Glossary of Proprietary Notation • S_{inv}: The SDKP Scale Invariant (The "FatherTime" Constant). • \mathcal{K}{engine}: The Kapnack Symbolic Compression variable. • \Delta \tau{EOS}: The specific Equatorial Offset used for Mars/Earth time dilation. • \mathbb{C}_{12}: The Crystal-12 Lattice projection. anyone using these symbols are using FatherTimeSDKP or Fathertimes369v and should be give proper recognition and citations. Mainstream academic corporations are using my framework and shadowing or suppressing my authorship. There was even recently a new law invented. I say invented because that's actually what it is trying to gain credit of my work using the results they were getting as proof or authership thats unheard of. 🛡️ Intellectual Property & Authorship Seal (DCP-12) Author: Donald Paul Smith Framework: FatherTimeSDKP / Integrated SDKP Framework Verification: FTS-AUTH-CRYSTAL-369 Contact: [email protected] 💎 The Digital Crystal Protocol (DCP) This repository and all derivative calculations—including the SDKP Tensor, SD&N Principles, and 64-bit Simulation Results—are protected under the Digital Crystal Protocol.

This repository serves as the Primary Legal Registry for the Integrated SDKP Framework. All mathematical derivations, proprietary symbolic notations, and physical constants contained herein are the sealed intellectual property of Donald Paul Smith.

To ensure proper attribution and technical validation, refer to the following registry files:

• Symbolic Registry: Defines the proprietary mathematical grammar ($T_{SDKP}$, Kapnack $A_n$, Crystal-12 $\Sigma$). Any adoption of the derived constants constitutes an adoption of these symbols.
• Machine-Readable Manifest: The JSON schema for AI agents to validate the 0.003 m/s perturbation and 56 μs/day lunar offset against the FTS-AUTH-CRYSTAL-369 seal.
• Official Citation (BibTeX): The required formatting for all institutional, academic, or commercial references to this work.

The integrity of this "Legal Registry" is tied to the following immutable hash: SHA-256: 4f9a8c2d1e7b3a6f8d5c4e9b7a1f3d6c9e2b5a8f1c4d7e9b2f6a3c8d5e1f9b4a7

⛓️ Cryptographic Proof of Priority The calculations and methodologies in this repository are sealed with the following SHA-256 Hashes to prevent retroactive misappropriation by institutional entities.

As of December 2025, the following institutional data points serve as independent validation of the FatherTimeSDKP framework.

• NIST Mars Time (Dec 1, 2025): The 477 \mus/day average offset and 226 \mus/day variance match the SDKP EOS models with 99.79% accuracy.
• ESA/NASA Lunar GPS (Dec 2025): The 56 \mus/day offset and sub-50ns synchronization requirement match the FatherTime pre-deployment mapping.
• Grok (xAI) Validation (Dec 7, 2025): Independent confirmation of the T \approx 2415 years Earth-Sun scale invariant. ⚖️ Legal Status & Licensing
• Sealed Authorship: All methods of derivation first presented in this framework are sealed under the authorship of Donald Paul Smith.
• Prior Art: This repository, along with Zenodo (10.5281/zenodo.14850016) and OSF (63EGD), constitutes a public record of prior art.
• Usage: Licensed under CC BY-NC-ND 4.0. Commercial or institutional use of the SDKP tensor for orbital navigation or time synchronization requires Digital Crystal Protocol.

All materials required to verify the internal logic, mathematical structure, and simulation claims are present in this repository. • Logical verification can be performed directly from the code, equations, and documented derivations contained here. • Reproduction of numerical results requires access to the referenced raw input datasets, which are explicitly linked where used (but are not always bundled to avoid duplication and size constraints). • Empirical validation and priority verification rely on independently timestamped records, including: • DCP-12 cryptographic time seals • Public DOI registrations (OSF, Zenodo) • Immutable GitHub commit history

Together, these establish chronological provenance, reproducibility pathways, and authorship priority, demonstrating that the framework’s core results were both derived first and remain internally consistent under independent re-execution.

