Hector,
To make near-poetry of computer science, and have it be factually accurate and scientifically well grounded besides, is a tour de force. I look forward to seeing this piece published in a prestigious venue, as by any objective standard I know, it deserves to be.
It's so gratifying to see information theory getting the strong treatment in this contest, that I hoped it would.
All best,
Tom
T H Ray,
Thanks for your kind words. I'm glad you found the essay interesting and also to be me who stands in favor of information theory to support the digital view of the world in this exciting contest.
Sincerely.
I hope you've made plans to be in Boston for ICCS this summer. If my own plans go as expected I'd love to share some conversation over a cold Sam Adams.
Tom
Many thanks Tom,
I will likely be in Boston during the Summer (not sure if I will attend ICCS this time though). Drop me a line if your plans go as you hope. My email is on the first page of the essay.
Best.
Hi Hector, I was very impressed with your essay. Very easy to read yet dealing with complex study matter. I have a question which relates to you talking about DNA incidentally:
Q: Why can't an Archimedes screw be used as a particle/wave model of gravity? Why is no-one experimenting with this simple idea of a screw being the analogy needed to visualise a force-inducing particle of attraction? If it then travelled around a wraparound universe it would emerge on the other side as force of repulsion i.e. dark energy. I don't understand why no-one has grasped this simple idea yet.
Many thanks.
Hi Hector Zenil,
Congratuations, that permits to understand better the computing and its randomness.
I ask me how is the basis of these systems and laguages? The simulations can be optimized !
Good luck.
Best Regards
Steve
Hello,
Very interesting essay and at the same time hard to understand if someone does not have formal exposure to complexity theory. I still don't see two things: why an analog universe can't have an algorithmic representation, which is obviously what relativity has offered with very high accuracy, and how can one decide the fundamental question from all these, namely whether there is a smallest interval of space(time) or not. Another question: do you take for granted that algorithmic representations supervene on laws of nature?
Regards.
Dear Dr. Hector Zenil,
I am just now downloading your essay. I will read it to the best of my ability. I will be looking for whether or not your view of the universe is one of an unfolding 'program' in somewhat of a computer sense. Your statement:
"On the contrary, if a problem can be described in algorithmic terms, then it is algorithmic, ..."
Seems to me to suggest that you believe that the universe can be properly described and defined by the means of establishing 'steps'. I will be looking for your support for that view. If I am wrongly anticipating your position, then, I will learn this by reading your essay. Thank you for participating.
James Putnam
Thank you very much Alan.
Concerning your question, I don't know why nobody has used the idea of an Archimedes screw. It sounds to me that something similar has been explored in the form of some topological spaces that behave as you describe, although I'm not sure whether they have been connected to the dark energy phenomenon.
Best regards.
Thanks Steve. I think it is the first time I read a post from you with nothing about the Spheres model =)
Thanks again.
Hello Efthimios,
Good question. What I claim, and the reason I believe my model is stronger than claiming directly that the world is digital, is because in my view one doesn't have to presume discreteness as a basic assumption of the world. One starts asking how the universe looks like in terms of the distribution of patterns in the world. Then one can conclude either that the world is digital because it looks like so (or does not), or that it is algorithmic (in the digital sense) even if it is not digital, case in which I argue we have no reasons to think it is not digital. We provide some evidence in favor of the resemblance between empirical and digital datasets and means to continue the investigation (investigation that has already provided some applications by the way, such as the calculation of the complexity of short strings where compression algorithms use to fail).
You may also mean that the world could be algorithmic in other different sense, in an analog fashion (in the sense of being carried out by an analog computer) and still remain algorithmic. It could be, but so far we have had a hard time trying to define analog computation, at least in feasible terms, and our best model to understanding the world has turned out to be digital (Turing) computation. This is why I focus on discussing the way the world seems to unfold and whether it may do so in one or another way. Our claims are supported by statistical results (statistics are not proofs though), and we found that patterns in the real world and the digital ones, that we simulated, seem to be distributed alike.
