The Meaning Physics Viewer visualizes DSLO’s substrate‑level semantic dynamics. It renders the six foundational fields—Drift, Continuity, Curvature, Collapse, Restoration, and Susceptibility—as a coherent geometric manifold. Each field represents a law of semantic motion: how meaning drifts, stabilizes, bends, fails, recovers, and amplifies.
Together, they form a deterministic dashboard of the substrate itself—showing how meaning maintains identity under perturbation. The viewer is not a simulation; it is a direct visualization of DSLO’s lawful substrate, exposing the physics that underlies semantic stability.
The Meaning Physics Viewer presents the public‑layer geometry of DSLO’s semantic substrate. It exposes the six foundational fields—Drift, Continuity, Curvature, Collapse, Restoration, and Susceptibility—as a coherent manifold that governs how meaning‑stable systems maintain identity under perturbation. Each field is rendered as a deterministic component of the substrate, enabling researchers to inspect how local semantic motion, systemic constraints, and recovery dynamics interact to preserve lawful posture.
The instrument is schema‑driven: all geometry is generated from a structured field specification rather than hand‑authored visuals. This ensures that the viewer reflects the invariant relationships defined by the DSLO substrate rather than an interpretive or illustrative layer. The resulting manifold provides a stable reference frame for analyzing semantic invariants, evaluating perturbation responses, and examining the lawful transitions that constitute DSLO moments.
For researchers working in AGI, cognitive architectures, semantic physics, or alignment theory, the viewer serves as an entry point into DSLO’s substrate‑level structure. It offers a transparent, inspectable representation of the meaning‑preservation dynamics that underlie DSLO’s deterministic orchestration layer. This instrument establishes the foundation for future modules—including moment construction, scenario dynamics, and signal‑ecology integration—while maintaining strict separation from private operational mechanisms.
The Viewer is defined formally in the DSLO v0.5 Specification.