The Fabric Of Computational Non-Duality
Wolfram Physics, “Theory Of Everything” — & Exploring Reducible Pockets Of Computations Within Blockchain & Iota Tangle Technology.
THE THEORY OF EVERYTHING
Physicists are looking to create a grand unification theory that can bring all particles and forces that act upon each other into a singular model that will connect both the macro (Einstein Theory) and micro (Quantum Theory). The debate on how to create such a model is variable. In this article, we will explore the theories of Stephen Wolfram. Wolfram is a physicist, mathematician, and computational language, expert. The author of the book, “New Kind Of Science” Wolfram constructs how to perceive the universe through computational modeling.
We will explore elementary definitions within Physics, Computation, and Awareness to help refine our understanding. Our brains often are used to compartmentalizing, but I want to reader to be aware that continuity and discrete events are both paradoxically at the heart of Wolfram’s — Theory Of Everything. Ultimately, this story will lead us to the question, “Can The Theory Of Everything help create an exponentially more efficient blockchain?”
THE SEARCH FOR A UNIFIED THEORY
The models which govern physics up until recently have always been expressed mathematically. Reasonably, as scientists have introduced new concepts, the previous understanding of the universe is negotiated against new thought, mainly in the form of mathematics.
Traditional Model of Physics = Complexity Modeled Theorems Fit To Unknown Variable Structures
Theory Of Everything = Simplicity Modeled Causal Structures Mapped Onto A Graph To Analyze How Complexity Forms
The Wolfram Model
The central principles of the Wolfram Physics Project are about finding a simple computational rule that generates our universe.
Wolfram’s different path emerged out of his work within the power of computational learning. The path which ended up becoming the standard of Wolfram Language which helps automate language into computation (a set of operations that begins with some initial conditions and gives an output which follows from a definite set of rules).
This “New Kind Of Science” inverts our perception to view the world as the interaction between computational elements.
For the purpose of this article, we will define a computation as an output based on its direct causal relationship in the form of an input. We can assume (inputs) are probabilistic and their causal relation is deterministic (output state transitions.)
In order to know an answer to anything computationally, one cannot skip ahead. Wolfram puts forth a theory called computational irreducibility; whereas, in order to create an output, the input must happen first or put another way — in order to know the effect, the cause must happen first.
Cause and effect create an idea that definite events happen. We experience this as a single thread of time and correlate that space being of the same matter.
In Wolfram’s words: