Over time, three closely related frameworks emerged from the same line of thinking: VERSF, which focuses on the emergence of time and spacetime from entropy flow; BCB, which formalizes the conservation of information balance during bit formation; and TPB, which addresses quantum measurement dynamics and the origin of the Born rule. Each framework tackled a different part of the same underlying problem, but as they developed, it became clear that they were not independent ideas—they were different views of a single underlying structure.
The Distinguishability Dynamics Framework (DDF) was written to make that relationship explicit. Its purpose is not to replace VERSF, BCB, or TPB, but to situate them within a single coherent foundation, showing how they share the same primitive assumption—distinguishability—and the same unidirectional logic of irreversible change. What appeared as separate frameworks are revealed as complementary layers: BCB governs how distinguishability is conserved, TPB governs how irreversible change produces measurement outcomes, and VERSF governs how large-scale geometry and time emerge from entropy flow.
This document therefore serves as a canonical unifying reference, not a new theory announcement. It clarifies definitions, fixes notation, resolves overlaps, and makes explicit which results are derived, which are constrained, and which remain open. Just as importantly, it lays out clear falsification criteria so that the combined framework can be tested rather than merely discussed. The goal of DDF is consolidation and clarity: to ensure that future work on VERSF, BCB, or TPB builds on a shared foundation, rather than fragmenting into parallel explanations of the same underlying dynamics.