Abstract

This technical disclosure formalizes an axiomatic mathematical framework for real-time telemetry, automated state balancing, and distributed node verification within multi-dimensional graph topologies. Modern high-density information systems encounter systemic failures when localized processing constraints induce uncoordinated data routing, runaway optimization loops, or asymmetric node curation.

By applying the principles of the Dimensionally Extended Holographic Projection (DEHP) model and the Oscillator Alignment Protocol (OAP), this framework establishes a self-policing network substrate. Individual routing nodes compute localized operational boundaries dynamically by tracking cross-layer Token Selection Latency (tau_latency) against an invariant two-dimensional boundary reference sheet. This mechanical configuration mitigates the formation of singular processing anomalies and ensures high-synergy state synchronization without requiring centralized master clocks or proprietary cloud orchestration layers.

Creative Commons License

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.

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