J. Random Universe Geodesic Culture Robert A. Hettinga (rah@rah.ai) Seafeathers Bay, Anguilla September 5, 2020, 2:37PM AST I suppose the following may read like a bunch of gobbledegook to most people, but I suppose I can’t really care. It makes sense to me at the moment. Though I need a nap, now. A frequent trope of the cypherpunk list in the middle 1990’s was the character J. Random Cypherpunk. The name is self-explanatory, but he had just as much cred there as a social/political variable as the cryptographic variables Alice, Bob, Carol, or Dave. Mrs. RAH and I had a cat named Alice and still have a dog named Dave. Heh. Never got around to using Randy before Mrs. RAH took away my nomenclature card, but we did get to Eve, Mallory, Rusty (Trusty, Trusted Entity, whatever, Trent was just too foppish, didn’t lend itself to a dog’s call name), all of whom are gone, now. Animals after them had sensible names, like Red, an aging black-mouthed bob-tailed red “heeler” who likes to sleep on my right foot like he owns it, particularly around suppertime. Somehow this afternoon I’m thinking about the universe, the simulation thereof, the multiverse, and anthropism, and out pops J. Random Universe. It’s all about randomness. It’s now obvious to me that you can’t study infinity without randomness. Any first semester calculus student knows that. I must have smoked a number on the way to class that day. Epsilons and deltas were boring, and it turns out that they were just tacked onto calculus after the fact to keep it nailed down so it didn’t blow away. Nonetheless, I argue this with the same lumpen-enthusiasm that I argue about the recent ‘discovery’ of mine that has been obvious to anyone else, like, say, my recent breathtaking intuition, after four of five decades of acquaintance with it, that Hegelianism is pure and simple moral relativism. In the same Hegelian vein, I suppose it’s safe to say that since history is the application of a human narrative to previous events, it is an art, and not a science to begin with. Another thing that everybody figured out long before I did, and completely agrees to Popper’s proof that Marxism is pseudoscience. You always know the end of a story before you can write it, or at least re-write it into actual coherence. Post hoc, etc. I have a friend who’s a priest, more fun, a converted Mormon, who has said at least once in public that I’m going to end up a ‘towel-boy in purgatory’ because of my backslid-from-Unitarian-but-declared-anyway metaphysical naturalism. Since we’re talking about stuff that sends the average scientific, or at least mathematical, dogmatic atheist scurrying to the confessional, this should be entertaining. Right. Cosmology. Sorry. This is going to be one of those things for which a preamble is not really necessary. I needed to pad things out a bit. Everybody knows by now that a single universe cannot contain all the unlikelihood that life exists in this one, much less intelligence, for various values thereof. Gelertner, Berlinsky, and Meyer are all over this like a duck on a junebug. Heard it on a Hoover podcast with Peter Robinson last year. They point and laugh at a multiverse, especially the idea that some anthropic principal dictates it. I don’t agree. Not the first time I don’t agree with geniuses, I guess. It seems to me that anthropism in a multiverse is quite handy. If, like calculus, it hasn’t found it’s epsilons and deltas just yet, relying on infinity as a ‘no matter where you go, there you are’ in answer to ‘why are we here’, is as good a hack as any. Which brings me to the idea of a universal simulation. Without following the turtles *all* the way down, I’d like to propose a cypherpunk’s solution. The universe is discovered, not calculated. God does, it seems, play dice, to the extent that a literary character, um, plays. Not only is the universe unknowable by sheer dint of processing power, any arbitrary community of humans, much less a single one, cannot process enough information to calculate the entire universe in the Newtonian sense, or the Misian sense, for that matter. Nor can any machine or arbitrary community of machines do that. ‘Community’ is fraught here, machine-wise, because it implies all kinds of things like emotion, the simulation of same, dominance hierarchies of emoting beings versus geodesics of processors, and all kinds of off the wall whoop-de-do, *gasping for air...* but also, the universe, at the quantum level is *random*. Incalculable, all the way up, all the way down. You can’t fool me Lord Russell. If you were to simulate this universe, you would need to simulate randomness. At this point cypherpunks are waving their arms, semaphore, at the back of the room, while real cryptographers smirk in the front row. Pseudorandomness requires a seed. A key. And if you have a key, you can now *predict* the results of the simulation without having to run it to begin with. Heh. Obviously this is wrong, full of amphiboly. But I’m too lazy to think about it now because it’s time for a nap. Cheers, RAH
‐‐‐‐‐‐‐ Original Message ‐‐‐‐‐‐‐ On Saturday, September 5, 2020 6:39 PM, Robert Hettinga <hettinga@gmail.com> wrote:
J. Random Universe ... It’s all about randomness. It’s now obvious to me that you can’t study infinity without randomness...
consciousness all about randomness as well, or the boundary between entropy and stasis.