Among the things I argue in my essay is that the world would have greater chances to look random (or more random if you prefer) if it were analog. If one throws digits into the air of an analog (infinitely divisible) world and if this hypothetical world allows 'true' (indeterministic) randomness unlike in a digital one, then one would expect every digit to be like the digits of a Chaitin Omega (see definition in the Appendix of the essay), this is a number that is random by definition under our standard model of computation. You can perform the same thought experiment with a real number line and see that chances of picking a random number among all numbers, in a finite interval, is 1, that is complete certainty that you will pick a random number. Yet we don't experience that in our everyday life, but quite the opposite. Chaitin has proven that one cannot calculate most digits of an Omega number (for some Omega numbers not even a single digit), so in a world where random numbers persist, things might just have greater chances to look like Chaitin Omegas. The fact that we can do science in this world seems to be an indication favoring that this is not the case.
You are right, it is very interesting how physical models based on mathematical theories assume continuous variables, yet when one solves the equations of, let's say general relativity to take the example you mention, the model becomes algorithmic in the strict digital sense, either by the mechanistic way in which equations are solved by hand, or literally when solved by a digital computers. The algorithmic view might turn out to help as a shortcut to understanding the digital nature of the world without having to assume it at first.
Sincerely.
Dear Hector,
Thank you for the detailed response. I now understand better your work (I hope), which I think is very interesting and original.
However, relativity theory tells us that the world is analog and fully deterministic. You say: " I will argue that if the universe were analog, then the world would likely be random, making it largely incomprehensible."
The above statement is contrary to the best scientific theory we have available that in based on continuity of spacetime and it is fully deterministic at the same time, contrary to your claim. In addition, this type of analog mode of a universe is comprehensible and falsifiable by experimentation, but hasn't been falsified to this date.
Regardless analog computational machines, If the universe is analog, it is the best analog computer, we should not need to find another one.
I would like to know more about how your quoted statement above reconciles with relativity theory.
Thanks and regards.
:)..Peter says I am sphericentrist,probably a problem of vanity due to my young age(35):)
Regards
Thanks Hector! You're the third person to appreciate the connection. If Newton had hit on this idea we would never have had Einstein's spacetime continuum imo. It leads on to the idea explaining the 100,000 year ice age problems which are encountered with Milankovitch cycles. Nevermind..
Alan
I'm a bit younger than you Steve.
Dear Efthimios,
Yes, classical and relativistic mechanics are both deterministic, and that's compatible with my algorithmic worldview. On the other hand, certain phenomena can be modeled assuming that matter and space exist as a continuum, meaning that matter is continuously distributed over an entire region of space. By definition, a continuum is a body that can be continually sub-divided into infinitesimal elements. However, matter is composed of molecules and atoms, separated by empty space. If a model like general relativity is believed to describe the world at all scales then one would also need to think of matter as continuum, something not compatible with my view but also not compatible with another large, and equally important, field of modern physics: quantum mechanics (the view that there are elementary particles and that they constitute all matter).
Modeling an object or a phenomenon as something doesn't mean it is that something. Even if on length scales greater than that of atomic distances, models may be highly accurate, they do not necessarily describe the universe at all scales or under all circumstances, which should reminds us that models are not always full descriptions of reality, so we should not take them to be at the most basic level of physical explanation.
You make a great point fully compatible with my worldview: if the world is analog, then we would need to live in the best possible analog world. That is what I argue, that chances of finding patterns and structures in an analog world would be very low unless, as you suggest, one assumes that our world is the best possible among all possible. Under the digital view, however, patterns and structures are basically an avoidable consequence, so no need of such a strong assumption.
Sincerely.
:) it's cool.
Spherically yours(you see, still a word with sphere lol)
Héctor:
Hello from another math student from ciencias (unam). Much older than you anyway. 45 now.
I'm in the contest also.
I read your essay and I liked it a lot, because I am into computation complexity also.
I have been far from academia for years, except for my participation on this and last year contest on fqxi.
I would like to know if you know there are computation complexity study research groups in Mexico.
I really find your essay quite good, let's wait on how the voting goes .
Please read my essay and comment .
Hola Juan Enrique,
Nice to meet you. I know of the Centro de Ciencias de la Complejidad (C3) at UNAM to which I'm associated with too. Sure, I will read your essay with interest.
Gracias por tu apoyo. Un saludo.
EInsteins dice obeys these classical rules 1 ODD 1 EVEN= 2 ODD.
And 2 ODD 2 EVEN= 4 EVEN.
QM is determined by EInsteins dice and you can have a model of the universe where evrything is determined at least in the computer world......
This is not OUR UNIVERSE this is a universe where everythng is binary either zero or one.