ryangrvr/GRUT-RAI-v1.0: GRUT-RAI v1.0 — Canonical Build (Phases I–III Complete)

GRUT-RAI v1.0 — Canonical Build (Phases I–III Complete) This is the first canon-synchronized release of GRUT-RAI aligned to the completed Phase I–III framework. It consolidates the weak-field memory sector, collapse and endpoint closure program, mixed-viscoelastic interior result, static exterior null map, and preferred effective covariant memory-field framework into one status-disciplined release. What's New in v1.0 First canon-synchronized build aligned to completed Phases I–III Final status-ladder integration across all theory-facing outputs Superseded proxy collapse/echo results demoted from leading status Mixed-viscoelastic interior classification adopted as the leading closure result Preferred effective covariant memory-field framework integrated Constitutive-effective memory-tensor closure included Effective boundary/junction treatment added Final observability package: bounded echo, Love-number, spin, and nonlinear-response framing Static exterior null-map logic synchronized across documentation and output layers Full repository freeze point validated: 456 passed, 3 skipped, 0 failed Scope and Limitations Effective-framework release — not a final first-principles derivation Scalar auxiliary memory field is the minimal current closure, not final ontology T^Phi_{mu nu} is constitutive-effective, not action-derived Endpoint law remains constrained/candidate, not first-principles-derived Echo channel is a candidate falsifier channel, not a guaranteed prediction Static null results are conditional on the current Schwarzschild-like exterior assessment Love numbers, spin/Kerr, and nonlinear coupling remain bounded first-pass treatments Tensorial memory-sector generalization remains open Action/Lagrangian closure remains open Post-Phase-III extensions (consciousness, particles, broader unification) are not part of resolved v1.0 canon Notes This release is presented as a canon-synchronized effective-framework milestone for GRUT Phases I–III. It does not claim final action-level derivation of the memory sector or complete first-principles closure of all future GRUT extensions. Related manuscript: DOI 10.5281/zenodo.18986085