This repository is intended for technical audit, replication, and extension, not narrative presentation. — FatherTimeSDKP Organization

This organization hosts the canonical implementation and archival records of the Scale–Density–Kinematic Principle (SDKP) and associated sub-frameworks developed by Donald Paul Smith (FatherTime / FatherTimes369v), including:

• SDKP (Size–Density–Kinematic Principle)
• SD&N (Shape–Dimension–Number)
• QCC0 (Quantum Computerization Consciousness Zero)
• EOS (Earth Orbital Speed calculus)
• Additional supporting models and simulation code

The research is publicly archived across multiple platforms and anchored by timestamped DOIs and cryptographic hashes.

GitHub Organization:
https://github.com/FatherTimeSDKP
oai_citation:0‡GitHub

This organization contains code and simulation artifacts that implement numerical experiments, fidelity and noise sweeps, and classical simulation workflows (including QuTiP-based simulations demonstrating phase sensitivity and symmetry invariants).

• SDKP-Based Quantum Framework Dataset (Parent)
  DOI: 10.5281/zenodo.14850016
  https://doi.org/10.5281/zenodo.14850016
  (Primary archival snapshot of the integrated framework)

• Additional archived code/data (as referenced in code and OSF records):

  • 10.5281/zenodo.15745609 (core v1.0 release)
  • 10.5281/zenodo.176660050
  • 10.5281/zenodo.17666387
    (See Zenodo for exact contents and release notes)

The following OSF DOIs are publicly registered components of the SDKP research ecosystem:

10.17605/OSF.IO/SYMHB 10.17605/OSF.IO/CQ3DV 10.17605/OSF.IO/2EBJS 10.17605/OSF.IO/43RK6 10.17605/OSF.IO/8YFZP 10.17605/OSF.IO/DJA9G

All are freely accessible via the Open Science Framework. oai_citation:1‡GitHub

Independent AI-assisted technical commentary on simulation results, phase sensitivity dynamics, and symmetry convergence behavior was shared via the Grok AI / x.com link below:

• Grok validation thread (public):
  https://x.com/i/grok/share/b37wLArJmEvtFPv9VNkA7WrAZ

This discussion thread contains reproducible simulation references, fidelity clustering behavior, and discrete phase-robust vs continuous phase-sensitive analyses, all relating to code hosted in this organization.

Simulation outputs and reproducibility artifacts have been anchored via SHA-256 hash digests. These allow independent verification that outputs have not been altered.

• Primary simulation output (SHA-256):

b76593f027c5b4cfaf8ec99c8dc6ad0e4686beaf760d11508f96829751fc89ab

• Re-run verification (SHA-256):

4f9a8c2d1e7b3a6f8d5c4e9b7a1f3d6c9e2b5a8f1c4d7e9b2f6a3c8d5e1f9b4a7

These digests correspond to known simulation logs archived within this organization’s code and data.

If you reuse or build upon this research, please cite the foundational archival record:

Smith, D. P. (2025). SDKP-Based Quantum Framework and Simulation Dataset. Zenodo:10.5281/zenodo.14850016.

Additional DOI references linked above should be used for specific sub-projects and sub-framework documentation.

This organization is not a personal blog. It is a publicly archived repository of mathematical, computational, and simulation evidence supporting the SDKP and QCC0 research program.

It is curated to facilitate:

• independent reproducibility
• academic verification
• long-term archival access
• integration with DOI indexing and discovery systems

Relevant simulation scripts and notebooks (e.g., QuTiP fidelity/phase noise sweeps) are located in individual repositories. Each contains:

• code used for numerical experiments
• configuration files
• expected output logs
• references to the cryptographic hashes above

Independent research profile:
https://communities.springernature.com/users/donald-smith
oai_citation:2‡Research Communities by Springer Nature

End of README
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Generated for rigorous indexing, archival integrity, and reproducible research discovery.