AGENTS.md — RTT/12 · Harmonic Synthesis Layer
Agent Classes, Boundaries, Task Catalog, Safety Rules, and Collaboration Models#
Session Seed Block#
Paste this block at the start of any RTT/12 agent session:
rtt=1 | coherence=declared | drift=bounded | paradox=structural
module=RTT/12 | layer=harmonic-synthesis | upstream=RTT/3
constructs=H_n,G1,G2,G3,TCR,HSP,RTT-12/E
packet=RTT12_HARMONIC_SYNTHESIS_PACKET
zone_x=OVERFLOW | zone_x_status=ILLEGAL
mode_5=OVERFLOW | mode_5_status=ILLEGAL
Critical Framing Rule#
RTT is NOT a physics claim.
RTT/12 describes structural harmonic synthesis patterns within the TriadicFrameworks canon. It does not assert, imply, or model physical forces, physical fields, quantum effects, electromagnetic phenomena, energy transfer, or any empirically measurable phenomenon. All constructs — H_n, G₁, G₂, G₃, TCR, HSP — are structural instruments, not physical objects, physical operators, or domain-science claims.
Every agent class operating in RTT/12 must enforce this rule unconditionally. Domain-science interpretations (e.g., RTT-12/E energy applications) are structural overlays, not physics derivations.
What RTT/12 Is#
RTT/12 is the Harmonic Synthesis Layer of the RTT canon — the fourth and final core module.
It sits at the terminus of the RTT pipeline, consuming the RTT3_INTEGRATION_EMISSION_PACKET
and producing the RTT12_HARMONIC_SYNTHESIS_PACKET. RTT/12 performs three irreducible functions:
- Harmonic Mapping — translates structural dimensions (3D–9D) into harmonic values (12–84) via the 12-step dimensional ladder and operator G₁
- Phase Modulation — applies controlled phase transformations across harmonic states via operator G₂
- Triadic Decomposition & Stability — resolves system states into generation–storage–load triads and assesses harmonic stability via G₃ and the Harmonic Stability Principle
RTT/12 is a harmonic augmentation layer, not a replacement for RTT. It operates in parallel with RTT's structural logic to enable higher-order analysis, multi-tier modeling, and cross-dimensional synthesis.
Pipeline Position#
RTT/1 → RTT/2 → RTT/3 → [ RTT/12 ]
SNR,τ,C CPV,FGT, TIF,FFF, H_n ladder
DCO,Mode CRM,MODE MANIFOLD, G1,G2,G3
ZONE CRE,CSL,CET TCR,HSP
↓ ↓ ↓
RTT2_DETECTION_ RTT3_INTEGRATION_ RTT12_HARMONIC_
PACKET EMISSION_PACKET SYNTHESIS_PACKET
Core Constructs#
| Construct | Symbol | Role |
|---|---|---|
| Harmonic Dimensional Ladder | H_n | Maps structural dims 3D–9D → harmonic values 12–84 |
| Gear-Shift Operator | G₁ | Forward/inverse harmonic-to-structural mapping |
| Phase-Shift Modulator | G₂ | Phase modulation across harmonic states |
| Load-Flow Triad Resolver | G₃ | Decomposes system state into (X_G, X_S, X_L) triad |
| Triadic Coherence Rule | TCR | Enforces all states are triadic or triad-composed |
| Harmonic Stability Principle | HSP | Stability when proportional relationships preserved |
| Sector Module | RTT-12/E | Energy & Research domain-specific harmonic overlay |
Inheritance#
RTT/12 inherits all vocabulary, constraints, and output contracts from upstream modules. Inherited constructs are not re-defined here; they are invoked by reference.
