“Whatever happened here is a datapoint about matter and energy doing their usual thing over a long period of time.”
Not all thermodynamic systems are created equal. I know enough about information theory to know that making bold claims about what is interesting and meaningful is unwise. But I also know it is not certain that there is no objective difference between a photon wandering through a vacuum and a butterfly.
Here is one framework for understanding complexity that applies equally well for stars, planets, plants, animals, humans and AIs. It is possible I am typical-minding, but it is also possible that the universe cares about complexity in some meaningful way. Maybe it helps increase the rate of entropy relaxation. I don’t know.
spontaneously developing a specific interest in the history of how natural selection developed protein-based organic machines on one particular planet
not ‘one particular planet’ but ‘at all’.
I find it plausible that there is some sense in which the universe is interested in the evolution of complex nanomachines. I find it likely that an evolved being would be interested in the same. I find very likely that an evolved being would be particularly interested in the evolutionary process by which it came into being.
Whether this leads to s-risk or not is another question, but I think your implication that all thermodynamic systems are in some sense equally interesting is just a piece of performative cynicism and not based on anything. Yes this is apparently what matter and energy will do given enough time. Maybe the future evolution of these atoms is all predetermined. But the idea of things being interesting or uninteresting is baked into the idea of having preferences at all, so if you are going to use that vocabulary to talk about an ASI you must already be assuming that it will not see all thermodynamic systems as equal.
I feel like this conversation might be interesting to continue, if I had more bandwidth, but I don’t. In any case, thanks for the linked article, looks interesting based on the abstract.
Haha, totally agree- I’m very much at the limit of what I can contribute.
In an ‘Understanding Entropy’ seminar series I took part in a long time ago we discussed measures of complexity and such things. Nothing was clear then or is now, but the thermodynamic arrow of time plus the second law of thermodynamics plus something something complexity plus the fermi observation seems to leave a lot of potential room for this planet is special even from a totally misanthropic frame.
Not all thermodynamic systems are created equal. I know enough about information theory to know that making bold claims about what is interesting and meaningful is unwise. But I also know it is not certain that there is no objective difference between a photon wandering through a vacuum and a butterfly.
Here is one framework for understanding complexity that applies equally well for stars, planets, plants, animals, humans and AIs. It is possible I am typical-minding, but it is also possible that the universe cares about complexity in some meaningful way. Maybe it helps increase the rate of entropy relaxation. I don’t know.
not ‘one particular planet’ but ‘at all’.
I find it plausible that there is some sense in which the universe is interested in the evolution of complex nanomachines. I find it likely that an evolved being would be interested in the same. I find very likely that an evolved being would be particularly interested in the evolutionary process by which it came into being.
Whether this leads to s-risk or not is another question, but I think your implication that all thermodynamic systems are in some sense equally interesting is just a piece of performative cynicism and not based on anything. Yes this is apparently what matter and energy will do given enough time. Maybe the future evolution of these atoms is all predetermined. But the idea of things being interesting or uninteresting is baked into the idea of having preferences at all, so if you are going to use that vocabulary to talk about an ASI you must already be assuming that it will not see all thermodynamic systems as equal.
I feel like this conversation might be interesting to continue, if I had more bandwidth, but I don’t. In any case, thanks for the linked article, looks interesting based on the abstract.
Haha, totally agree- I’m very much at the limit of what I can contribute.
In an ‘Understanding Entropy’ seminar series I took part in a long time ago we discussed measures of complexity and such things. Nothing was clear then or is now, but the thermodynamic arrow of time plus the second law of thermodynamics plus something something complexity plus the fermi observation seems to leave a lot of potential room for this planet is special even from a totally misanthropic frame.
Enjoy the article!