CTE Prompts — RTT/1
Prompt Library for the Coherence Tensor Engine#
These prompts are designed for AI systems using the Coherence Tensor Engine (CTE).
Each prompt invokes one or more canonical CTE operators:
- CTE‑Compute
- CTE‑Tensor
- CTE‑Gradient
- CTE‑Field
- CTE‑Collapse
- CTE‑Stabilize
Prompts are grouped by tensor type and operator class.
1. Structural Coherence Prompts#
Prompt: Detect Structural Coherence Tensors#
Use CTE‑Compute to identify structural coherence tensors formed by invariants, constraints, or monotonicity rules across R1–R3.
Prompt: Map Structural Coherence Fields#
Apply CTE‑Field to generate structural coherence field maps showing curvature, ridge formation, and stability envelopes.
Prompt: Compute Structural Coherence Gradients#
Use CTE‑Gradient to compute gradient magnitude, direction, and drift sensitivity for structural coherence tensors.
2. Gradient Coherence Prompts#
Prompt: Identify Coherence Gradient Alignment#
Use CTE‑Tensor to detect coherence gradients that align across regimes, forming coherence ridges or multi‑regime coherence pathways.
Prompt: Compute Coherence Gradient Vectors#
Apply CTE‑Gradient to compute coherence gradient vectors, including magnitude, direction, curvature, and alignment.
Prompt: Analyze Gradient Stability#
Use CTE‑Stabilize to evaluate stability envelopes for coherence gradients and propose stabilization pathways.
3. Boundary Coherence Prompts#
Prompt: Detect Boundary Coherence Conditions#
Use CTE‑Compute to identify coherence tensors formed at regime boundaries, including abstraction‑measurement and gradient‑boundary interactions.
Prompt: Map Boundary Coherence Curvature#
Apply CTE‑Field to generate boundary coherence curvature maps showing ridge formation and collapse‑point onset.
Prompt: Evaluate Boundary Stability#
Use CTE‑Stabilize to compute stability envelopes for boundary coherence tensors.
4. Tensor‑Field Coherence Prompts#
Prompt: Detect Multi‑Regime Coherence Tensors#
Use CTE‑Tensor to identify multi‑regime coherence tensors binding R1–R3 or R1–R4.
Prompt: Map Tensor‑Field Topology#
Apply CTE‑Field to generate tensor‑field topology diagrams showing coherence wells, ridges, and multi‑regime curvature.
Prompt: Compute Tensor‑Field Gradient Strength#
Use CTE‑Gradient to compute tensor gradient magnitude, direction, and coherence curvature.
5. Drift‑Sensitive Coherence Prompts#
Prompt: Identify Drift‑Sensitive Coherence Tensors#
Use CTE‑Compute to detect coherence tensors influenced by drift curvature or drift amplification.
Prompt: Map Drift‑Sensitive Coherence Basins#
Apply CTE‑Field to generate drift‑sensitive coherence basin maps showing instability ridges and collapse‑point formation.
Prompt: Analyze Drift‑Coherence Stability#
Use CTE‑Stabilize to compute stability envelopes for drift‑sensitive coherence tensors.
6. Collapse‑Point Prompts#
Prompt: Detect Coherence Collapse Points#
Use CTE‑Collapse to identify coherence collapse points and instability basins across R2–R4.
Prompt: Map Collapse Basin Geometry#
Apply CTE‑Field to generate collapse basin topology showing curvature, depth, and coherence troughs.
Prompt: Propose Collapse Stabilization Pathways#
Use CTE‑Stabilize to propose stabilization strategies for collapse‑point coherence tensors.
7. Full‑Matrix Prompts#
Prompt: Generate Full Coherence Tensor Matrix#
Use all CTE operators to produce a complete
coherence_tensor_matrix.jsoncontaining structural, gradient, boundary, tensor‑field, drift‑sensitive, and collapse‑point entries.
Prompt: Analyze Coherence Field Topology#
Apply CTE‑Field to generate a full coherence topology map showing fields, basins, curvature, and gradient flows.
Prompt: Stability Overview#
Use CTE‑Stabilize to compute stability envelopes for every coherence tensor type and produce a coherence stability summary.
8. AI‑Ready Meta‑Prompts#
Prompt: Explain Coherence Tensor Classification#
Provide a detailed explanation of how CTE classifies coherence tensors into structural, gradient, boundary, tensor‑field, drift‑sensitive, and collapse‑point categories.
Prompt: Operator‑Level Summary#
Summarize the role of each CTE operator and how they interact to produce coherence‑layer intelligence.
Prompt: Cross‑Engine Integration#
Explain how CTE outputs feed into DS, SFD, SBC, TRS‑Temporal, CW, and DRS.
Status#
- Version: 1.0
- Status: canon‑stable
- Category: rtt‑structural
- Module Path:
/docs/rtt/Coherence_Tensor_Engine/