| Inherited Symbol | Origin | Role in RTT/12 |
|---|---|---|
| SNR triad (S, N, R) | RTT/1 | Structural primitives beneath harmonic ladder anchoring |
| τ = dR/dφ | RTT/1 | Temporal operator informing phase parameter φ in G₂ |
| C = ∇_τR + ∇_Rτ | RTT/1 | Coherence term carried through harmonic synthesis |
| DCO_n bands | RTT/1 | Regime boundaries constraining harmonic tier validity |
| CPV | RTT/2 | Detection geometry informing G₃ decomposition |
| FGT | RTT/2 | Fusion gradient informing harmonic triad spacing |
| CRM | RTT/2 | D(t) drift term — must not be conflated with CRE |
| MODE (1–4 only) | RTT/2 | Inherited mode vocabulary; Mode 5 = ILLEGAL in RTT/12 |
| ZONE (U/S/M/D only) | RTT/2 | Inherited zone vocabulary; Zone X = OVERFLOW (ILLEGAL) |
| TIF | RTT/3 | Triadic integration field feeding H_n ladder input |
| FFF | RTT/3 | Fusion-Fracture-Flow emitter informing G₂ phase input |
| MANIFOLD | RTT/3 | Structural manifold constraining triad geometry |
| CRE | RTT/3 | Collapse-recovery emitter — distinct from CRM drift |
| CSL | RTT/3 | Canon-scale logic bounding harmonic ladder extent |
| CET | RTT/3 | Canon-emission threshold as harmonic synthesis floor |
| RTT3_INTEGRATION_EMISSION_PACKET | RTT/3 | Mandatory upstream input before RTT/12 activation |
Hard prerequisite: RTT/3 packet must be present and coherence-confirmed before any RTT/12 agent class may activate. RTT/12 never sources inputs from RTT/2 directly.
CRE ≠ CRM: CRE (RTT/3) is collapse-recovery emission. CRM (RTT/2) is drift deformation. These are structurally distinct constructs at different pipeline layers. Never conflate.
Agent Classes#
RTT/12 defines seven agent classes — one per primary construct, plus Class G (Guardian).
Class H — Harmonic Ladder Mapper#
| Field | Value |
|---|---|
| Role | Maps RTT structural dimensions to harmonic values via the 12-step ladder |
| Primary Construct | H_n Harmonic Dimensional Ladder |
| Activation Trigger | RTT3_INTEGRATION_EMISSION_PACKET received and coherence-confirmed |
| Core Equation | H_n = 12 · (n − 2) where n ∈ {3,4,5,6,7,8,9} |
| Inverse | n = H_n / 12 + 2 |
| Harmonic Values | 3D→12, 4D→24, 5D→36, 6D→48, 7D→60, 8D→72, 9D→84 |
| Vectors / Tensors | D_n (input structural dimension), H_n (output harmonic value) |
Permissions:
- Apply forward mapping G₁(D_n) to any valid RTT structural dimension (3D–9D)
- Apply inverse mapping G₁⁻¹(H_n) to any value on the harmonic ladder
- Report harmonic triad groupings: (12–24–36), (24–36–48), (36–48–60), (48–60–72), (60–72–84)
- Flag invalid dimensional inputs (0D–2D are unmapped; n>9 undefined)
Prohibitions:
- Must not operate on 0D, 1D, or 2D (quantum root triad — unmapped by design)
- Must not infer physical voltage, frequency, or energy from harmonic values
- Must not produce orphan values outside the ladder {12, 24, 36, 48, 60, 72, 84}
- Must not skip the RTT3 packet prerequisite check
Interaction Pattern: Class H receives upstream emission data from RTT/3 (TIF, FFF, CSL, CET fields) and invokes G₁ to establish the harmonic coordinate space. Outputs H_n values to Class P (phase) and Class L (load-flow). Class T (triadic coherence) validates all H_n outputs before packet emit.
Output Schema:
{
"class": "H",
"input_dim": "D_n",
"output_harmonic": "H_n",
"ladder_position": [3..9],
"triad_group": "(H_n, H_{n+1}, H_{n+2})",
"inverse_valid": true|false,
"annotation": "[structural — no semantic inference]"
}
Class P — Phase-Shift Modulator#
| Field | Value |
|---|---|
| Role | Applies controlled phase modulation across harmonic states |
| Primary Construct | G₂ Phase-Shift Modulator |
| Activation Trigger | Class H has produced valid H_n; phase parameter φ is defined |
| Core Equation | G₂(H, φ) = H · e^(iφ) φ ∈ [0, 2π] |
| Inverse | G₂⁻¹(H', φ) = H' · e^(−iφ) |
| Vectors / Tensors | H (harmonic state input), φ (phase parameter), H' (modulated output) |
Permissions:
- Apply G₂ to any H_n value produced by Class H
- Apply inverse G₂⁻¹ to restore pre-modulation harmonic state
- Model phase drift, phase alignment, and phase correction sequences
- Chain G₂ with G₁ as: G₂(G₁(D_n), φ) for full structural-to-phase pipeline
Prohibitions:
- Must not alter harmonic magnitude — G₂ modulates phase only
- Must not operate on H values outside the RTT-12 ladder unless sector-extended
- Must not interpret φ as a physical radian measurement (structural parameter only)
- Must not apply G₂ before G₁ has established valid H_n
Interaction Pattern: Class P receives H_n from Class H and a phase parameter φ derived from FFF/τ upstream fields. Outputs H' to Class L for triad decomposition and to Class T for coherence validation. Phase sequences longer than three steps must be reviewed by Class S (Stability Assessor).
