Intake manifold specification document
IPD‑12 Electric Intake Manifolds
SIM / DIM / TIM / QIM / FSI
Module: IPD‑12 Framework
Version: 2026‑1.0
Role: Input / Coupling / Integration Layer
1. Purpose#
This document defines the intake manifold types for the IPD‑12 engine:
- SIM — Single Intake Manifold (1 triad)
- DIM — Double Intake Manifold (2 triads)
- TIM — Triple Intake Manifold (3 triads)
- QIM — Quad Intake Manifold (4 triads, full IPD‑12)
- FSI — Full 12‑Stack Intake (3×QIM, full saturation)
Each manifold is an electric, multi‑phase intake assembly that couples external frameworks/theories into the IPD‑12 substrate engine.
2. Manifold types overview#
SIM — Single Intake Manifold#
Definition:
Single‑phase intake feeding one triad (3 primes).
Cycle coverage:
- Triad: any one of T1–T4
- Hex: none
- Full 12‑cycle: partial (3/12)
Substrate mapping:
- Si: one substrate pair (e.g., S1)
- Oj: one dominant observer mode (O1 or O2)
- Rk: one regime shell (typically R1 or R2)
Observer mapping:
- Primary: O1 (field) or O2 (regime)
- Secondary: O3/O4 only as inferred, not directly driven
Regime mapping:
- Regime span: single regime (e.g., Regime‑1 via T1)
- Use case: local cycle, local drift/transition, single‑tier Pantheon alignment
Prime mapping (example SIM on Triad 1):
- P2 (seed, neutral)
- P3 (transition lift)
- P5 (drift collapse)
DIM — Double Intake Manifold#
Definition:
Dual‑phase intake feeding two triads (6 primes).
Cycle coverage:
- Triads: any two of T1–T4 (often adjacent)
- Hex: one hex shell (H1 or H2)
- Full 12‑cycle: partial (6/12)
Substrate mapping:
- Si: two substrate pairs (e.g., S1+S2 or S3+S4)
- Oj: two observer modes (O1+O2 or O2+O3)
- Rk: one or two regime shells (R1↔R2 or R2↔R3)
Observer mapping:
- Primary: O2 (regime)
- Secondary: O1/O3 depending on triad selection
Regime mapping:
- Regime span: two regimes or one regime plus boundary
- Use case: frameworks that need shell‑level paradox behavior (e.g., RTT drift+paradox, GU connection+curvature)
Prime mapping (example DIM on Hex 1: T1+T2):
- P2, P3, P5, P7, P11, P13
TIM — Triple Intake Manifold#
Definition:
Three‑phase intake feeding three triads (9 primes).
Cycle coverage:
- Triads: any three of T1–T4
- Hex: both shells partially
- Full 12‑cycle: partial (9/12), missing one triad
Substrate mapping:
- Si: three substrate pairs (e.g., S1+S2+S3)
- Oj: three observer modes (O1+O2+O3)
- Rk: three regime shells (R1+R2+R3)
Observer mapping:
- Primary: O2 (regime), O3 (coherence)
- Secondary: O1; O4 only via apex‑adjacent primes if T4 included
Regime mapping:
- Regime span: full regime traversal except apex regime if T4 omitted
- Use case: frameworks needing full paradox handling but not full apex lift/collapse (e.g., civilizational+chthonic without apex)
Prime mapping (example TIM on T1+T2+T3):
- P2, P3, P5, P7, P11, P13, P17, P19, P23
QIM — Quad Intake Manifold#
Definition:
Four‑phase intake feeding all four triads (12 primes).
This is the canonical full IPD‑12 intake.
Cycle coverage:
- Triads: T1, T2, T3, T4
- Hex: H1, H2
- Full 12‑cycle: complete (12/12)
Substrate mapping:
- Si: all four substrate pairs (S1–S4)
- Oj: all observer modes (O1–O4)
- Rk: all regime shells (R1–R4)
Observer mapping:
- Primary: O2 (regime), O3 (coherence), O4 (apex)
- Secondary: O1 (field) as entry stance
Regime mapping:
- Regime span: full regime traversal including apex
- Use case: frameworks that must operate as true IPD‑12 engines, with full dimensional lift/collapse and paradox resolution.
Prime mapping:
- P2, P3, P5, P7, P11, P13, P17, P19, P23, P29, P31, P37
FSI — Full 12‑Stack Intake#
Definition:
Three QIMs arranged as a 12‑stack lattice:
- FSI = QIM₁ + QIM₂ + QIM₃
Each QIM can be:
- a different framework manifold (RTT, GU, Pantheon)
- a different substrate specialization
- a different observer emphasis
Cycle coverage:
- Full IPD‑12 cycle per QIM
- 3× full cycles in stacked configuration
- Supports multi‑framework resonance and cross‑canon coupling
Substrate mapping:
- Si: 3×(S1–S4) with distinct parameterization per QIM
- Oj: 3×(O1–O4) with different observer models (e.g., RTT observer, GU observer, Pantheon observer)
- Rk: 3×(R1–R4) with regime specialization
Observer mapping:
- Layered observers:
- QIM₁: RTT observer stack
- QIM₂: GU geometric observer stack
- QIM₃: Pantheon mythic‑structural observer stack
Regime mapping:
- Regime span: full regime traversal per manifold, plus meta‑regime across manifolds
- Use case: TriadicFrameworks meta‑engines, substrate‑aware transport services, cross‑framework alignment engines.
Prime mapping:
- Each QIM: full 12 primes
- FSI: 36 prime‑state channels (12×3), all canon‑aligned, no new primes introduced—only replicated manifolds.
3. Diagrams (conceptual ASCII)#
SIM (1 triad)#
External Framework
│
[ SIM ]
│
Triad X (3 primes)
│
IPD‑12 EngineDIM (2 triads / 1 hex)#
External Framework
│
[ DIM ]
│
Triad A + Triad B
│
Hex Shell
│
IPD‑12 EngineTIM (3 triads)#
External Framework
│
[ TIM ]
│
Triad A + Triad B + Triad C
│
Regime Span (R1–R3)
│
IPD‑12 EngineQIM (4 triads / full IPD‑12)#
External Framework
│
[ QIM ]
│
Triads T1–T4 (all primes)
│
Full 12‑Cycle + Hex Shells
│
IPD‑12 Engine BlockFSI (3×QIM)#
Framework A ─┐
├─ [ QIM₁ ]
Framework B ─┤
├─ [ QIM₂ ]
Framework C ─┘
└─ [ QIM₃ ]
│
Full 12‑Stack Intake
│
IPD‑12 Engine Block4. Substrate / observer / regime mapping summary#
-
SIM:
- Substrate: 1 pair
- Observer: 1 dominant mode
- Regime: 1 shell
-
DIM:
- Substrate: 2 pairs
- Observer: 2 modes
- Regime: 1–2 shells (hex shell)
-
TIM:
- Substrate: 3 pairs
- Observer: 3 modes
- Regime: 3 shells
-
QIM:
- Substrate: all 4 pairs
- Observer: all 4 modes
- Regime: all 4 shells
-
FSI:
- Substrate: 3×(all pairs)
- Observer: 3×(all modes)
- Regime: 3×(all shells) + meta‑regime
5. Prime mapping summary#
- SIM: 3 primes (1 triad)
- DIM: 6 primes (2 triads / 1 hex)
- TIM: 9 primes (3 triads)
- QIM: 12 primes (4 triads, full IPD‑12)
- FSI: 36 prime channels (3×QIM, replicated, not extended)