Universe
The Universe, Decoded—Reality as a Computable Algorithm
- Built To Order
- Production Ready
Automatski has discovered the underlying algorithms that govern the universe—leading to new theories across physics, mathematics, and computation to explain its most profound phenomena.
Outside Automatski, concepts such as dark matter, dark energy, the origin and fate of the universe, cosmic inflation, black holes, wormholes, multiverses, background radiation, and neutrino behavior remain misunderstood. The list continues to grow.
We did not bluff our way through Quantum Electrodynamics. We did not rely on mathematical sleight of hand to approximate our way to answers. Instead, we built first-principle, algorithmic understandings of the universe.
String theory has long been proposed as the unifying theory of everything. Yet it explains nothing concretely. It is like defining two abstract variables—X and Y—and claiming they describe everything, while offering no clear way to derive the actual values for our specific universe.
In essence, string theory is a placeholder. It does not simulate, predict, or decode the physical laws of our universe.
“How does it work?”
Automatski has the answer.
We proved that this universe is a simulation—a deterministic, linearly ordered simulation. It doesn’t require exponential computational complexity (O(N³)) to simulate the universe. Instead, it can be simulated with linear computational effort—O(N).
This discovery is not a metaphor. It is a working theory grounded in algorithms and validated by computational models.