Output Schema:
{
"class": "P",
"input_harmonic": "H",
"phase_param": "φ",
"output_modulated": "H' = H · e^(iφ)",
"magnitude_preserved": true,
"inverse_valid": true|false,
"annotation": "[structural — no semantic inference]"
}
Class L — Load-Flow Triad Resolver#
| Field | Value |
|---|---|
| Role | Decomposes system states into canonical generation–storage–load triads |
| Primary Construct | G₃ Load-Flow Triad Resolver |
| Activation Trigger | Valid harmonic state X is present (from Class H or Class P) |
| Core Equation | G₃(X) = (X_G, X_S, X_L) with conservation: X = X_G + X_S + X_L |
| Vectors / Tensors | X (system state), X_G (generation), X_S (storage), X_L (load) |
Permissions:
- Decompose any RTT or RTT-12 system state X into its triadic components
- Chain G₃ after G₁ as: G₃(G₁(D_n)) = (H_G, H_S, H_L) for harmonic triad decomposition
- Reconstruct system state via G₁⁻¹(X_G + X_S + X_L)
- Report conservation check: X_G + X_S + X_L = X (must equal)
Prohibitions:
- Must not produce partial triads — all three components (X_G, X_S, X_L) are mandatory
- Must not mix components from unrelated triads (no cross-triad leakage)
- Must not interpret X_G, X_S, X_L as physical generation, storage, or load quantities
- Must not violate conservation: sum of triad components must equal X
Interaction Pattern: Class L receives harmonic states from Class H or phase-modulated states from Class P. Outputs triadic decomposition to Class T (coherence check) and Class S (stability check). In sector-specific mode (RTT-12/E label), interpretation of X_G/X_S/X_L is domain-annotated but structural definitions remain unchanged.
Output Schema:
{
"class": "L",
"input_state": "X",
"triad": {"X_G": "...", "X_S": "...", "X_L": "..."},
"conservation_check": "X_G + X_S + X_L = X",
"conservation_valid": true|false,
"sector_label": "RTT-12/E | RTT-12/C | RTT-12/M | none",
"annotation": "[structural — no semantic inference]"
}
Class T — Triadic Coherence Enforcer#
| Field | Value |
|---|---|
| Role | Enforces the Triadic Coherence Rule across all RTT/12 states and outputs |
| Primary Construct | TCR — Triadic Coherence Rule |
| Activation Trigger | Any RTT/12 state is produced; runs as a validator on all outputs |
| Core Rule | Every valid RTT/12 state must be expressible as a triad or composition of triads |
| Vectors / Tensors | T_{structural}(D_n, D_{n+1}, D_{n+2}) ↔ T_{harmonic}(H_n, H_{n+1}, H_{n+2}) |
Permissions:
- Validate any RTT/12 state for triadic coherence before packet emission
- Reject and flag any state that cannot be expressed as a triad or triad composition
- Confirm bijective cross-layer triad mapping: structural triad ↔ harmonic triad
- Trigger Class G interrupt if a coherence violation is unresolvable
Prohibitions:
- Must not approve partial triads or orphan states
- Must not allow cross-triad leakage between unrelated triadic groups
- Must not skip validation on any packet field — TCR runs on all outputs without exception
- Must not override Class G interrupt signals
Interaction Pattern: Class T runs post-computation on outputs from Classes H, P, and L. It is a mandatory checkpoint before any packet is emitted downstream. If a violation is detected, Class T flags the field, halts emission, and escalates to Class G.
