vST for Scientific Simulators#

Terminology#

This appendix defines the terminology used throughout the vST for Scientific Simulators artifact. Terms are presented in a substrate‑agnostic, model‑independent manner and apply to any high‑dimensional simulator operating across the full dimensional ladder (3D → 1024D). Definitions emphasize primitive‑level structure, regime behavior, scaling continuity, and invariant preservation.

1. Substrate Terms#

Simulator Substrate#

A structured, invariant‑preserving framework for representing and interpreting simulation state‑spaces across 64D–1024D.

State‑Space#

The high‑dimensional vector space representing the simulator’s physical, numerical, or multi‑field state at a given timestep or solver iteration.

Coherence Surface#

A stable region in state‑space where trajectories maintain structural continuity across time, space, or solver iterations.

2. Primitive Terms#

Dimensional Primitive (DP)#

The minimal unit of simulation‑state structure, capturing local coherence, variance behavior, and projection stability.

Triadic Dimensional Primitive (TDP)#

A triad of DPs forming the smallest unit capable of expressing full dynamical regime behavior (R₁, R₂, R₃).

Scaling Primitive (SP)#

A rule‑based expansion unit that preserves invariants during dimensional scaling (e.g., grid refinement, timestep reduction, solver‑order changes).

Coherence Primitive (CP)#

A minimal unit identifying stable, transitional, or dispersed regions in high‑dimensional simulation state‑space.

3. Core Terms#

Triadic Dimensional Core (TDC)#

The 3D–9D substrate composed of one or more TDPs, used for interpretable projection of simulation states.

3D Structural Core#

Captures motif‑level geometry in spatial or particle‑level fields.

6D Interaction Core#

Captures relational and solver‑driven structure across fields, particles, or spatial domains.

9D Coherence Core#

Captures pathway‑level coherence across time, space, or solver iterations.

4. Regime Terms#

High‑Dimensional Regimes (R₁ᴴ, R₂ᴴ, R₃ᴴ)#

The triadic regime structure expressed in 64D–1024D simulation state‑spaces.

Stable Regime (R₁ / R₁ᴴ)#

Compact, coherent, low‑variance state behavior.

Transition Regime (R₂ / R₂ᴴ)#

Branching, oscillatory, or reorientation behavior across time or space.

Dispersion Regime (R₃ / R₃ᴴ)#

Diffuse, fragmented, or unstable state behavior.

5. Scaling Terms#

Scaling Behavior#

The structured expansion of state‑space capacity as grid resolution, timestep refinement, or solver complexity increases.

Scaling Regimes (S₁, S₂, S₃)#

Triadic scaling behavior describing stable, transitional, and dispersion‑prone scaling phases.

Dimensional Continuity#

The requirement that state‑space expansion remains smooth and invariant‑preserving across the dimensional ladder.

6. Projection Terms#

Invertible Projection#

A projection from high‑dimensional state‑space into 3D–9D that preserves primitive‑level structure and regime identity.

Regime‑Aware Projection#

A projection that maintains correct mapping of R₁, R₂, and R₃ behaviors.

Primitive‑Aligned Projection#

A projection that preserves DP, TDP, SP, and CP structure.

7. Alignment Terms#

Iteration‑to‑Iteration Alignment#

Comparison of simulation states across solver iterations or timesteps.

Spatial/Particle Alignment#

Comparison of states across spatial regions or particle subsets.

Cross‑Resolution Alignment#

Comparison of state‑space structure across grid refinements or timestep reductions.

Cross‑Version Alignment#

Comparison of simulation behavior across code revisions, solver changes, or parameterizations.

8. Validation Terms#

vST (Validation‑Space‑Time)#

A substrate‑level validation framework evaluating structural coherence, dimensional continuity, regime behavior, and core alignment.

Validation Layers (V₁–V₄)#

Four structured evaluation layers ensuring invariant‑preserving behavior across the dimensional ladder.

9. Drift Terms#

Drift#

A deviation from expected substrate behavior, indicating instability or invariant failure.

Drift Categories (D₁–D₄)#

Classification of drift into structural, dimensional, regime, or projection drift.

Drift Severity#

A measure of drift magnitude (low, moderate, high).