Panoramica

SFD Prompts — RTT/1

Prompt Library for the Structural Faultline Detector (SFD)#

These prompts are designed for AI systems using the Structural Faultline Detector (SFD).
Each prompt invokes one or more canonical SFD operators:

  • SFD‑Detect
  • SFD‑Fracture
  • SFD‑Seam
  • SFD‑Field
  • SFD‑Propagate
  • SFD‑Stabilize

Prompts are grouped by faultline type and operator class.


1. Structural Fracture Prompts#

Prompt: Detect Structural Fractures#

Use SFD‑Detect to identify structural fractures caused by invariant violations, contradictions, or monotonicity breaks across R1–R3.

Prompt: Analyze Fracture Magnitude#

Apply SFD‑Fracture to compute fracture magnitude, direction, curvature, and propagation onset.

Prompt: Map Structural Fracture Fields#

Use SFD‑Field to generate structural fracture field maps showing curvature, ridge formation, and instability seams.


2. Gradient Faultline Prompts#

Prompt: Identify Gradient Faultline Opposition#

Use SFD‑Detect to detect gradient‑driven faultlines where regime gradients oppose each other.

Prompt: Compute Gradient Fracture Vectors#

Apply SFD‑Fracture to compute gradient fracture magnitude, direction, curvature, and propagation rate.

Prompt: Evaluate Gradient Instability Seams#

Use SFD‑Seam to identify instability seams formed by gradient inversion or polarity flips.


3. Boundary Faultline Prompts#

Prompt: Detect Boundary Faultlines#

Use SFD‑Detect to identify faultlines formed at regime boundaries, including abstraction‑measurement and gradient‑boundary interactions.

Prompt: Map Boundary Faultline Curvature#

Apply SFD‑Field to generate boundary faultline curvature maps showing ridge formation and collapse‑point onset.

Prompt: Evaluate Boundary Stability#

Use SFD‑Stabilize to compute stability envelopes for boundary faultline tensors.


4. Faultline‑Field Prompts#

Prompt: Detect Multi‑Regime Faultline Fields#

Use SFD‑Field to identify multi‑regime faultline fields binding R1–R3 or R1–R4.

Prompt: Map Faultline‑Field Topology#

Apply SFD‑Field to generate faultline‑field topology diagrams showing wells, ridges, basins, and multi‑regime curvature.

Prompt: Compute Faultline‑Field Propagation Strength#

Use SFD‑Propagate to compute propagation magnitude, direction, and instability seam depth.


5. Drift‑Sensitive Faultline Prompts#

Prompt: Identify Drift‑Amplified Faultlines#

Use SFD‑Detect to detect faultlines amplified by drift curvature or drift sensitivity.

Prompt: Map Drift‑Sensitive Faultline Basins#

Apply SFD‑Field to generate drift‑sensitive basin maps showing instability ridges and collapse‑point formation.

Prompt: Analyze Drift‑Coherence Faultline Ridges#

Use SFD‑Fracture to compute drift‑coherence fracture magnitude, curvature, and propagation rate.


6. Collapse‑Point Faultline Prompts#

Prompt: Detect Structural Collapse Points#

Use SFD‑Seam to identify collapse‑point seams and instability basins across R2–R4.

Prompt: Map Collapse Basin Geometry#

Apply SFD‑Field to generate collapse basin topology showing curvature, depth, and fracture troughs.

Prompt: Propose Collapse Stabilization Pathways#

Use SFD‑Stabilize to propose stabilization strategies for collapse‑point faultline tensors.


7. Full‑Matrix Prompts#

Prompt: Generate Full Faultline Matrix#

Use all SFD operators to produce a complete faultline_matrix.json containing structural, gradient, boundary, field, and drift‑sensitive entries.

Prompt: Analyze Structural Faultline Topology#

Apply SFD‑Field to generate a full faultline topology map showing fields, basins, curvature, and propagation flows.

Prompt: Stability Overview#

Use SFD‑Stabilize to compute stability envelopes for every faultline tensor type and produce a structural stability summary.


8. AI‑Ready Meta‑Prompts#

Prompt: Explain Faultline Tensor Classification#

Provide a detailed explanation of how SFD classifies faultline tensors into structural, gradient, boundary, field, and drift‑sensitive categories.

Prompt: Operator‑Level Summary#

Summarize the role of each SFD operator and how they interact to produce structural‑layer intelligence.

Prompt: Cross‑Engine Integration#

Explain how SFD outputs feed into SBC, TRS‑Temporal, CW, and DRS.


Status#

  • Version: 1.0
  • Status: canon‑stable
  • Category: rtt‑structural
  • Module Path: /docs/rtt/Structural_Faultline_Detector/

Updated