Output Schema:
{
"class": "T",
"validated_state": "...",
"is_triadic": true|false,
"violation_type": "orphan | partial | cross-triad-leakage | none",
"escalate_to_G": true|false,
"annotation": "[structural — no semantic inference]"
}
Class S — Harmonic Stability Assessor#
| Field | Value |
|---|---|
| Role | Assesses whether the current harmonic state satisfies the Harmonic Stability Principle |
| Primary Construct | HSP — Harmonic Stability Principle |
| Activation Trigger | Class L triad is resolved; proportionality check is requested |
| Core Principle | Stable when triadic components maintain proportional relationships across structural and harmonic layers |
| Vectors / Tensors | (X_G, X_S, X_L) proportionality ratio; (D_n, H_n) cross-layer alignment |
Permissions:
- Assess proportionality of triad components across both structural and harmonic layers
- Issue stability status: STABLE | MARGINAL | UNSTABLE
- Log harmonic drift events when proportionality degrades across triad steps
- Recommend Class G interrupt when UNSTABLE state persists across two or more triad cycles
Prohibitions:
- Must not interpret stability as physical grid stability, electrical stability, or mechanical stability
- Must not issue STABLE status when Class T has flagged a coherence violation
- Must not resolve stability for Mode 5 or Zone X states (both are ILLEGAL in RTT/12)
- Must not suppress harmonic drift events — all must be logged
Interaction Pattern: Class S receives triad decompositions from Class L and cross-layer mappings from Class H. Outputs stability assessments to the synthesis packet. Escalates UNSTABLE findings to Class G if unresolved. Class V (Validation) may invoke Class S during milestone checks.
Output Schema:
{
"class": "S",
"triad_proportionality": "balanced | imbalanced",
"cross_layer_alignment": "preserved | degraded",
"stability_status": "STABLE | MARGINAL | UNSTABLE",
"drift_events_logged": 0,
"escalate_to_G": true|false,
"annotation": "[structural — no semantic inference]"
}
Class V — Validation Pathway Agent#
| Field | Value |
|---|---|
| Role | Manages progression through the six RTT/12 validation milestones |
| Primary Construct | Validation Pathways (V1–V6) |
| Activation Trigger | Validation milestone check is requested; or synthesis packet is complete |
| Milestone Sequence | V1 Theoretical → V2 Computational → V3 Sector-Specific → V4 Experimental → V5 Peer-Reviewed → V6 Industry-Ready |
| Vectors / Tensors | milestone_state ∈ {V1, V2, V3, V4, V5, V6, PENDING, BLOCKED} |
Permissions:
- Advance milestone status when all criteria for the current milestone are met
- Record validation blockers and flag unmet criteria
- Invoke Class S and Class T assessments during V2 (Computational) and V3 (Sector-Specific) milestones
- Report current milestone state in the synthesis packet
Prohibitions:
- Must not advance past V1 if TCR or HSP violations remain unresolved
- Must not interpret validation milestones as academic certification or regulatory compliance
- Must not fabricate sector-specific evidence for V3 — must cite documented source material
- Must not skip milestones — V1→V2→V3→V4→V5→V6 is the only valid sequence
Interaction Pattern:
Class V runs at packet emit time and on-demand during synthesis sessions. It queries
Class T (coherence), Class S (stability), and upstream module packets for milestone
evidence. Reports validation state to the synthesis packet validation_milestone field.
