The Boundary Condition Cosmological Framework (BCCF) derives 303 experimentally testable quantities from a single field axiom ("Exists?") and zero free parameters. The starting point resolves into ε = 1/π² on S² tiled by K4, with the Planck mass entering as a unit conversion. The derivation spans gauge couplings, the complete fermion mass spectrum, CKM and PMNS mixing matrices, Higgs branching ratios, nuclear binding from ⁴He through ⁵⁶Fe, Big Bang nucleosynthesis (resolving the cosmological lithium problem to 0.024%), cosmological observables, atomic spectroscopy, astrophysical structure, quantum gravity (deriving the Immirzi parameter to 0.009%), atoms & molecules (ionization energies, dissociation energies, bond lengths), and solid state physics (lattice energies, cohesive energies, Debye temperatures, band gaps). Of 303 scored predictions, 171 agree within 0.1% and 269 within 1%, with a median deviation of 0.035%. This archive contains the companion computation engine (gce_builder.py) which reproduces every result as a queryable geometric graph of 354 nodes and 915 edges across 29 derivation steps, plus analysis scripts used during development.