TriadicFrameworks
Overview

RTT‑Inside / Cisco — Operator Hooks (Base + Grid‑Scale)

Purpose#

Convert Cisco‑origin telemetry, configuration, management actions, and flow‑level behaviors into RTT‑style causal objects. Provides the causal spine for reasoning across routing, switching, wireless, SD‑WAN, controller fabrics, and grid‑scale clusters.

This file defines:

  • Base Cisco operator grammar (device‑level)
  • Grid‑Scale Variant (cluster‑level, MRC/MCR)
  • Regime‑aware extensions (DSRSP)
  • Resonance Chamber routing hooks
  • ROA compatibility for Internet3‑class substrates

1. Base Cisco Operator Grammar#

INTENT_CISCO — Declared Network Intent#

INTENT_CISCO(source) → declared_intent

TIF_CISCO — Telemetry Interpretation Frame#

TIF_CISCO(telemetry) → interpreted_signal

MAN_CISCO — Management Plane Causality#

MAN_CISCO(action) → mgmt_causal_link

FFF_CISCO — Forwarding Fabric Flow#

FFF_CISCO(flow) → flow_causality

CRE_CISCO — Causal Resolution Engine#

CRE_CISCO(intent, signal, mgmt) → resolved_causality

CSL_CISCO — Causal Lineage Stitching#

CSL_CISCO(events[]) → lineage_chain

CET_CISCO — Causal Event Time#

CET_CISCO(event) → time_indexed_event

RTT_CISCO — Final Causal Output#

RTT_CISCO(chain) → causal_object

2. Grid‑Scale Variant (MRC/MCR)#

Used for large fabrics (10k–100k+ nodes), multi‑node coherence, and cluster‑scale stitching.

INTENT_CISCO_G#

INTENT_CISCO_G(cluster_policy) → declared_intent

TIF_CISCO_G#

TIF_CISCO_G(cluster_telemetry) → interpreted_signal

MAN_CISCO_G#

MAN_CISCO_G(cluster_action) → mgmt_causal_link

FFF_CISCO_G#

FFF_CISCO_G(cluster_flow) → flow_causality

CRE_CISCO_G#

CRE_CISCO_G(intent, signal, mgmt) → resolved_causality

CSL_CISCO_G#

CSL_CISCO_G(events[]) → lineage_chain

CET_CISCO_G#

CET_CISCO_G(event) → time_indexed_event

RTT_CISCO_G#

RTT_CISCO_G(chain) → causal_object

3. Regime‑Aware Extensions (DSRSP)#

Cisco flows often cross timing, optical, wireless, or orbital regimes.

DSRSP_AWARE_I2#

DSRSP_AWARE_I2(path, sensors) → substrate_signature

HARMONIC_SCAN_I2#

HARMONIC_SCAN_I2(flow, regime_profile) → harmonic_signature

SUBSTRATE_CLASSIFY#

SUBSTRATE_CLASSIFY(harmonic_signature, invariants) → tier_class

4. Resonance Chamber Hooks (Tier‑2 Sandbox)#

Used when flows exhibit unstable invariants, harmonics, or regime‑crossing distortions.

ROUTE_TO_RESONANCE_CHAMBER#

ROUTE_TO_RESONANCE_CHAMBER(flow, tier_class) → chamber_path

SANDBOX_BOUNDARY_ENFORCE#

SANDBOX_BOUNDARY_ENFORCE(chamber_state) → allowed_egress

5. ROA Compatibility (Internet3 Seed)#

The Regime Observer Agent uses Cisco‑origin signals to maintain substrate clarity.

ROA_OBSERVE#

ROA_OBSERVE(regimes, flux, invariants) → observation_state

ROA_DIAGNOSE#

ROA_DIAGNOSE(observation_state, substrate_health) → diagnosis

ROA_DECIDE#

ROA_DECIDE(diagnosis, policy) → action_class

ROA_ACT#

ROA_ACT(action_class, flows) → routed_state

6. Full Base Chain#

INTENT_CISCO
→ TIF_CISCO
→ MAN_CISCO
→ FFF_CISCO
→ CRE_CISCO
→ CSL_CISCO
→ CET_CISCO
→ RTT_CISCO

7. Full Grid‑Scale Chain#

INTENT_CISCO_G
→ TIF_CISCO_G
→ MAN_CISCO_G
→ FFF_CISCO_G
→ CRE_CISCO_G
→ CSL_CISCO_G
→ CET_CISCO_G
→ RTT_CISCO_G

End of File#

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