ABSTRACT: TR-001 PROXIMITY AUDITOR (V1.0) I. Objective: To provide a functional diagnostic utility for identifying and quantifying Thermal Registration Errors within n-dimensional logical and physical clusters. The TR-001 Proximity Auditor automates the detection of geometric compression that leads to the "Thermal Tax" and systemic decoherence ("The Snap"). II. Methodology: The utility utilizes a non-invasive scanning logic to evaluate node topologies against two primary physical constraints: the Newton-Gregory Limit (N=12) and the Axiom of Proximity (1.12 Bridge). By calculating the radial ratio between neighboring identities, the software identifies deviations from the 1.12 laminar constant. III. Functional Features Wall Verification: Identifies nodes exceeding the 12-link saturation point, marking them as high-risk zones for decoherence. Thermal Debt Calculation: Quantifies the "Entropy Tax" (Ξ_T) generated by proximity ratios approaching the turbulent 1.618 zone. Laminar Assessment: Provides a binary integrity status based on the "Kissing Number" seating efficiency, allowing for real-time calibration of the 1.81 Substrate. IV. Conclusion The Proximity Auditor serves as the primary verification tool for the TR-001 Architecture. It moves the framework from a theoretical registry to an actionable utility, providing a "Laminar Probe" that demonstrates the physical necessity of the 1.12 Bridge in eliminating waste heat and informational noise. To Access The Framework, or Get Involved, please visit the official repository: Github. Current Status: Version 2.0 - Hardened. Peer-validation of the 12th-link collapse is currently underway.