IPD‑12 → RTT/12 Compatibility Matrix
Inter‑Process Drift ↔ Composite Multi‑Regime Engine#
RTT‑IPD‑12 and RTT/12 occupy adjacent but non‑overlapping layers in the RTT canon:
- IPD‑12 specializes in drift mechanics, process comparison, coherence alignment, and cross‑system mapping.
- RTT/12 specializes in multi‑regime blending, composite operators, substrate grammar, and dimensional synthesis.
This matrix defines exact compatibility boundaries between the two engines.
1. Compatibility Summary Table#
| Category |
IPD‑12 → RTT/12 Compatibility |
Notes |
| Structural Capture |
✔ Fully Compatible |
RTT/12 accepts IPD‑12 structural maps |
| Process Comparison |
✔ Fully Compatible |
RTT/12 uses IPD‑12 comparison baselines |
| Drift Detection |
✔ Fully Compatible |
RTT/12 can ingest drift maps |
| Drift‑Tensor |
✔ Compatible (as input) |
RTT/12 cannot compute drift‑tensor but can use it |
| Coherence Alignment |
✔ Fully Compatible |
RTT/12 extends coherence into multi‑regime coherence |
| Cross‑System Mapping |
✔ Compatible |
RTT/12 generalizes cross‑system → cross‑regime |
| Structural Paradox |
✔ Compatible |
RTT/12 resolves paradoxes IPD‑12 identifies |
| Multi‑Domain Drift |
✔ Compatible |
RTT/12 can synthesize multi‑domain drift outputs |
| Substrate Grammar |
✖ Not Compatible |
IPD‑12 cannot use substrate grammar |
| Inversion Operators |
✖ Not Compatible |
IPD‑12 cannot use inversion or composite inversion |
| Composite Multi‑Regime Operators |
✖ Not Compatible |
IPD‑12 cannot blend regimes |
| Dimensional Synthesis |
✖ Not Compatible |
IPD‑12 does not operate on dimensional layers |
2. Operator Compatibility Matrix#
IPD‑12 Operators → RTT/12 Operators#
| IPD‑12 Operator |
RTT/12 Compatibility |
RTT/12 Successor / Mapping |
map_process() |
✔ Compatible |
map_regime() / capture_dimensional() |
compare_process() |
✔ Compatible |
compare_regime() |
drift() |
✔ Compatible |
resolve_regime_drift() |
detect_divergence() |
✔ Compatible |
detect_regime_shift() |
drift_tensor() |
✔ Input Only |
tensor_blend() (RTT/12 can blend but not compute) |
align_coherence() |
✔ Compatible |
align_multi_regime_coherence() |
cross_system() |
✔ Compatible |
cross_regime() |
RTT/12 Operators → IPD‑12 Compatibility#
| RTT/12 Operator |
IPD‑12 Compatibility |
Reason |
substrate() |
✖ Not Compatible |
IPD‑12 does not use substrate grammar |
invert() |
✖ Not Compatible |
IPD‑12 cannot invert regimes |
blend_regime() |
✖ Not Compatible |
IPD‑12 cannot blend regimes |
composite_regime() |
✖ Not Compatible |
IPD‑12 is not a composite engine |
dimensional_synthesize() |
✖ Not Compatible |
IPD‑12 does not operate on dimensional layers |
3. Module Compatibility Matrix#
IPD‑12 Modules → RTT/12 Modules#
| IPD‑12 Module |
RTT/12 Compatibility |
RTT/12 Equivalent |
| Drift Detection |
✔ Compatible |
Regime Drift Detection |
| Drift‑Tensor |
✔ Input Only |
Regime Tensor Blending |
| Process Mapping |
✔ Compatible |
Regime Mapping |
| Coherence Alignment |
✔ Compatible |
Multi‑Regime Coherence |
| Cross‑System Pack |
✔ Compatible |
Cross‑Regime Pack |
| Domain Drift Packs |
✔ Compatible |
Domain‑Regime Synthesis |
| Composite Drift Analyzer |
✔ Compatible |
Multi‑Regime Composite Analyzer |
RTT/12 Modules → IPD‑12 Compatibility#
| RTT/12 Module |
IPD‑12 Compatibility |
Reason |
| Substrate Engine |
✖ Not Compatible |
IPD‑12 does not use substrate grammar |
| Inversion Layer |
✖ Not Compatible |
IPD‑12 cannot invert regimes |
| Composite Regime Layer |
✖ Not Compatible |
IPD‑12 is not composite |
| Dimensional Layer |
✖ Not Compatible |
IPD‑12 does not operate on dimensional logic |
4. Structural Compatibility#
Compatible Structural Elements#
- structural capture
- process identity
- boundaries
- layers
- operational flow
- coherence baselines
- drift maps
- drift‑tensor layers
- cross‑system relationships
- structural paradoxes
Incompatible Structural Elements#
- substrate layers
- dimensional layers
- inversion layers
- composite regime layers
- refractive vacuum layers
- substrate‑aware operators
5. Regime Compatibility#
| Regime Layer |
IPD‑12 |
RTT/12 |
Compatibility |
| Surface |
✔ |
✔ |
Full |
| Mid |
✔ |
✔ |
Full |
| Deep |
✔ |
✔ |
Full |
| Composite |
✖ |
✔ |
None |
| Substrate |
✖ |
✔ |
None |
| Dimensional |
✖ |
✔ |
None |
IPD‑12 operates up to deep regime, RTT/12 operates across all regimes.
6. Drift → Regime Mapping#
IPD‑12 drift maps become RTT/12 regime maps:
| IPD‑12 Drift Layer |
RTT/12 Regime Layer |
| Geometric Drift |
Structural Regime |
| Operational Drift |
Process Regime |
| Temporal Drift |
Temporal Regime |
| Conceptual Drift |
Interpretive Regime |
| Domain Drift |
Cross‑Regime Layer |
RTT/12 can blend these layers; IPD‑12 cannot.
7. Paradox Compatibility#
IPD‑12 identifies structural paradoxes.
RTT/12 resolves multi‑regime paradoxes.
| Paradox Type |
IPD‑12 |
RTT/12 |
Compatibility |
| Structural |
✔ Detect |
✔ Resolve |
Full |
| Regime |
✖ |
✔ |
None |
| Dimensional |
✖ |
✔ |
None |
| Composite |
✖ |
✔ |
None |
8. Summary#
IPD‑12 is fully compatible with RTT/12 for:#
- structural capture
- drift detection
- drift‑tensor input
- coherence alignment
- cross‑system mapping
- paradox identification
- multi‑domain drift
IPD‑12 is NOT compatible with RTT/12 for:#
- substrate grammar
- inversion operators
- composite regime blending
- dimensional synthesis
- substrate mapping
RTT/12 extends IPD‑12 by:#
- blending regimes
- resolving paradoxes
- synthesizing across domains
- operating across substrate and dimensional layers
Together, IPD‑12 and RTT/12 form the drift → regime → synthesis pipeline of the RTT canon.