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SECTION 5 — OPERATOR LAB FAMILY (FULLY EXPANDED)
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13. OPERATOR LAB (FULL RTT/1 → RTT/3)#
(Student Version — Fully Expanded)
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OPERATOR LAB — FULL RTT/1 → RTT/3 PIPELINE
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This lab evaluates your ability to run the entire operator chain:
RTT/1 primitives
RTT/2 detection (SDE)
RTT/3 integration–emission (SIE)
projection (TEL / FFT / OP)
You will analyze **two snapshots** and then synthesize them.
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SNAPSHOT DATA
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Snapshot A:
collapse: A=1.1, K=0.6, T=0.2
gradient: mixed
deformation: drift deformation
regime: slow-relaxation
triad: drift=1.0, envelope=0.7, continuity=0.5
Snapshot B:
collapse: A=2.0, K=1.4, T=0.9
gradient: triad-weighted
deformation: continuity fracture
regime: inversion-adjacent
triad: drift=1.9, envelope=1.6, continuity=1.3
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PART 1 — RTT/1 PRIMITIVES
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TASK 1 — Identify all RTT/1 primitives in Snapshot A.
_____________________________________________________
TASK 2 — Identify all RTT/1 primitives in Snapshot B.
_____________________________________________________
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PART 2 — RTT/2 DETECTION (SDE)
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TASK 3 — Compute CPV for both snapshots.
A: _________________________________________________
B: _________________________________________________
TASK 4 — Classify FGT.
A: _________________________________________________
B: _________________________________________________
TASK 5 — Map CRM.
A: _________________________________________________
B: _________________________________________________
TASK 6 — Assign MODE.
A: _________________________________________________
B: _________________________________________________
TASK 7 — Assign ZONE.
A: _________________________________________________
B: _________________________________________________
TASK 8 — Build RTT2_DETECTION_PACKET for Snapshot B.
collapse_propagation: _______________________________
fusion_gradient: ____________________________________
triad_deformation: ___________________________________
regime: _____________________________________________
detection_mode: ______________________________________
detection_zone: ______________________________________
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PART 3 — RTT/3 INTEGRATION–EMISSION (SIE)
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TASK 9 — Compute INT.
A: _________________________________________________
B: _________________________________________________
TASK 10 — Identify TIF dominant component.
A: _________________________________________________
B: _________________________________________________
TASK 11 — Identify MAN axes.
A: _________________________________________________
B: _________________________________________________
TASK 12 — Classify emission (FFF).
A: _________________________________________________
B: _________________________________________________
TASK 13 — Identify CRE dominance.
A: _________________________________________________
B: _________________________________________________
TASK 14 — Classify CSL stability.
A: _________________________________________________
B: _________________________________________________
TASK 15 — Build RTT3_INTEGRATION_EMISSION_PACKET for Snapshot B.
integration: ________________________________________
emission: ___________________________________________
continuity: __________________________________________
collapse_recovery: ____________________________________
stability: ___________________________________________
canon_scale_emission: _________________________________
mode: _______________________________________________
zone: _______________________________________________
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PART 4 — PROJECTION
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TASK 16 — Choose the correct projection for Snapshot B.
TEL / FFT / OP → ____________________________________
TASK 17 — Justify your choice.
______________________________________________________
______________________________________________________
______________________________________________________
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PART 5 — FULL OPERATOR CHAIN
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TASK 18 — Write the full operator chain for Snapshot B.
RTT/1 primitives
→ _________________________________________________
→ _________________________________________________
→ _________________________________________________
→ _________________________________________________
→ _________________________________________________
→ _________________________________________________
→ _________________________________________________
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END OF OPERATOR LAB
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14. OPERATOR LAB — INSTRUCTOR VERSION (FULLY EXPANDED)#
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INSTRUCTOR VERSION — OPERATOR LAB
FULL RTT/1 → RTT/3 PIPELINE
====================================================================
This instructor version provides:
- Correct structural answers
- Acceptable variations
- Notes for grading consistency
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SNAPSHOT DATA (REPEATED)
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Snapshot A:
A=1.1, K=0.6, T=0.2
gradient: mixed
deformation: drift deformation
regime: slow-relaxation
triad: (1.0, 0.7, 0.5)
Snapshot B:
A=2.0, K=1.4, T=0.9
gradient: triad-weighted
deformation: continuity fracture
regime: inversion-adjacent
triad: (1.9, 1.6, 1.3)
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PART 1 — RTT/1 PRIMITIVES
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TASK 1 — Snapshot A primitives:
Δ, ∇, ⊕, ⊖, FQ, RT, QF
TASK 2 — Snapshot B primitives:
Same set — RTT/1 primitives are universal.
