Theory of All presents a bold and comprehensive framework for unifying modern physics, cosmology, and consciousness into a single coherent structure.

Developed over a decade of independent research, this work introduces AGAPE - the TO'A Framework (Theory of All), a trans-dimensional model proposing that the observable universe is a four-dimensional projection of a richer Omniversal manifold governed by a Global Time parameter and a scale-dependent spectral operator.

At the heart of the theory lies a single master relation - the TO'A equation - designed as a higher-order generalization of Einstein's mass-energy equivalence. This equation integrates quantum phase evolution, relativistic structure, Hamiltonian-Lagrangian dynamics, Dirac spinorial symmetry, and scale-dependent energy activation into one formal system. When reduced under appropriate limits, it recovers known physical laws; when extended, it explores regimes beyond the Planck scale, inflationary cosmology, and conventional spacetime.

Key contributions of the work include:

- The introduction of Global Time, distinct from local relativistic time, as the governing temporal parameter of the Omniverse
- A unified treatment of Schrödinger and Dirac structures within a single Omniversal phase framework
- A scale-calibrated spectral operator enabling the same equation to apply from macroscopic systems down to approximately 10⁻⁷² meters
- A Hamiltonian and Lagrangian formulation compatible with known quantum field theory while extending naturally toward string and M-theory backgrounds
- A redefinition of cosmological singularities as emergent projections rather than absolute origins
- An ontological integration of consciousness as a field-level participant in physical coherence and measurement

The book is mathematically structured yet philosophically rigorous, maintaining formal clarity while addressing foundational questions left unresolved by standard cosmology: the mass-density discrepancy of the universe, the nature of dark energy, the quantum-relativistic divide, and the role of observation in physical reality.

Theory of All does not present itself as a final closure of physics, but as a coherent and extensible framework - one that invites critique, mathematical refinement, and further development across disciplines.