Complete collection of all 51 papers in the UGP (Universal Generative Principle) Physics program (P00–P50) plus three P13 MFRR companion papers and the ugp-lean formalization paper. This record bundles all paper PDFs for reader convenience — a single download contains the entire series. Updated 2026-06-09: P49 major revision (botanical correspondence §5. 4, corrected causal graph, Daucus carota L-system structural equivalence CatAL) ; P50 The Spin-7 Lattice Model (phase transitions, transfer matrix, Monte Carlo, GTE polynomial statistical mechanics) ; 307 modules machine-certified in ugp-lean. The papers are organized as follows: P00 Survey and Reader's Guide | P01 Standard Model from UGP | P02 GTE Particle Spectrum | P03 Nuclear Binding Energy | P04 GTE Dynamics and Universality | P05 Uniqueness of UGP | P06 Mathematical Foundations | P07 Meta-Laws | P08 UGP Foundational Monograph | P09 Architecture of a Computable Universe | P10 Reflexive Reality | P11 Ontological Dissonance | P12 Unified Rigidity Capstone | P13 MFRR Foundational Monograph | P14 PSC Concordance | P15 Information Profit Principle | P16 BH Reflexive Unitarity | P17 Braid Atlas v2 | P18 Koide Cyclotomic | P19 Cyclotomic Mass Structure | P20 MFRR Physics Survey | P21 Neutrino Masses | P22 UGP Dynamics | P23 Closure Structure | P24 Deeper Theory | P25 Genetic Code | P26 General Selection Theory | P27 Self-Referential Renormalization Group (SRRG) | P28 Computational Universality | P29 Dark Sector Braid Atlas | P30 Cook Theorem | P31 Weinberg Angle | P32 CKM Matrix | P33 Deeper Consequences | P34 GTE Mobius Substrate | P35 GTE Unification | P36 Emergent Gravity (CMCA) | P37 Quantum Mechanics | P38 Emergent Gravity (PhiMDL) | P39 QCD Structure | P40 GF (7) Polynomial Universality | P41 Three-Layer Chiral Minkowski CA | P42 PhiMDL Field | P43 PhiMDL Completeness | P44 Quantum Gravity Completeness | P45 Three-Tape CMCA | P46 GTE Polynomial UFT | P47 GTE Cosmology | P48 The Complete GTE Framework | P49 MDL Selects the Wolfram Rule | P50 The Spin-7 Lattice Model. For individual papers with their own DOIs, see the UGP Physics Hub record. All papers are available individually on Zenodo; this bundle record is provided for convenience only.
Nova Spivack (Tue,) studied this question.