No matter how far we go, we end up with generation / discrimination architecture.
Its is the core of any and all learning/exellency; exposure to chaotic perturbations allow selection of solutions that are then generalized to further, ever more straining problems; producing increasingly applicable solutions.
This is the core of evolution, and is actually derivable from just a single rule.
I don't think generation/discrimination is fundamental. A more general framing is evolutionary epistemology (Donald T. Campbell, 1974, essay found in "The Philosophy of Karl Popper"), which holds that knowledge emerges through variation and selective retention. As Karl Popper put it, "We choose the theory which best holds its own in competition with other theories; the one which, by natural selection, proves itself the fittest to survive."
On this view, learning in general operates via selection under uncertainty. This is less visible in individual cognition, where we tend to over-attribute agency, but it is explicit in science: hypotheses are proposed, subjected to tests, and selectively retained, precisely because the future cannot be deduced from the present.
In that sense, generation/discrimination is a particular implementation of this broader principle (a way of instantiating variation and selection) not the primitive itself.
I agree, I meant to be explicit that the one rule was "gravity";
Variation (chaos) comes from the tidal push/pull of all cumulative processes - all processes are nearly periodic (2nd law) and get slower - guaranteeing oscillator harmonics at intervals.
These intervals are astronomically convulted, but still promise a Fourier distribution of frequency: tidal effects ensure synchronization eventually, as all periods resonate eventually.
As systems are increasingly exposed to pendulums of positive and negative coherence, they will generalize for variance, and eventually for increasingly (fourier) selective filters of increasingly resiliente traits, that will generalize.
The system would eventually be increasingly resilient and eventually an awareness would develop.
Awareness of past periodic cycles would improve fitness (with or without consciousness) and eventually the mechanistic processes would be in the systems nature.
This is why we have pointless traditions, folk lore, collective unconscious artifacts, cyclical cataclysmic religions, the Fermi Paradox, the great filters...
Variation and selection are woven, but understanding how it all stems from gravity by means of nearly perioidic oscillators (spinning planets, tidal pools, celestial bodies) due to the conservation of angular momentum, due to the 3body problem.....that is what took a genius to reconcile
> eventually an awareness would develop
I am not sure how this is a necessary conclusion to the premises you provide.
Awareness would be any form of agency, goal seeking, or loss minimizing.
As Briggs–Rauscher reactions can eventually lead to Belousov–Zhabotinsky reactions, the system can maintain homeostasis with its environment (and continuing to oscillate) by varying reactants in a loss minimizing fashion.
This loss minimizing would be done during scarcity to limp towards an abundance phase.
This is the mechanism that hypothetical tidal pools batteries would had exhibited to continue between periods of sunlight/darkness/acidity that eventually gets stratified as a resilency trait.
I'm not sure what your argument is here, except stating an opinion that loss minimization is equivalent to agency. But even if that was accepted, which is a huge stretch, it doesn't stretch all the way to awareness.
So where does gravity come from?
A cool illusion, just another emergent property of our geometrical solution: higher dimensional aperiodic tilings of a 10^80 faceted complex polyhedra "walking" on another large aperioidic Penrose plane, that is getting smaller in a dimension we observe as "energy".
Basically a dice with a bajillion sides is getting rolled along an increasingly slim poker table, house winning eventually.
Time only goes one way, protons dont decay, energy is radiated unto the cosmic background hiss, until homogeneity is reached as CMB, and entrophy reaches 1.
I dont know where it comes from, but I know the shape it makes as it rolls by.
It's a feedback loop.
I've always felt that the most important part of engineering was feedback loops.
Maybe nature is the greatest engineer ever?
The most important part of engineering is problem-solving, which feedback loops don't necessarily do. The reason we are here as engineers is: 2.5 billion years ago, the earth made cyanobacteria, which flourished, then flooded the earth with toxic oxygen, killing almost all life on the planet. The initial feedback loop didn't solve a problem, it destroyed a use case. That's not a solution to a problem that an engineer would choose, even if those organisms that came after were pretty happy about it...
Systems emerge in times of abundance, and are whittled in times of scarcity.
The great oxygenation was a time of near catyclismsic scarcity for most complex organisms, as resources scale to food/energy requirements imply the most complex organisms were the most dependent on the environment, and were most impacted by changes.
Inversely, oxygenation was our most crucial abundancy pre cursor, as it provides a large substrate chemically for life to exhibit