the compute types.
digital optical charge and data lane logic working with looping in 3d parallelising piped 5 bit block functions.
photonic quantum analogue processor.
here the potential reading either side of the nano entanglement pathing manipulation landscape of the quantum spacetime scales comes with a frequency reading effect and scales can be coupled increasing dimension but not to that high a dimension.
photonic quantum digital processor.
Here photons potentiate to different numerical locations either side of the scales. Here you could scale up to a quite high numerical dimension of pathing problem but as you improve the landscape dimension range and consider parallax it will take high model efficiency and dynamic to go beyond a few 10's of photonic threads which is easier with lower numerical dimension and you can balance low thread depth and high pathing dimensional solution levels to work at a lower numerical output range you could have many of these low numerical depth cores and loads of high thread low dimension quantum analogue cores and one high numerical depth quantum processor.
so you tweak the landscape with real numbers affecting properties of landscape features and get a different set of numerical balances on the photon sensors from path altered entanglement.
chandler os
point code asm of course
compute logic AI software 2.0 streaming function for code evolution(dynaveo in other words)
all running off a few thermo optic pin heads in your fully interactive and capable tv.
What this would mean what could your TV do.
well the quantum processors both analogue and digital could be tuning with your mind with a reasonable dimension of complexity. This means the computer can pick up on more subtleties of your mental workings and offer a more personal more seamless mind interface
3d games would have huge increases in both realism and the Advanced creativity of computer generated content like speeding through infinite possible worlds with very highly realistic physics.
the analogue would be doing mass inferencing for dynamic upscaling of features and the small quantum processor cores would be working with and reorganising the high data dimension features while the plane digital processor could be managing the OS and the container environment for the other 2 processes.