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Research Modules — TriadicFrameworks Prompts

Research modules define how RTT engines, IPD‑12, stacks, and operators are used in structured research workflows. They provide the grammar, operators, drift‑tensor mapping, coherence anchors, and multi‑layer alignment needed to conduct research without narrative drift, speculation, or domain‑inconsistent reasoning.

These modules include explainers, structured prompts, diagnostics, worksheets, and cross‑links to the Docsbook and S3 Spine Visualizer.

This page is the front door for all research‑level prompt modules.


Purpose#

Research modules teach:

  • how to conduct RTT‑aligned research across any domain
  • how to use drift‑tensor mapping to identify structural differences
  • how to declare coherence anchors during research
  • how to evaluate multi‑layer alignment in research findings
  • how to use operator grammar to maintain structural neutrality
  • how to apply RTT/1 → RTT∞ engines to research questions
  • how to produce resonance‑aligned research summaries

They are used in academic, scientific, civic, cultural, and technical research.


Research Concepts#

Research Operators#

Operators that describe how inquiry moves, aligns, diverges, or stabilizes.

Research Drift#

Differences that appear when comparing theories, models, or findings.

Research Coherence#

What remains aligned across competing explanations.

Research Regimes#

Stable attractors within research domains (e.g., classical, quantum, cognitive, civic).

Research Synthesis#

Cross‑layer alignment across RTT/1 → RTT∞ applied to research.


Research Module Categories#

Foundational Research Modules (RTT/1)#

Basic operator grammar, drift detection, coherence declaration in research contexts.

Intermediate Research Modules (RTT/2)#

Cross‑layer research traversal, multi‑layer drift mapping, operator alignment.

Advanced Research Modules (RTT/3)#

Regime‑point detection, structural tension surfacing, research synthesis.

Full‑Spectrum Research Modules (RTT/12)#

Full‑stack research traversal, multi‑regime alignment, deep‑layer readiness.

Deep‑Layer Research Modules (RTT∞)#

Vacuum → substrate‑tensor → rails → prime‑states → infinite regimes applied to research.


Example Research Modules#

  • Agentic Research Module
    Structured agentic inquiry using RTT operators and drift‑bounded reasoning.

  • Cross‑Domain Research Module
    Psychology ↔ physics ↔ economics ↔ governance ↔ AI ↔ biology.

  • Substrate‑Aware Research Module
    Research aligned with substrate‑tensor behavior and dimensional rails.

  • Drift‑Tensor Research Module
    Five‑layer drift mapping for research comparisons.

  • Coherence‑Anchors Research Module
    Declaring coherence across competing theories or models.


Prompts Site#

https://www.triadicframeworks.org/prompts/modules/research/

Docsbook#

https://docs.triadicframeworks.org/docs/

S3 Spine Visualizer#

https://www.triadicframeworks.org/spine

GitHub Source#

https://github.com/umaywant2/TriadicFrameworks/tree/main/docs/prompts/modules


  • index.md — modules front‑door
  • applied.md — applied modules
  • diagnostic.md — diagnostic modules
  • dimensional.md — dimensional modules
  • domain.md — domain modules
  • operator.md — operator modules
  • theoretical.md — theoretical modules
  • teaching.md — teaching modules
  • ../examples/index.md — examples directory
  • ../engines/index.md — RTT engines

Manifest#

See module.json for the full registry of research modules, engines, stacks, templates, UI modules, and navigation structure.

Updated