CBLTRLv0: CRYSTAL BOOLEAN LOGIC & TOPOLOGICAL RESONANCE LATTICE (version 0.1)This repository contains the Python implementation of the CRYSTAL BOOLEAN LOGIC & TOPOLOGICAL RESONANCE LATTICE (CBLTRLv0), a phenomenological framework that derives Standard Model masses, coupling constants, and mixing matrices from a discrete 14-channel cuboctahedral-octahedral lattice. The model replaces continuous differential equations with pure topological arithmetic based on six dimensionless geometric invariants (κ, δ, χ, φ, π, e) and a single confinement scale (R_conf = 0.91 fm). By interpreting particles as phase-localization modes and interactions as impedance gradients within a synchronous computational lattice, the framework reproduces 25+ PDG 2024 observables with ≥99.8% accuracy without introducing arbitrary free parameters. The script includes a self-contained verification table, built-in documentation mapping discrete Boolean logic to physical sectors, and explicit computational boundaries. CBLTRLv0 is presented as a first-order topological projection rather than a closed theory, offering a verifiable, predictive baseline for discrete lattice field theory and emergent macro-physics. Future iterations will focus on deriving analytical proofs from the discrete graph Laplacian and extending the mapping to cosmological frequency responses.version 0.1 Updates (APPENDIX A: HARDWARE REGISTRATION & TOPOLOGICAL FORMALISM):This version introduces a strict hardware-level computational formalism to Model CBLTRLv0. The local 14-channel super-node is explicitly mapped onto a 52-bit integer cluster register, establishing exact bit-level masking, routing vector schematics, and pure Boolean gate logic mapping layouts (AND, OR, XOR, NAND, LATCH) across the cuboctahedral-octahedral equilibrium boundaries. Includes algorithmic cell-loop pseudocode instructions for standalone digital execution.