This is a Wix version of Time University.
Black Holes as Worlds Page 7
Black holes are seen as universes from the inside and spheres of holographic data from the outside. These classical bits are a particular "collapsed" view but an observer independant view would be more like a collection of non-binary unit vector truth values. Like classical bits Bloch speres have a observer dependent orientation. Pure directional truth values require an observer view before they can be viewed as a Bloch or Reinmann sphere.
Pingpong Balls modelling quantum states
The directional truth balls here projects on to a holographic 3D web of uncolapsed truth values inside the horizon. Like Black hole horizons the number of bits or data elements inside a spherical 3D world is the same number of data nodes on the 3D surface which is called a 2-sphere.
As a general rule a N+1 dimensional world holds the amount of data on it's N dimensional N-Sphere surface. A 4D spacetime would have a 3D world similar tou ours as an event horizon.
Although the opposite of holographic projection is shadow projection rather than time slicing, another way of imagining the relationship of inside and sirface of a data sphere, is the surface has the data of a moment of time when the inner data is unprojected spacetime.
Directional Truth Data balls
as Quantum Computers
Unlike the usual aproached to information in quantum systems, "T-Ball" data is treated as Read Only Memory with preset values. This enables automatic consistency of relationships across alternate projections, and easier management of self consistencies of events or underlying laws of relationships of data.
Although unchanging underlying data may seem to prevent dynamics, the dynamics arise the the rules and/or agency of the observers and the decoding rules or algorithms. Like daydreamers making fairy tale castles abnd flufy bunnies out of cloud formations the pictures are more in the process of imagining rather than written into the shape of the clouds.
These data clouds however can be projected onto 4D spacetimes and then timesliced into moment of time and 3D worlds to be experienced. Projecting onto ten dimensional space reveals aspects of quantum dynamics if Itzhak Bars Gauge-based projections carry over.
Theoretiocally almost any question related to worlds consistent with the unchanging truth topology might be answered by selecting an appropriate interpretive projection or slice of the data.
Some dynamic views such as a life of a person or history of the world we are experiencing may be viewed as interpretive code reading the data and moving to new parts of the data as the interpretive program directs. Alternatively, we might assume an agency rather than mechanical code choses which bits of data to read and what user interface is experienced.
Although the data has no set meaning, in theory it may be possible to create a data cloud from 3D datacloud photos of locations and create a decoding system where the data may be questioned like an chatty AI or experienced as a 3D environment for a Vr simulation.