Quasi-Vector Spin Voxels & Magnetics (Research Draft)
Status: EXPERIMENTAL — not authoritative spec.
Scope: R&D proposal for spin-textured voxel dynamics and magnetic analogies.
Canonical Kernel Spec:
SPEC.md(normative). This document must not override canonical protocol behavior.
Integration targets (proposed): L5-L8, L10, L12
Author: Issac Davis
Executive summary
This document explores a magnetic/spin-field extension to SCBE-AETHERMOORE’s geometric pipeline. Intent vectors are modeled as a spin field over quasi-periodic voxel lattices, with proposed links to:
- hyperbolic manifold placement,
- spin coherence in governance telemetry,
- modified harmonic scaling under adversarial disorder,
- self-organizing quarantine analogies via domain-wall energy.
This is a research framing and should be treated as hypothesis-generation material.
Proposed model components
1) Spin-field representation
- Voxel spin state:
S_i(t) ∈ R^3 - Intent mapping:
S_i(t) = I_i(t) / ||I_i(t)||(normalized local intent direction) - Optional quasi-periodic phason stepping with golden-ratio phase increments.
2) Spin Hamiltonian (research form)
Proposed objective:
H_spin = -J Σ<S_i,S_j> - B·ΣS_i - Σ_k w_k exp(-||S_i-μ_k||^2 / 2σ^2)
Interpretation:
- exchange term models local alignment/anti-alignment,
- field term models external governance pressure,
- multi-well term models trust realm attractors.
3) Harmonic scaling coupling
Canonical kernel formula remains:
H(d, R) = R^(d^2)
Research coupling candidate:
H_mod = R^(d^2) * (t / ||I||_H) * (1 + α * H_spin / H0)
This extension is non-canonical until validated and promoted via SPEC.md.
Integration map (non-normative)
| Layer | Proposed role |
|---|---|
| L5 | Hyperbolic placement weights voxel interactions |
| L6-L7 | Breath/phase transforms over spin-field dynamics |
| L8 | Realm centers as spin-well attractors |
| L10 | Spin coherence telemetry (C_spin) |
| L12 | Optional magnetic amplification factor over harmonic wall |
Test ideas for R&D harness
- Alignment convergence under ferromagnetic
J > 0. - Norm-preserving phason rotation under quasi-periodic transforms.
- Cost amplification differential between disordered vs aligned states.
- Boundary behavior where induced spin disorder increases quarantine pressure.
These should live in non-canonical test suites and not be interpreted as compliance tests.
Multi-clock extension (proposal)
Introduce independent temporal counters (fast/session/governance/circadian/event) and select a dominant T_active for adaptive runtime amplification. This is exploratory and requires deterministic semantics before any canonicalization.
Publication and indexing guidance
- Keep this document under
docs/research/. - Keep experimental warning banner intact.
- Do not cite this as canonical kernel behavior in external abstracts/releases.
- If promoted, first update
SPEC.mdandCONCEPTS.md, then cross-link here as historical research provenance.
Cross-links
- Canonical protocol:
SPEC.md - Stable terminology:
CONCEPTS.md - Orchestration reference:
docs/hydra/ARCHITECTURE.md - Experimental module (non-canonical):
experimental/scbe_21d_max_fixed.py