete eigenstates of the Dirac operator’s spectral gap; masses, quantum numbers, spin are topologically locked, and three fermion generations come from topological charge degeneracy. (2) Causality arises from stabilizer code positivity; Lorentz signature emerges from the modular group-Dirac operator relation. (3) Light speed constancy stems from the cosmic stabilizer code’s bandwidth limit, reflecting the network’s intrinsic resolution. (4) Gravity is a geometric error-correcting response to gauge constraint violation by information localization; the gravitational constant evolves with energy scale, distinct from gravitational waves (dynamic background perturbations). (5) Four fundamental interactions are residual subnetwork entanglement projections along \(E_8 \to E_6 \to SO(10) \to SU(3)_c \times SU(2)_L \times U(1)_Y\); parity nonconservation, color confinement, and asymptotic freedom are topological. (6) Cosmology: Inflation is driven by gauge constraint energy release; CMB anomalies (7σ parity violation, Axis of Evil, hemispherical asymmetry) are first symmetry breaking topological imprints. Dark energy comes from residual constraint energy; gravitational constant evolution resolves Hubble tension and BAO deviations. The universe cycles: expansion → contraction → \(E_8\) symmetry → re-expansion. (7) Black holes have a radially layered interior with \(E_8\) core; Hawking radiation is non-thermal gauge constraint fluctuation tunneling. The information paradox is resolved via radial encoding and quantum correlations; black holes merge back to symmetry during cosmic contraction without explosion.