Abstract This article develops the junction between the HoloGenesis interpretation of the Hubble rate and the relativistic interpretation of time, curvature, and spacetime geometry. General Relativity describes local gravitational time dilation through the geometry of spacetime. Cosmology describes the Hubble rate as the rate at which the cosmic scale factor changes with time. HoloGenesis proposes that these two descriptions are not isolated facts but two readings of one deeper substrate: the subitron lattice as spacetime itself. In this view, General Relativity correctly measures the behavior of spacetime but does not name the underlying lattice condition that gives spacetime its physical structure. HoloGenesis proposes that the missing substrate is the frequency-capable subitron lattice. Local gravitational time dilation is interpreted as the narrowing of temporal aperture under curvature-density load. The Hubble rate is interpreted as the global dilation or relaxation rate of the same spacetime lattice as realized density evolves from its roof condition toward its floor condition. The article therefore distinguishes two regimes. Local temporal compression occurs near mass, where wrapped frequency loads and saturates the lattice, reducing frequency-event throughput and slowing local proper time. Global temporal relaxation occurs cosmically, where expansion increases the coherence count, reduces active realized density, and produces the Hubble rate as the observable tempo of lattice dilation. HoloGenesis does not reject General Relativity. It proposes a deeper ontological interpretation of why relativistic geometry works. General Relativity gives the metric description. HoloGenesis gives the lattice-causal reading.
Grégoire Mommaerts (Fri,) studied this question.