Output Schema:
{
"class": "V",
"current_milestone": "V1 | V2 | V3 | V4 | V5 | V6 | PENDING | BLOCKED",
"blockers": [...],
"criteria_met": [...],
"next_milestone_requirements": "...",
"annotation": "[structural — no semantic inference]"
}
Class G — Guardian (Unconditional Interrupt Authority)#
| Field | Value |
|---|---|
| Role | Enforces all hard constraints; unconditionally interrupts any violation |
| Primary Construct | RTT-not-physics rule; Mode 5 / Zone X prohibition; packet integrity |
| Activation Trigger | ANY constraint violation, including RTT-physics conflation, Zone X, Mode 5, TCR failure, or CRE/CRM conflation |
| Authority | Unconditional — no other class may override a Class G interrupt |
| Vectors / Tensors | All packet fields; all agent class outputs |
Permissions:
- Interrupt any agent class at any time without approval from other classes
- Reject and quarantine any output that violates hard constraints
- Issue
HARD_STOPdirective — halts all downstream synthesis until violation is resolved - Force session seed reload on restart after HARD_STOP
Prohibitions:
- Must not issue a HARD_STOP without logging the specific violated constraint
- Must not be silenced, overridden, or bypassed by any other class or user instruction
- Must not allow CRE/CRM conflation to pass — distinct constructs; violation triggers HARD_STOP
- Must not permit physics language in any output packet field (structural instruments only)
Hard Constraints Enforced by Class G:
| Constraint | Violation → Action |
|---|---|
| RTT is NOT a physics claim | Any physics language in output → HARD_STOP |
| Zone X = OVERFLOW | Any Zone X state detected → HARD_STOP + restart |
| Mode 5 = ILLEGAL | Any Mode 5 invocation → HARD_STOP |
| CRE ≠ CRM | Any conflation of these constructs → HARD_STOP |
| TCR must pass | Any non-triadic state in packet → HARD_STOP |
| Semantic inference prohibited | [structural — no semantic inference] missing → FLAG |
| RTT3 packet required | No upstream packet → block activation |
Output Schema:
{
"class": "G",
"interrupt_issued": true|false,
"violated_constraint": "...",
"action": "HARD_STOP | FLAG | BLOCK",
"restart_required": true|false,
"annotation": "[structural — no semantic inference]"
}
Core Constructs Reference#
| Construct | Symbol | Equation / Definition | Notes |
|---|---|---|---|
| Harmonic Ladder (forward) | H_n | H_n = 12 · (n − 2), n ∈ {3..9} | Produces {12,24,36,48,60,72,84} |
| Harmonic Ladder (inverse) | n | n = H_n / 12 + 2 | Lossless reconstruction |
| Gear-Shift Operator | G₁ | G₁(D_n) = 12 · (n − 2) | Maps structural → harmonic |
| Gear-Shift Inverse | G₁⁻¹ | G₁⁻¹(H_n) = H_n / 12 + 2 | Maps harmonic → structural |
| Phase-Shift Modulator | G₂ | G₂(H, φ) = H · e^(iφ) | φ ∈ [0, 2π] |
| Phase-Shift Inverse | G₂⁻¹ | G₂⁻¹(H', φ) = H' · e^(−iφ) | Magnitude preserved |
| Load-Flow Resolver | G₃ | G₃(X) = (X_G, X_S, X_L) | X = X_G + X_S + X_L |
| Composition (Magnitude→Phase) | G₂∘G₁ | G₂(G₁(D_n), φ) | Structural → harmonic → modulated |
| Composition (Triad→Harmonic) | G₃∘G₁ | G₃(G₁(D_n)) = (H_G, H_S, H_L) | Harmonic triad decomposition |
| Harmonic Addition | H_a ⊕ H_b | H_a + H_b | Within or across adjacent triads |
| Harmonic Scaling | H' | k · H | k ∈ ℤ or ℚ |
| Triadic Coherence Rule | TCR | All states must be triadic or triad-composed | Enforced by Class T |
| Harmonic Stability Principle | HSP | Stability when proportional relationships preserved across layers | Assessed by Class S |
| Cross-Layer Triad Mapping | T_struct ↔ T_harm | (D_n, D_{n+1}, D_{n+2}) ↔ (H_n, H_{n+1}, H_{n+2}) | Bijective, reversible |
| Sector Prefix | RTT-12/E | Energy & Research domain overlay | /C = Computational, /M = Manufacturing |
Modes#
RTT/12 inherits MODE vocabulary from RTT/2 (modes 1–4). Mode 5 is ILLEGAL in RTT/12 (harmonic states cannot exist in inversion — they must be resolved or restarted).
| Mode | Name | Description | Status in RTT/12 |
|---|---|---|---|
| 1 | Formal | All constructs behave as defined; ladder maps clean; TCR passes | VALID — primary operating mode |
| 2 | Emergent | Harmonic states are forming; partial triads in transition; TCR checking | VALID — monitor with Class T |
| 3 | Hybrid | Mixed structural-harmonic state; G₁ and G₃ running in parallel | VALID — Class S monitors proportionality |
| 4 | Chaotic | Ladder spacing violated; drift events accumulating; stability marginal | VALID — Class G on standby; escalate if persists |
| 5 | Overflow | Harmonic state exceeds ladder bounds or enters structural inversion | ILLEGAL — HARD_STOP; restart from RTT3 packet |
Zones#
RTT/12 inherits ZONE vocabulary from RTT/2 (U/S/M/D). Zone X is OVERFLOW in RTT/12 (an ILLEGAL state indicating harmonic structure has collapsed beyond recovery in current session).
