This repository contains the source files, manuscript, and supplemental materials for:
Author: Neil Crago
Date: May 2026
Version: Paper 3 — Unified Architecture
This repository contains the third paper in the SpaceTCO series:
The SpaceTCO Unified Field Architecture, a comprehensive framework that unifies physics, computation, biology, and cosmology under a single deterministic geometric model.
The central premise is simple but radical:
The universe is not continuous.
It is a finite‑resolution geometric engine executing deterministic update rules.
From this premise, the paper derives:
- the structure of matter,
- the origin of forces,
- the nature of quantum behaviour,
- the architecture of biological coherence,
- the stability of galaxies,
- and the computational analogue of the entire system.
This document is the first complete synthesis of the SpaceTCO framework.
The universe is built on a discrete volumetric geometry called the 156‑Metric, updated by the Universal Causal Operator.
This substrate enforces:
- adjacency
- identity
- coherence
- finite representational capacity
It replaces the infinities of continuous mathematics with structural limits.
Matter is not fundamental.
It is a stable geometric deformation of the substrate:
- tension → mass
- torsion → charge/spin
- phase → quantum behaviour
Particles are coherence wells, not point objects.
Quantum phase is not continuous.
It is quantized into 12 prime‑indexed minima across a 60‑unit bandwidth.
The M46 manifold provides:
- deterministic collapse (Proximity‑Snap)
- the structure of quarks
- nuclear stability
- the Tsirelson bound
- the universal coupling constant (K_{\text{TCO}} = m_H / 60)
The continuum limit of the substrate is an elastic tensor field supporting:
- tension (gravity)
- torsion (electromagnetism)
- shear (weak interaction)
- compression (strong interaction)
All forces are modes of deformation in the same field.
Between particles and galaxies lies a universal mesoscopic regime:
- molecules
- superconductors
- biological TADs
- neural coherence networks
- galactic rings
All arise from the same coherence dynamics.
Gravity, dark matter, and dark energy emerge as:
- causal flow
- coherence surplus
- reciprocal curvature
Galaxies form quantized rings due to Mod‑4 congruence and the finite coherence velocity (c/137).
Life is syntropy: the active harvesting of coherence.
- DNA → nested phase structure
- proteins → torsional operators
- neurons → phase‑locked oscillators
- consciousness → global phase synchronization
Biology is not an exception to physics.
It is physics at the mesoscopic scale.
Linear Conglomerate Calculus (LCC) is the computational analogue of the substrate.
It provides:
- deterministic consensus
- quantized state finalization
- bipartite identity tensors
- thermal‑free execution
- native superposition handling
LCC is not inspired by physics — it is physics, expressed computationally.
The universe executes a three‑step cycle:
- tension redistribution
- phase realignment
- identity preservation
This is the OS kernel of reality.
The SpaceTCO architecture:
- eliminates singularities
- removes the need for renormalization
- replaces probabilistic collapse with deterministic snapping
- unifies all forces
- explains galactic structure
- provides a computational substrate for quantum‑correct logic
- bridges physics and computation
- provides testable predictions across multiple domains
It restores the universe to a state of coherent, deterministic order.
- Paper 3 (PDF) — The full monograph
- Figures — Diagrams of the 156‑Metric, M46 manifold, Generator Field, and galactic rings
- Supplementary Notes — Derivations, proofs, and extended commentary
- LICENSE-MIT - A standard MIT license
- CITATION.cff - Citation information
If you use or reference this work, please cite:
Crago, N. The SpaceTCO Unified Field Architecture: A Deterministic Geometric Model of Reality. (2026). DOI: 10.5281/zenodo.20325427
Upcoming papers in the SpaceTCO series:
-
Paper 4 — Time & Dimensions
Time as the execution rate of the lattice; coherence velocity (c/137); dimensional emergence. -
Paper 5 — The Galactic Lagrange Disk
Quantized rings, Mod‑4 sieve, and the structure of the Milky Way. -
Paper 6 — The Computational Substrate
Full implementation of LCC as a unified datastore + compute engine.
For discussion, collaboration, or technical questions, please reach out.