0.15 — Constellus

Boundary-state ledger, difference snapshots, and cross-epoch recurrence comparison.

Constellus

Constellus is the global boundary-state ledger of the lattice. It records the discrete changes that occur between King-cycle boundary states. It does not record intra-cycle motion, continuous transition paths, or internal oscillation that returns to the same boundary state.

At the start of the universe, the lattice is represented by an initial full-state snapshot. After this initial state, Constellus records only the changes required to reconstruct each later boundary state. Each recorded frame is a difference snapshot.

Each King cycle contributes one global boundary-state comparison, and each recorded \(\Delta\)-frame is immutable once written.

The lattice state at any later formation coordinate is reconstructed from the initial snapshot and the accumulated difference sequence:

\[ CS_k(\tau_n) = CS_k(\tau_0) + \sum_{i=0}^{n-1} \Delta CS_k(\tau_i) \]

This relation defines Constellus as the archival \(\Delta\)-memory of the CPP-lattice system.

After Freeze-Out, formation-scale curvature exchange no longer reorganizes the lattice. The remaining evolution is expressed through boundary-state changes between King cycles. Constellus preserves those changes as a global \(\Delta\)-ledger. It does not act as a force, field, medium, or transport channel. It stores the record structure required to compare lattice states across formation-coordinate snapshots.

A Constellus difference snapshot may include \(\Delta\)-location entries, \(\Delta\)-amplitude entries, changed local lattice geometry, derived curvature imprint, changed boundary dormant-cell topology, transport entries, emission and absorption endpoints, and the recurrence-scale value assigned to the snapshot.

No entry is created when no boundary-state change occurs. A cell whose contents do not transition to a new lattice location, amplitude state, packet occupancy, or boundary role remains represented by the prior reconstructed state.

Constellus does not record intra-cycle oscillation, intra-cycle phase traversal, unchanged CPP amplitude, unchanged dormant-cell topology, or continuous sub-cycle interpolation. Because CPP amplitudes are fixed after their formation epochs, amplitude entries are rare and appear only when a discrete boundary-state transition occurs.

Constellus satisfies information conservation by preserving only the changes needed for boundary-state reconstruction. It also supplies the recurrence-scale comparison used for cross-epoch observation. A photon packet preserves its emitted \(\Delta\mu\) identity during Dormant-Corridor transport, while redshift, epoch-energy projection, and horizon-scale comparison arise from comparing the recurrence scales of different Constellus snapshots.

Thus Constellus remains separate from curvature exchange and transport mechanics while providing the ledger relation required for cosmological observation.

Summary

Constellus is the global boundary-state ledger of the lattice.
It records discrete changes between King-cycle boundary states.
It does not record intra-cycle motion or continuous transition paths.
The initial lattice is represented by a full-state snapshot.
Later states are reconstructed from accumulated difference snapshots.
Each recorded \(\Delta\)-frame is immutable once written.
After Freeze-Out, Constellus preserves boundary-state evolution as a global \(\Delta\)-ledger.
Constellus provides the recurrence-scale comparison required for redshift, epoch-energy projection, and horizon-scale observation.