This is a speculative priority and overview note for a proposed complete-history viability framework. The central idea is that local physical laws may define a space of complete lawful histories, while physical realization may require an additional global viability structure. In minimal form, the framework introduces a selector on complete histories, KₘinΦ = χₐdmΦ exp-Γ Cclosure (P_<Φ), where χₐdm is a hard admissibility filter and Cclosure is a soft coarse closure or restart mismatch cost acting on reduced histories. The note distinguishes hard exclusion from soft suppression, emphasizes that ordinary quantum probabilities and local conservation laws are not replaced, and requires any effective cost to respect genuine physical symmetries. Its strongest current explanatory target is the low-entropy beginning and the thermodynamic arrow via restart rarity. The first concrete experimental route proposed here is a reversible photonic loop-history test. Two histories are arranged to have the same final optical state and the same standard optical prediction, but different calibrated internal mode-history cost. In a minimal small-distortion model, the conditional residual scalings are Delta phiᵣes scales as N eta², and 1 - xiᵣes scales as N² eta⁴. This note does not claim that the framework is established, that the proposed residual has been observed, or that quantum mechanics is replaced. It is intended as a compact, citable priority statement and as a basis for critical feedback and later development into separate technical papers.
Niels Boelger (Wed,) studied this question.