This release presents Two-Energy Theory (TDE) v16. 8, a rule-based framework for hadron mass prediction on a quantized geometric lattice. The central requirement of this version is methodological: every published prediction must be generated by forward-only, deterministic rules that depend exclusively on particle identifiers and mass-blind quantum labels (PDGID, charge and multiplet structure, spin–parity, and quark content), without any per-particle lookup tables, mass-based ordering, or post-hoc fitting. The package provides two complementary outputs. First, a strict “forward-only” subset covering 318 out of 527 particles, where each state is mapped to integer lattice coefficients (A, B, C) and the predicted mass is computed via the frozen linear closure relation Predₘass = A·E0 + B·E1 + C·E2 using version-locked constants. Second, an audit baseline for the full 527/527 set is included for completeness and benchmarking; however, all states that still require external class maps or templates are explicitly flagged as non-forward and are not claimed as first-principles predictions. This release focuses on expanding coverage through multiplet-completion and symmetry-consistent transfers, while keeping all assumptions transparent and reproducible. The archive includes full data tables (strict forward subset, full audit table, and residual unhandled list), reproducible Python scripts, and a LaTeX preprint documenting the rule system, constants, and evaluation protocol. The goal is to provide a falsifiable, version-locked benchmark for further extensions of forward-only rules across remaining hadron families.
Michał Karol Surowiecki (Sun,) studied this question.
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