COMBINED SDE + SIE LAB PACKET
RTT/2 Detection → RTT/3 Integration–Emission
(Hands‑On, Print‑Ready)
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COMBINED SDE + SIE LAB
RTT/2 DETECTION → RTT/3 INTEGRATION–EMISSION
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This lab unifies the full operator pipeline:
- RTT/2: collapse, gradients, CRM, mode/zone, detection packet
- RTT/3: integration, emission, manifold, CRE, CSL, emission packet
You will work with three synthetic samples that evolve across
detection → integration → emission.
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SAMPLE DATA
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Sample A:
collapse: A=0.7, K=0.3, T=0.1
gradient: collapse-weighted
deformation: drift deformation
regime: slow-relaxation
Sample B:
collapse: A=1.6, K=0.9, T=0.4
gradient: mixed collapse/reassembly
deformation: envelope torsion
regime: mixed
Sample C:
collapse: A=2.4, K=1.8, T=1.3
gradient: triad-weighted
deformation: continuity fracture
regime: inversion-adjacent
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PART 1 — RTT/2 DETECTION (SDE)
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SECTION 1 — COLLAPSE SIGNATURES
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TASK 1 — Compute SDE::CPV(A, K, T)
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 2 — Rank collapse severity (lowest → highest)
Order: ________________________________________________
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SECTION 2 — FUSION‑GRADIENT TENSORS
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TASK 3 — Classify SDE::FGT()
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 4 — Identify the first triad‑dominant gradient.
Answer: _______________________________________________
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SECTION 3 — COLLAPSE→REASSEMBLY MAPPING
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TASK 5 — Map SDE::CRM()
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 6 — Identify the deformation that first breaks continuity.
Answer: _______________________________________________
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SECTION 4 — MODE + ZONE CLASSIFICATION
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TASK 7 — Assign SDE::MODE()
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 8 — Assign SDE::ZONE()
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
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SECTION 5 — RTT2_DETECTION_PACKET
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TASK 9 — Construct the packet for Sample C.
collapse_propagation: _________________________________
fusion_gradient: ______________________________________
triad_deformation: _____________________________________
regime: _______________________________________________
detection_mode: ________________________________________
detection_zone: ________________________________________
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PART 2 — RTT/3 INTEGRATION–EMISSION (SIE)
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SECTION 6 — TRIAD INTEGRATION
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TASK 10 — Apply SIE::INT()
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 11 — Identify which sample has the strongest integration field.
Answer: _______________________________________________
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SECTION 7 — TRIADIC INTEGRATION FIELD (TIF)
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TASK 12 — Identify dominant components
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 13 — Determine which sample is triad‑dominant.
Answer: _______________________________________________
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SECTION 8 — INTEGRATION–EMISSION MANIFOLD (MAN)
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TASK 14 — Identify active axes (FI / EM / R)
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 15 — Identify the first sample where regime identity dominates.
Answer: _______________________________________________
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SECTION 9 — EMISSION (FFF)
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TASK 16 — Classify emission type
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 17 — Identify the first fracture‑dominant emission.
Answer: _______________________________________________
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SECTION 10 — COLLAPSE→RECOVERY ENGINE (CRE)
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TASK 18 — Identify CAV / CSV / mixed dominance
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 19 — Identify which sample requires the strongest CRE intervention.
Answer: _______________________________________________
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SECTION 11 — CONTINUITY–STABILITY LAYER (CSL)
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TASK 20 — Classify stability (stable / mixed / divergent)
Sample A: ____________________________________________
Sample B: ____________________________________________
Sample C: ____________________________________________
TASK 21 — Identify the first divergent stability.
Answer: _______________________________________________
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SECTION 12 — RTT3_INTEGRATION_EMISSION_PACKET
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TASK 22 — Construct the packet for Sample C.
integration: __________________________________________
emission: _____________________________________________
continuity: ___________________________________________
collapse_recovery: _____________________________________
stability: ____________________________________________
canon_scale_emission: __________________________________
mode: ________________________________________________
zone: ________________________________________________
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PART 3 — FULL PIPELINE SYNTHESIS
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SECTION 13 — CROSS‑LAYER MAPPING
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TASK 23 — Map SDE outputs → SIE inputs for Sample C.
CPV → INT: ____________________________________________
FGT → TIF: ____________________________________________
CRM → MAN: ____________________________________________
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SECTION 14 — PROJECTION (TEL / FFT / OP)
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TASK 24 — Choose the correct projection for Sample C.
Answer: _______________________________________________
TASK 25 — Justify your projection choice.
________________________________________________________
________________________________________________________
________________________________________________________
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SECTION 15 — COMPLETE OPERATOR CHAIN
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TASK 26 — Write the full operator chain for Sample C.
RTT/1 primitives
→ SDE::CPV()
→ SDE::FGT()
→ SDE::CRM()
→ SDE::MODE()
→ SIE::INT()
→ SIE::TIF()
→ SIE::MAN()
→ SIE::FFF()
→ SIE::CRE()
→ SIE::CSL()
→ SIE::CET()
→ TEL::CET() / FFT::OUT() / OP::OUT()
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END OF COMBINED SDE + SIE LAB
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