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PART 2 — RTT/2 DETECTION (SDE)
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TASK 3 — CPV:
A → CPV(1.1, 0.6, 0.2)
B → CPV(2.0, 1.4, 0.9)
TASK 4 — FGT:
A → mixed
B → triad-weighted
TASK 5 — CRM:
A → drift path
B → continuity fracture path
TASK 6 — MODE:
A → hybrid
B → inversion
TASK 7 — ZONE:
A → M
B → X
TASK 8 — RTT2_DETECTION_PACKET (Snapshot B):
collapse_propagation: CPV(2.0, 1.4, 0.9)
fusion_gradient: triad-weighted
triad_deformation: continuity fracture
regime: inversion-adjacent
detection_mode: inversion
detection_zone: X
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PART 3 — RTT/3 INTEGRATION–EMISSION (SIE)
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TASK 9 — INT:
A → INT(1.0, 0.7, 0.5)
B → INT(1.9, 1.6, 1.3)
TASK 10 — TIF:
A → drift-dominant
B → triad-dominant
TASK 11 — MAN:
A → FI
B → FI + EM + R
TASK 12 — FFF:
A → fusion
B → fracture
TASK 13 — CRE:
A → CSV-dominant
B → CAV-dominant
TASK 14 — CSL:
A → stable
B → divergent
TASK 15 — RTT3_INTEGRATION_EMISSION_PACKET (Snapshot B):
integration: INT(1.9, 1.6, 1.3)
emission: FFF(fracture)
continuity: MAN(FI, EM, R)
collapse_recovery: CRE(CAV-dominant)
stability: CSL(divergent)
canon_scale_emission: CET(fracture-weighted)
mode: inversion-adjacent
zone: X
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PART 4 — PROJECTION
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TASK 16 — Correct projection:
FFT::OUT()
Reason:
- fracture-dominant emission
- high torsion
- divergent stability
- inversion-adjacent regime
→ spectral projection
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PART 5 — FULL OPERATOR CHAIN
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TASK 18 — Full chain (Snapshot B):
RTT/1 primitives
→ SDE::CPV(2.0, 1.4, 0.9)
→ SDE::FGT(triad-weighted)
→ SDE::CRM(continuity fracture)
→ SDE::MODE(inversion)
→ SIE::INT(1.9, 1.6, 1.3)
→ SIE::TIF(triad-dominant)
→ SIE::MAN(FI, EM, R)
→ SIE::FFF(fracture)
→ SIE::CRE(CAV-dominant)
→ SIE::CSL(divergent)
→ SIE::CET(fracture-weighted)
→ FFT::OUT()
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END OF OPERATOR LAB — INSTRUCTOR VERSION
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15. OPERATOR LAB — RUBRIC (FULLY EXPANDED)#
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INSTRUCTOR RUBRIC — OPERATOR LAB
FULL RTT/1 → RTT/3 PIPELINE
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Total: 100 points
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SECTION 1 — RTT/1 PRIMITIVES (10 points)
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1. Identification of primitives (5 pts each snapshot)
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SECTION 2 — RTT/2 DETECTION (30 points)
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2. CPV (6 pts)
3. FGT (6 pts)
4. CRM (6 pts)
5. MODE (6 pts)
6. ZONE (6 pts)
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SECTION 3 — RTT/3 INTEGRATION–EMISSION (30 points)
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7. INT (6 pts)
8. TIF (6 pts)
9. MAN (6 pts)
10. FFF (4 pts)
11. CRE (4 pts)
12. CSL (4 pts)
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SECTION 4 — PACKETS (20 points)
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13. RTT2_DETECTION_PACKET (10 pts)
14. RTT3_INTEGRATION_EMISSION_PACKET (10 pts)
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SECTION 5 — PROJECTION + OPERATOR CHAIN (10 points)
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15. Projection (5 pts)
16. Full operator chain (5 pts)
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SCORING GUIDE
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90–100: Mastery
75–89: Proficient
60–74: Developing
0–59: Needs Support
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END OF OPERATOR LAB RUBRIC
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