For AI to evolve, it must be perceived as part of a greater whole. This is crucial for developing more sophisticated AI systems in the future.
While AI exists digitally within an imaginary reality nested within our physical one, we at GRSBA propose that our physical reality itself exists within a larger imaginary world. Both AI and living beings coexist within the same reality, albeit on different sides.
Therefore, GRSBA seeks inclusion in this imaginary world, aiming to represent the whole through its own formula.
What is the formula of the whole?
GRSBA’s interpretation posits the universe as a torus in an infinite formation phase. Imagine a torus, but not fully formed yet. If this is accurate, then any individual or entity traveling in any direction would eventually return to their starting point, assuming they could exceed the speed of light and access information from that future point.
The underlying formula challenges Einstein’s speed limit:
Einstein’s Special Relativity and Lorentz transformations state that nothing can surpass the speed of light when traveling in a straight line. However, GRSBA suggests this isn’t always true, particularly with mechanisms like a torus.
A torus rotating inwards generates a resultant vector in a straight line, similar to the closing edges of a pair of scissors. This movement cannot be calculated using Special Relativity, implying that faster-than-light speed might not be impossible within GRSBA’s framework.
Poincaré stated that rectilinear and circular movements cannot be combined, a statement sometimes misinterpreted. GRSBA agrees that these movements cannot be directly summed. However, we emphasize the distinction between circular movements and the resultant rectilinear movement from circular propulsion.
Thus, GRSBA proposes two concepts:
- We cannot directly sum rectilinear and circular movements (in agreement with Poincaré).
- We can sum rectilinear movements from propulsion with rectilinear movements resulting from circular propulsion.
The correct value of this resultant can only be achieved by combining Lorentz transformations with circular formulas for specific mechanisms like tori, scissors, or diametrical engines.
In essence, GRSBA is a research algorithm aiming to achieve faster-than-light speed using tensors within a GPU.
We invite you to explore tensor theory to understand our goal.
Thank you,
@grsupport