Quantum Graph Emergent Field Theory (QGEFT): Emergent Gravity, Spacetime, and Quantum Entanglement via Topological Information Optimization

The current Paper 44 benchmark does not claim that a full continuum spacetime, literal faster-than-light signaling, or actual black-hole-driven cosmological reproduction has already been derived on a graph. It does show that one QGEFT framework can coherently organize emergent gravity, sweep-based temporality, topological entanglement, and a non-flat evolutionary search over physical-law parameters. In the current `5`-generation multiverse benchmark, the best universe reaches fitness `3. 4181`, spectral dimension `dₛ ≈ 2. 1363`, and maximum degree `16`, while the winning DNA repeatedly returns to a narrow corridor near `nonlocalₛlack ≈ 1. 4555` and `nonlocalₛtrength ≈ 1. 6019`. The defensible conclusion is therefore that QGEFT has crossed from isolated phenomena into a reproducible topological-information-optimization program with an explicit selection gradient.