If you break two piecewise equations running in one or so cycles trough hybrid binary tenary logic circuits with binary input and output into a key for each possible operation to run and key for each logic part of logic set by which to deduce if you should run a given opperation then you can tie different levels of each of the two piecewise equations into logic from other levels or of the other piecewise equation almost like how quantum computers are suppose to work with multiple states at once supposed too thats a matter of perspective you can also tie opperations as to give you one or two outputs in the case of relating two piecewise equation for example if the conditions on the second level of the second piecewise are you meet you might multiply two inputs a * b an operation on the first level of the first piecewise equation if those conditions were meet by 2 leaving you with a single output of a*b*2 a key define if both conditions have to be meet ect will be needed also a key telling you to only output the final conclusion. This in essence is what i call the relationship function which works with conditional logic and opperational ties.
As relationship relates to more piecewise equatios and hence becomes more dynamic you need to work with more cycles to achieve your output a sort of riscy ciscy hybrid logic.
This function is useful for bitwise determination from advanced maths like say determining bits based on where a resluting number falls in relation to the integer part in a given base of a log powering the base and how close your number is to this number or the base to the power of the integer log +1 a basic example of what i call logarythmic bitshifting and for advanced machine intelligence in general.
such a logic system would do well doing calculations in cell memory working collectivly with collective cell memory with collective cells working collectivly with or independent of a larger cached mid processor in relation to access to code from higher level cache and your dram on the board the mid processor would determine from the current code stream whether to determin microcode to work with next based on either set opperations , rythmically deduced or past the post priority dependent on what the program requires at any given time. So the data flow can work all way from in order to free flow
We are not talking a von numen architecture here and I would be curious if technology like this does emerge what use quantum analouge optical components synaptic logic or memristors might have too add to such archtecture.
when you consider that the p vs np problem is a convergent retavaistic paradox the most usefull solutions will almost always come from convergence of multiple techniques especially if you working with machine intelligence are clever enough to converge such well enough.
please remeber if you put garbage into any type of mind you chances of outputting gold are very slim indeed so with regards to the treat posed by machine intelligece well if your convinced of such garbage and develop relative to such garbage even in trying not to you might just end up in the long run outputting such garbage so if you dont want such a garbage output in the future try loving yourself first.