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🔺 Triad Templates (MRT)

Reusable structural patterns for constructing Micro Triads

Triad Templates define how A (Active), B (Boundary), and P (Potential) are initialized, maintained, and transitioned across different micro‑regimes.
Each template is:

  • minimal
  • deterministic
  • coherence‑preserving
  • aligned with the Micro‑Core substrate

Template T₁ — Stable Triad#

Purpose
A baseline triad for stable micro‑resonance.

Structure

  • A initialized to current micro‑state
  • B set to fixed boundary
  • P computed from local conditions

Behavior
Supports stable A ⇆ P oscillation using R₁.

Use Cases
Heartbeat loops, periodic sampling, low‑power micro‑agents.


Template T₂ — Adaptive Boundary Triad#

Purpose
A triad that adjusts its boundary under environmental drift.

Structure

  • A stable
  • B dynamic (B⁺ / B⁻ allowed)
  • P updated based on boundary shifts

Behavior
Uses K₃ (Boundary Alignment) to maintain coherence.

Use Cases
Thermal drift, voltage variation, noisy environments.


Template T₃ — Inversion‑Ready Triad#

Purpose
A triad designed for reversible state flips.

Structure

  • A and B symmetric
  • P stable
  • inversion trigger monitored via coherence sampling

Behavior
Uses R₂ (Inversion Operator) for clean ↺ transitions.

Use Cases
Mode switching, polarity changes, reversible micro‑states.


Template T₄ — Fractional‑Ladder Triad#

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Purpose
A triad that evolves along fractional dimensions.

Structure

  • Dᶠ active and sampled each micro‑step
  • A and P updated via fractional‑step logic
  • B ensures dimensional coherence

Behavior
Uses P₇ (Fractional Step) and K₆ (Fractional‑Ladder Regulator) to maintain stability during Dᶠ transitions.

Use Cases
Adaptive micro‑states, fine‑grained modeling, micro‑learning loops.


Template T₅ — Bridge‑Ready Triad (μ → Μ)#

Purpose
A triad configured for safe upward influence into macro‑regimes.

Structure

  • A stable
  • B coherence‑validated
  • P aggregates micro‑patterns
  • C sampled continuously

Behavior
Activates the μ → Μ bridge only when C ≥ C* and drift/timing remain bounded.

Use Cases
Micro‑to‑macro alignment, distributed micro‑agents, supervisory systems.


✔️ Summary#

Template Focus
T₁ Stable micro‑resonance
T₂ Adaptive boundary behavior
T₃ Reversible inversion
T₄ Fractional‑ladder evolution
T₅ Micro–macro bridge readiness

Triad Templates provide the structural backbone for building coherent micro‑regimes using MRT and Micro‑Core.

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