March 2026 Preprint

Reality as Discrete Informational Dynamics

A discrete informational framework in which spacetime, gravity, quantum mechanics, and matter emerge from acts of transmission between nodes.

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March 2026 Preprint

An ontological shift

Modern physics is formulated in terms of objects in spacetime. F-fabric theory starts from a different primitive: not an object, but an act of transmission between nodes of a discrete network. Space, time, fields and particles are treated as emergent dynamics.

Primary entity: transmission,
not object.

Minimal node state

Resonance Ω

Defines the resonance structure of transmission and distinguishes resonant from non-resonant coupling.

Amplitude A

Carries the energetic scale of the node and underlies gravity and particle formation.

Topological charge Q

Provides exact discrete topological stability and makes stable matter possible.

These three parameters are proposed as minimal and sufficient.

Space

Graph structure admits an effective continuum description.

Time

Time is defined through discrete update steps.

Relativity

A maximum propagation speed emerges from locality.

Gravity

Amplitude inhomogeneity generates effective gravitational behavior.

Scope of the theory

Primitives and axioms
Discrete dynamics
Emergence of space
Emergence of time and causality
Emergence of gravity
Emergence of quantum mechanics
Matter as topological solitons
Dark matter and cosmology
Connection to standard theories

Falsifiable predictions

Modified dispersion at extreme photon energies

Dark-matter halos with a characteristic inner profile

Regular black-hole interior instead of a singularity

Suppressed variation of G over cosmic history

Geometric origin of the proton-electron mass ratio

View all predictions