Theoretically, anything that can implement boolean logic can be used to build a Turing-complete CPU. It just needs to represent a “true” state", a “false” state, a way to make a comparisons, and an input and output mechanism to feed other subunits or retrieve data from them. Stuff like this has also been implemented using water pumps/valves, and even in Minecraft using redstone. Computers don’t have to be based on electronics.
Theoretically, anything that can implement boolean logic can be used to build a Turing-complete CPU. It just needs to represent a “true” state", a “false” state, a way to make a comparisons, and an input and output mechanism to feed other subunits or retrieve data from them. Stuff like this has also been implemented using water pumps/valves, and even in Minecraft using redstone. Computers don’t have to be based on electronics.
Or even in Minecraft using water pumps/valves
https://youtu.be/a1JsjYLn1Vo?si=FwaHXzSSuBCHNjyH
In short, everything that is Turing-conplete can compute anything.
Except for that which is non-computable.
New to me that there is proof that something is not computable.
The most obvious answer to this is the halting problem.
That doesn’t compute.
Like yo Mama’s weight!
SCNR