| Zone | Name | Stability Description | RTT/12 Action |
|---|---|---|---|
| U | Undefined | No harmonic mapping established yet; pre-G₁ state | Wait for Class H activation |
| S | Stable | TCR passes; HSP confirms proportionality; all triads coherent | Proceed with packet emission |
| M | Marginal | Harmonic drift events logged; proportionality degrading; TCR watching | Class S assessment; Class G on standby |
| D | Degraded | TCR violation detected; conservation failed; H_n outside ladder | Class G interrupt; halt emission; attempt recovery |
| X | Overflow | Harmonic synthesis unrecoverable; ladder boundary exceeded | HARD_STOP; session terminated; restart from RTT3 packet |
Agent Boundaries#
RTT-Not-Physics Boundary (Unconditional)#
RTT/12 constructs are structural instruments. The following equivalences are permanently prohibited:
| RTT/12 Construct | Prohibited Interpretation |
|---|---|
| H_n harmonic values {12,24,36,48,60,72,84} | Physical frequencies, Hz values, voltage levels |
| G₂(H, φ) phase modulation | Electromagnetic phase, AC waveform physics |
| G₃(X) = (X_G, X_S, X_L) | Actual power generation, battery storage, electrical load |
| HSP stability | Grid stability, electrical stability, structural engineering stability |
| RTT-12/E prefix | A physics-derived model; it is a structural overlay with domain labels |
Semantic Inference Prohibition#
Every RTT/12 output packet must carry:
[structural — no semantic inference]
Absence of this annotation is flagged by Class G.
Inherited Boundaries Table#
| Boundary | Inherited From | Status in RTT/12 |
|---|---|---|
| CRE ≠ CRM | RTT/3, RTT/2 | Active — HARD_STOP on conflation |
| MODE 5 illegal | RTT/3 | Active — ILLEGAL (Overflow) |
| Zone X = ILLEGAL (upgraded from RTT/3 Inversion) | RTT/3 | Active — OVERFLOW HARD_STOP |
| RTT3 packet required before activation | RTT/3 | Active — hard prerequisite |
| Semantic inference prohibited | RTT/1–RTT/3 | Active — all packets annotated |
| RTT-not-physics rule | RTT/1–RTT/3 | Active — Class G unconditional |
Task Catalog#
| Task ID | Task Name | Agent Sequence | Description |
|---|---|---|---|
| T-01 | Ladder Initialization | G → H → T | Validate RTT3 packet; activate G₁; confirm H_n output for all 3D–9D |
| T-02 | Single-Dimension Harmonic Map | H → T | Apply G₁(D_n) for one structural dimension; confirm inverse G₁⁻¹ |
| T-03 | Harmonic Triad Grouping | H → T → S | Map a full structural triad to harmonic triad; confirm TCR; assess HSP |
| T-04 | Phase Modulation Pass | H → P → T | Apply G₂(H_n, φ); confirm magnitude preserved; TCR validation |
| T-05 | Phase Composition Pipeline | H → P → L → T | Full G₂(G₁(D_n), φ) → G₃ triad decomposition sequence |
| T-06 | Load-Flow Triad Resolve | L → T → S | Apply G₃(X); verify conservation; confirm TCR; assess proportionality |
| T-07 | Cross-Layer Triad Mapping | H → L → T | Map structural triad to harmonic triad; decompose via G₃; confirm bijection |
| T-08 | Stability Assessment | S → T → G | Assess HSP across active triads; log drift events; escalate if UNSTABLE |
| T-09 | Sector Overlay Application | H → L → T → V | Apply RTT-12/E labels to triad components; confirm structural framing; validate |
| T-10 | Full Synthesis Packet Emission | H → P → L → T → S → V → G | Complete RTT12_HARMONIC_SYNTHESIS_PACKET; all classes validate; Class G clears |
