HSP Suite — Student Cheat Sheet

Quick-Reference for All Operator Families

🤖 AI-Ready Module • TriadicFrameworks

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1 · What Is the HSP Suite?#

The Harmonic Stability Profile (HSP) Suite is the RTT-native analytics engine. It measures harmonic stability, classifies echoes, maps substrate flow, and detects drift. Five modules work together: HSP Core, Echo Classifier, Substrate Flow (SEFM), Triadic Echo Lattice (TEL), and cross-module chains.

2 · The Big Picture — One-Line Summary Per Module#

Module	What It Does
`HSP Core`	Classifies stability, measures metrics, assigns tiers
`Echo Classifier`	Identifies echo type (E1–E6) from triggers, signatures, and strength
`Substrate Flow (SEFM)`	Maps how echoes move across the five substrates
`Triadic Echo Lattice (TEL)`	Integrates all echo behavior into a four-layer lattice
`Cross-Module Chains`	Connects operators across modules into diagnostic pipelines

3 · Stability Classes at a Glance#

Code	Name	Drift	Recursion	Think of it as…
`SC-1`	Stable Harmonics	Low	R1 Ladder	Rock-solid concept
`SC-2`	Semi-Stable Harmonics	Moderate	R2 Cycle	Needs monitoring
`SC-3`	Harmonic Oscillators	High	R3 Map	Wobbling — review soon
`SC-4`	Chaotic Nodes	Dangerous	R4 Atlas	Red alert — fix now

4 · The Six Metrics (M1–M6)#

Code	Name	Measures	Drift Sensitivity
`M1`	Harmonic Recurrence	How often concept returns to baseline	D1
`M2`	Position Consistency	Interval band stability (I1–I12)	D1–D2
`M3`	Substrate Anchoring	Firmness of substrate alignment	D2–D4
`M4`	Role Stability	Operator behavior consistency	D1–D3
`M5`	Temporal Stability	Stability across time/revisions	D1–D4
`M6`	Mutation Rate	Speed of harmonic structure change	D2–D4

5 · Stability Tiers (T1–T4)#

Tier	Name	What to Do
`T1`	Canon-Stable	Nothing — you're good
`T2`	Stable-with-Pressure	Keep an eye on it
`T3`	Drift-Active	Review required
`T4`	Unstable	Fix immediately

6 · Drift Types (D1–D4)#

Code	Name	What It Breaks
`D1`	Structural Drift	Structural triads
`D2`	Dimensional Drift	Harmonic ladders
`D3`	Regime Drift	Governance rules
`D4`	Projection Drift	Lifts symbols into atlas space

7 · Recursion Modes (R1–R4)#

Code	Name	Flow Direction
`R1`	Ladder	S → C
`R2`	Cycle	C ↔ H
`R3`	Map	H → So
`R4`	Atlas	So → A

8 · The Five Substrates#

Code	Name
`S`	Symbolic
`C`	Cognitive
`H`	Harmonic
`So`	Social
`A`	Atlas

9 · Echo Types (E1–E6) — The Classifier Output#

Type	Name	Key Trigger	ESI Range	Substrates
`E1`	Structural Echo	Triad/operator recurrence	1–2	1–2
`E2`	Harmonic Echo	Interval alignment	2–3	1
`E3`	Substrate Echo	Cross-substrate recurrence	2–3	3–4
`E4`	Recursion Echo	Recursion-pattern repetition	3–4	2–4
`E5`	Drift-Shadow Echo	Drift-residue recurrence	3–4	2–5
`E6`	Atlas Echo	High-altitude resonance	4	5

10 · Echo Strength Index (ESI)#

Level	Name	What Happens
`ESI-1`	Local	Flow stays local
`ESI-2`	Mild	Mild migration begins
`ESI-3`	Cross-substrate	Echoes cross substrate boundaries
`ESI-4`	Atlas pull	Atlas pull activates

11 · Flow Channels (SEFM)#

Channel	Path	What Flows Here
`CH-1`	S → C	Definitions refine into concepts
`CH-2`	C ↔ H	Harmonic alignment oscillation
`CH-3`	H → So	Governance torsion, operator inversion
`CH-4`	So → A	Atlas forcing, projection drift

12 · Lattice Layers (TEL)#

Layer	Substrates	Echo Families	Recursion	Drift
`Ladder`	S → C	F1	R1	D1
`Cycle`	C ↔ H	F2, F3	R2	D2
`Map`	H ↔ So	F4, F5	R3	D3
`Atlas`	A	F6	R4	D4

13 · The Diagnostic Pipeline (How Everything Connects)#

Evaluate metrics (M1–M6)
Assign stability class (SC-1 to SC-4)
Determine tier (T1–T4)
Identify drift type (D1–D4)
Classify echo (E1–E6)
Map to lattice layer
Trace flow channel
Predict escalation path

14 · Key Chains to Remember#

Stability → Classification: SC → R → E → Lattice Layer → Flow Channel
Drift Escalation: D → Echo Pressure → E5 → Drift Pathway → Atlas Pull
Recursion Propagation: R1 → R2 → R3 → R4 (echoes shift upward)

v1.0 | Status: Canon-Stable | HSP Suite Student Cheat Sheet | TriadicFrameworks (RTT)