PLANCK LCDM PRELIMINARY STRUC-PERC LADDER MANIFEST
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Input trajectory: C:\Users\igorc\OneDrive\Desktop\UNNS_SUBSTRATE(desktop)\TRANSFER\Bulk_2\REGIME_SYNTHESIS\Cosmological Boundary Routing\cosmological_boundary_routing\C_planck_lcdm\generated_trajectory\validated\planck_lcdm_trajectory_validated.csv
Output ladder: C:\Users\igorc\OneDrive\Desktop\UNNS_SUBSTRATE(desktop)\TRANSFER\Bulk_2\REGIME_SYNTHESIS\Cosmological Boundary Routing\cosmological_boundary_routing\C_planck_lcdm\canonical\ladder\planck_lcdm_response_ladder_preliminary.csv

DATASET
Dataset C — Planck-anchored Lambda-CDM expansion

SCALAR RESPONSE COORDINATE
q_C(a) = ln(E(a))
E(a) = H(a) / H0

STATUS
PRELIMINARY
This is a controlled one-column conversion for an initial STRUC-PERC-I evaluation.
It is not yet the frozen shared A/B/C canonical ladder definition.

COUNTS
trajectory samples = 4001
ladder elements = 4001
unique ladder elements = 4001
gap count = 4000

RANGE
minimum q_C = 0
maximum q_C = 32.195396200066021
minimum gap = 0.0021926269157571138
maximum gap = 0.0092102612933970818

STRUC-PERC-I SETTINGS
domain adapter = Generic
kappa points = 17
kappa minimum = 0.01
kappa maximum = 1.0

IMPORTANT LIMITS
- Do not load the full multi-column trajectory CSV directly into STRUC-PERC-I.
- This ladder measures the gap geometry of ln(E), not the final UNNS cosmological margin.
- The result remains sampling-dependent until Datasets A and B use the same grid and scalar mapping.
- Alpha application must be performed as a separate recorded step.