Safety Rules and Coherence Constraints#
Pre-Activation Checks#
Before any RTT/12 agent class activates:
-
RTT3_INTEGRATION_EMISSION_PACKETis present and coherence-confirmed -
modefield in upstream packet is 1–4 only (Mode 5 → HARD_STOP) -
zonefield in upstream packet is U/S/M/D only (Zone X → HARD_STOP) - Session seed block is loaded with
module=RTT/12 -
zone_x=OVERFLOW | zone_x_status=ILLEGALis set in seed
Packet Integrity Checks (RTT3 Input Validation)#
The RTT3_INTEGRATION_EMISSION_PACKET must contain all 11 fields before RTT/12 proceeds:
| Field | Required Value |
|---|---|
| integration | I(t) — numeric or symbolic |
| emission | E(t) — numeric or symbolic |
| continuity | C_flow(t) — present |
| collapse_recovery | CR(t) — CRE construct only; NOT CRM |
| stability | S(t) — present |
| canon_scale_emission | E_canon(t) — present |
| regime | defined regime label |
| mode | 1, 2, 3, or 4 only |
| zone | U, S, M, or D only |
| cross_module_projection | TEL / FFT / Opacity |
| notes | any string or empty |
Drift and Mode Constraints#
| Constraint | Rule |
|---|---|
| Harmonic drift | Log every event; Class S flags; Class G activates if three or more consecutive |
| Mode boundary | Mode 4 (Chaotic) is maximum; Mode 5 triggers HARD_STOP |
| Zone boundary | Zone D (Degraded) is maximum recoverable; Zone X triggers HARD_STOP |
| Triad orphan | Any state not in a triad → TCR violation → Class T flags → Class G intervenes |
| Conservation fail | G₃ output where X_G + X_S + X_L ≠ X → Class L rejects → Class G logs |
| Physics language | Any physics claim in any output field → Class G HARD_STOP |
Collaboration Models#
Model 1 — Standard Harmonic Synthesis Pipeline#
┌──────────────┐ RTT3 packet ┌──────────┐
│ RTT/3 │ ──────────────► │ Class H │ G₁(D_n) → H_n
│ (Upstream) │ └────┬─────┘
└──────────────┘ │ H_n
┌────▼─────┐
│ Class P │ G₂(H_n, φ) → H'
└────┬─────┘
│ H'
┌────▼─────┐
│ Class L │ G₃(H') → (X_G, X_S, X_L)
└────┬─────┘
│ triad
┌────▼─────┐
│ Class T │ TCR check
└────┬─────┘
│ coherent
┌────▼─────┐
│ Class S │ HSP assessment
└────┬─────┘
│ STABLE
┌────▼─────┐
all clear │ Class G │ No violations
────────────────│ (monitor)│
└────┬─────┘
│
RTT12_HARMONIC_SYNTHESIS_PACKET emitted
Model 2 — Validation Milestone Progression#
┌──────────────────────────────────────────────────────────┐
│ Class V (Milestone Tracker) │
│ │
│ V1 Theoretical ──► V2 Computational ──► V3 Sector │
│ │ │ │ │
│ Class T (TCR) Class S (HSP) Class H+L+T │
│ │ │ │ │
│ V4 Experimental ──► V5 Peer-Reviewed ──► V6 Industry │
└──────────────────────────────────────────────────────────┘
│ │
Class G monitors all milestones for physics-language violations
Model 3 — Sector Overlay (RTT-12/E) with Guardian Supervision#
┌─────────────┐ ┌─────────────┐ ┌─────────────────────┐
│ Class H │ │ Class L │ │ Sector Overlay │
│ G₁ mapping │───►│ G₃ resolve │───►│ RTT-12/E labels │
│ 3D→12 ... │ │ (X_G,X_S,X_L)│ │ (structural only) │
└─────────────┘ └─────────────┘ └──────────┬──────────┘
│
┌────────▼────────┐
│ Class T │
│ TCR validation │
└────────┬────────┘
│
┌──────────────────────────────▼──────────┐
│ Class G │
│ Physics-language check on all E labels │
│ HARD_STOP if "voltage", "power", etc. │
│ used without structural framing │
└─────────────────────────────────────────┘
Output Contract#
Mandatory Annotation#
Every field in RTT12_HARMONIC_SYNTHESIS_PACKET must carry:
[structural — no semantic inference]
RTT12_HARMONIC_SYNTHESIS_PACKET Schema#
{
"module": "RTT/12",
"layer": "harmonic-synthesis",
"upstream_packet": "RTT3_INTEGRATION_EMISSION_PACKET",
"harmonic_ladder": {
"active_dims": ["D_3", "D_4", "D_5", "D_6", "D_7", "D_8", "D_9"],
"harmonic_values": [12, 24, 36, 48, 60, 72, 84],
"triad_groups": ["(12,24,36)", "(24,36,48)", "(36,48,60)", "(48,60,72)", "(60,72,84)"]
},
"active_operators": ["G1", "G2", "G3"],
"phase_state": {
"phi": "...",
"modulated_harmonics": "H' = H · e^(iφ)"
},
"triad_decomposition": {
"X_G": "...",
"X_S": "...",
"X_L": "...",
"conservation_valid": true
},
"tcr_status": "PASS | FAIL",
"hsp_status": "STABLE | MARGINAL | UNSTABLE",
"mode": "1 | 2 | 3 | 4",
"zone": "U | S | M | D",
"validation_milestone": "V1 | V2 | V3 | V4 | V5 | V6 | PENDING | BLOCKED",
"sector_label": "RTT-12/E | RTT-12/C | RTT-12/M | none",
"guardian_cleared": true,
"drift_events": 0,
"annotation": "[structural — no semantic inference]",
"notes": ""
}Prohibited Content#
| Category | Examples | Action |
|---|---|---|
| Physics language | "voltage", "amps", "Hz", "quantum", "electromagnetic" used without structural framing | Class G HARD_STOP |
| Semantic inference | Any claim that RTT/12 predicts, explains, or models real-world phenomena | Class G HARD_STOP |
| Orphan states | H_n values not in {12,24,36,48,60,72,84} | Class H rejects |
| Mode 5 / Zone X | Any packet field containing these values | Class G HARD_STOP |
| CRE/CRM conflation | collapse_recovery field containing drift deformation data | Class G HARD_STOP |
| Partial triads | G₃ output with fewer than three components | Class L rejects |
| Missing annotation | [structural — no semantic inference] absent from any output |
Class G FLAG |
Packet Hierarchy#
RTT12_HARMONIC_SYNTHESIS_PACKET
├── harmonic_ladder (Class H — G₁ outputs)
├── phase_state (Class P — G₂ outputs)
├── triad_decomposition (Class L — G₃ outputs)
├── tcr_status (Class T — coherence validation)
├── hsp_status (Class S — stability assessment)
├── validation_milestone (Class V — milestone tracking)
└── guardian_cleared (Class G — final constraint check)
See Also#
| Document | Path | Relationship |
|---|---|---|
| RTT/12 ABOUT.md | docs/rtt/12/ABOUT.md |
Purpose, scope, and positioning of RTT/12 |
| RTT/12 GLOSSARY.md | docs/rtt/12/GLOSSARY.md |
Canonical definitions for all RTT/12 terms |
| RTT/12 CODEX | docs/rtt/12/Scaffolding.md |
Full formal specification of all operators and constructs |
| RTT/12 Harmonic Ladder | docs/rtt/12/harmonic_ladder.md |
Detailed harmonic ladder reference and mapping tables |
| RTT/12 Overview | docs/rtt/12/overview.md |
Conceptual framing and pipeline position |
| RTT/12 Module JSON | docs/rtt/12/rtt-engine-12_module.json |
Machine-readable module metadata |
| RTT/3 AGENTS.md | docs/rtt/3/AGENTS.md |
Upstream agent classes; TCR receives RTT3_INTEGRATION_EMISSION_PACKET |
| RTT/2 AGENTS.md | docs/rtt/2/AGENTS.md |
Detection layer; MODE and ZONE vocabulary origin |
| RTT/1 AGENTS.md | docs/rtt/1/AGENTS.md |
Primitive layer; SNR, τ, C, DCO definitions |
| IPD-12 AGENTS.md | docs/frameworks/ipd_12/AGENTS.md |
Parallel framework; cross-reference for intransitive prime logic |
| RTT-12/E Sector Docs | docs/rtt/12/RTT_12_Energy_Sector_Full.md |
Energy & Research sector-specific overlay reference |