TRS Prompts — RTT/1
Prompt Library for the Triadic Regime Synthesizer (TRS)#
These prompts are designed for AI systems using the Triadic Regime Synthesizer (TRS).
Each prompt invokes one or more canonical TRS operators:
- TRS‑Synthesize
- TRS‑Merge
- TRS‑Harmonize
- TRS‑Boundary
- TRS‑Tensor
- TRS‑Resolve
Prompts are grouped by regime tensor type and operator class.
1. Regime Signature Prompts#
Prompt: Detect Regime Signatures#
Use TRS‑Synthesize to identify regime onset, polarity, boundary alignment, and signature tensor structure.
Prompt: Analyze Regime Polarity#
Apply TRS‑Synthesize to compute regime polarity, onset strength, and polarity stability.
Prompt: Evaluate Regime Onset Conditions#
Use TRS‑Synthesize to detect regime onset conditions and classify regime signature tensors.
2. Regime Boundary Prompts#
Prompt: Compute Boundary Stability#
Use TRS‑Boundary to compute boundary stability, boundary curvature, and drift‑sensitive boundary behavior.
Prompt: Detect Boundary Alignment#
Apply TRS‑Boundary to detect boundary alignment, boundary sensitivity, and boundary inversion.
Prompt: Evaluate Boundary Fusion Potential#
Use TRS‑Boundary to identify fusion potential, boundary curvature, and boundary‑driven synthesis.
3. Regime Interlock Prompts#
Prompt: Map Regime Interlocks#
Use TRS‑Merge to map interlock regions, interlock arcs, interlock curvature, and multi‑regime interlock topology.
Prompt: Generate Interlock Topology#
Apply TRS‑Merge to generate interlock topology diagrams showing multi‑regime interlock geometry.
Prompt: Evaluate Interlock Strength#
Use TRS‑Merge to compute interlock strength, interlock curvature, and interlock stability.
4. Regime Synthesis Prompts#
Prompt: Compute Regime Synthesis#
Use TRS‑Tensor to compute synthesis magnitude, synthesis direction, synthesis curvature, and fusion depth.
Prompt: Detect Synthesis Alignment#
Apply TRS‑Tensor to detect synthesis alignment, synthesis polarity, and synthesis curvature.
Prompt: Evaluate Synthesis‑Driven Coherence#
Use TRS‑Tensor to compute coherence ridges, coherence troughs, and synthesis‑driven coherence fields.
5. Regime Harmonization Prompts#
Prompt: Harmonize Regime Interactions#
Use TRS‑Harmonize to harmonize regime interactions, merge regime boundaries, and integrate regime transitions.
Prompt: Compute Harmonization Flow#
Apply TRS‑Harmonize to compute harmonization flow, harmonization curvature, and harmonization stability.
Prompt: Evaluate Harmonization‑Driven Stability#
Use TRS‑Harmonize to compute stability envelopes and harmonization‑driven coherence.
6. Regime Conflict Resolution Prompts#
Prompt: Resolve Regime Conflicts#
Use TRS‑Resolve to propose structural resolutions for regime conflicts, boundary misalignment, and interlock instability.
Prompt: Compute Conflict‑Driven Synthesis#
Apply TRS‑Resolve to compute synthesis curvature, conflict polarity, and conflict‑driven fusion depth.
Prompt: Evaluate Conflict‑Driven Stability#
Use TRS‑Resolve to compute stability envelopes for conflict‑driven synthesis.
7. Full‑Matrix Prompts#
Prompt: Generate Full Regime Synthesis Matrix#
Use all TRS operators to produce a complete
regime_synthesis_matrix.jsoncontaining signature, boundary, interlock, synthesis, and coherence entries.
Prompt: Analyze Regime Topology#
Apply TRS‑Tensor to generate a full regime topology map showing interlocks, boundaries, synthesis zones, and coherence ridges.
Prompt: Regime Overview#
Use TRS‑Resolve to compute stability envelopes for every regime tensor type and produce a regime summary.
8. AI‑Ready Meta‑Prompts#
Prompt: Explain Regime Tensor Classification#
Provide a detailed explanation of how TRS classifies regime tensors into signature, boundary, interlock, synthesis, and coherence categories.
Prompt: Operator‑Level Summary#
Summarize the role of each TRS operator and how they interact to produce regime‑layer intelligence.
Prompt: Cross‑Engine Integration#
Explain how TRS outputs feed into PGA, CTE, DS, SFD, SBC, TRS‑Temporal, CW, and DRS.
Status#
- Version: 1.0
- Status: canon‑stable
- Category: rtt‑regime
- Module Path:
/docs/rtt/Triadic_Regime_Synthesizer/