Genel Bakış

SBC Prompts — RTT/1

Prompt Library for the Stability Basin Cartographer (SBC)#

These prompts are designed for AI systems using the Stability Basin Cartographer (SBC).
Each prompt invokes one or more canonical SBC operators:

  • SBC‑Map
  • SBC‑Basin
  • SBC‑Gradient
  • SBC‑Field
  • SBC‑Collapse
  • SBC‑Stabilize

Prompts are grouped by basin type and operator class.


1. Stability Basin Prompts#

Prompt: Map Stability Basins#

Use SBC‑Map to identify stability basins, basin boundaries, stability fields, and collapse zones across R1–R4.

Prompt: Analyze Basin Magnitude#

Apply SBC‑Basin to compute basin magnitude, direction, curvature, and envelope boundaries.

Prompt: Evaluate Basin Stability#

Use SBC‑Stabilize to compute stability envelopes and propose reinforcement pathways.


2. Gradient Basin Prompts#

Prompt: Detect Gradient Basin Opposition#

Use SBC‑Map to detect gradient‑driven basins where regime gradients oppose each other.

Prompt: Compute Gradient Flow#

Apply SBC‑Gradient to compute basin gradient magnitude, direction, curvature, and stability flow.

Prompt: Evaluate Gradient Collapse Zones#

Use SBC‑Collapse to identify collapse zones formed by gradient inversion or polarity flips.


3. Boundary Basin Prompts#

Prompt: Detect Boundary Stability Basins#

Use SBC‑Map to identify stability basins formed at regime boundaries, including abstraction‑measurement and gradient‑boundary interactions.

Prompt: Map Boundary Basin Curvature#

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

Prompt: Evaluate Boundary Stability#

Use SBC‑Stabilize to compute stability envelopes for boundary basin tensors.


4. Stability‑Field Prompts#

Prompt: Detect Multi‑Regime Stability Fields#

Use SBC‑Field to identify multi‑regime stability fields binding R1–R3 or R1–R4.

Prompt: Map Stability‑Field Topology#

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

Prompt: Compute Stability‑Field Collapse Strength#

Use SBC‑Collapse to compute collapse magnitude, direction, and collapse‑zone depth.


5. Collapse‑Zone Prompts#

Prompt: Detect Stability Collapse Points#

Use SBC‑Collapse to identify collapse‑point seams and instability basins across R2–R4.

Prompt: Map Collapse Basin Geometry#

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

Prompt: Propose Collapse Stabilization Pathways#

Use SBC‑Stabilize to propose stabilization strategies for collapse‑point stability tensors.


6. Full‑Matrix Prompts#

Prompt: Generate Full Stability Basin Matrix#

Use all SBC operators to produce a complete stability_basin_matrix.json containing stability, gradient, boundary, field, and collapse‑zone entries.

Prompt: Analyze Stability Topology#

Apply SBC‑Field to generate a full stability topology map showing fields, basins, curvature, and collapse flows.

Prompt: Stability Overview#

Use SBC‑Stabilize to compute stability envelopes for every basin tensor type and produce a stability summary.


7. AI‑Ready Meta‑Prompts#

Prompt: Explain Basin Tensor Classification#

Provide a detailed explanation of how SBC classifies basin tensors into stability, gradient, boundary, field, and collapse‑zone categories.

Prompt: Operator‑Level Summary#

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

Prompt: Cross‑Engine Integration#

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


Status#

  • Version: 1.0
  • Status: canon‑stable
  • Category: rtt‑stability
  • Module Path: /docs/rtt/Stability_Basin_Cartographer/

Updated