... I suppose it’s safe to say that since history is the application of a human narrative to previous events, it is an art, and not a science to begin with.
it's interesting to see technology shape the historical narrative. in the past, manipulation oriented around secrecy and falsity. today we see profligacy of falsity - ever harder to find the proverbial needle in the exploding digital haystack! the digital sea is tailor made for confirmation bias :)
I have a friend who’s a priest, more fun, a converted Mormon, who has said at least once in public that I’m going to end up a ‘towel-boy in purgatory’ because of my backslid-from-Unitarian-but-declared-anyway metaphysical naturalism.
the mormon religion always struck me as the most "American" belief system: you! can become a god! and procreate with untold spirit wives! populating worlds without number! o/~ fatboy slim is fucking in heaven, and fucking and fucking and fucking in heaven ... o/~
If, like calculus, it hasn’t found it’s epsilons and deltas just yet, relying on infinity as a ‘no matter where you go, there you are’ in answer to ‘why are we here’, is as good a hack as any.
existence - a mystery to everybody!
Which brings me to the idea of a universal simulation. Without following the turtles all the way down, I’d like to propose a cypherpunk’s solution.
The universe is discovered, not calculated... also, the universe, at the quantum level is random. Incalculable, all the way up, all the way down.
fun developments in this regard: "Does quantum theory apply at all scales, including that of observers? New light on this fundamental question has recently been shed through a resurgence of interest in the long-standing Wigner’s friend paradox. This is a thought experiment addressing the quantum measurement problem—the difficulty of reconciling the (unitary, deterministic) evolution of isolated systems and the (non-unitary, probabilistic) state update after a measurement. Here, by building on a scenario with two separated but entangled friends introduced by Brukner, we prove that if quantum evolution is controllable on the scale of an observer, then one of ‘No-Superdeterminism’, ‘Locality’ or ‘Absoluteness of Observed Events’—that every observed event exists absolutely, not relatively—must be false." - https://www.nature.com/articles/s41567-020-0990-x perhaps entropy invades locality, due to entanglement, throughout the universe?
If you were to simulate this universe, you would need to simulate randomness. At this point cypherpunks are waving their arms, semaphore, at the back of the room, while real cryptographers smirk in the front row. Pseudorandomness requires a seed. A key. And if you have a key, you can now predict the results of the simulation without having to run it to begin with.
Heh.
Obviously this is wrong, full of amphiboly. But I’m too lazy to think about it now because it’s time for a nap.
a crux here: in cryptography we know that simulations of randomness (or appearance of randomness) are flawed - they do contain the entropy they appear! question becomes: is this flaw exploitable? using key expansion, we take a small amount of entropy and expand it indefinitely, with the appearance and capability of unknowable-ness. flawed, but not exploitable! dark energy the cost of key expansion of our universal seed state? perhaps questions of existence to be answered in finding such a secret... best regards, P.S. i recently read about a study showing randomness as key to sensor efficacy in low signal environments. it seems nature has long relied on this technique of stochastic resonance to amplify capability! """ To make a better sensor, just add noise by Walt Mills, Pennsylvania State University Adding noise to enhance a weak signal is a sensing phenomenon common in the animal world but unusual in manmade sensors. Now Penn State researchers have added a small amount of background noise to enhance very weak signals in a light source too dim to sense. In contrast to most sensors, for which noise is a problem that should be suppressed, they found that adding just the right amount of background noise can actually increase a signal too weak for sensing by normal sensors, to a level that can reach detectability. Although their sensor, based on a two-dimensional material called molybdenum disulfide, detects light, the same principle can be used to detect other signals, and because it requires very little energy and space compared to conventional sensors, could find wide adaptation in the coming Internet of Things (IoT). IoT will deploy tens of millions of sensors to monitor conditions in the home and factories, and low energy requirements would be a strong bonus. "This phenomenon is something that is frequently seen in nature," says Saptarshi Das, an assistant professor of engineering science and mechanics. "For example, a paddlefish that lives in muddy waters cannot actually find its food, which is a phytoplankton called Daphnia, by sight. The paddlefish has electroreceptors that can pick up very weak electric signal from the Daphnia at up to 50 meters. If you add a little bit of noise, it can find the Daphnia at 75 meters or even 100 meters. This ability adds to the evolutionary success of this animal." Another interesting example is the jewel beetle, which can detect a forest fire at 50 miles distance. The most advanced infrared detector can only detect at 10 to 20 miles. This is due to a phenomenon these animals use called stochastic resonance. "Stochastic resonance is a phenomenon where a weak signal which is below the detection threshold of a sensor can be detected in the presence of a finite and appropriate amount of noise," according to Akhil Dodda, a graduate student in engineering science and mechanics and co-first author on a new paper appearing this week in Nature Communications. In their paper, the researchers demonstrate the first use of this technique to detect a subthreshold photonic signal. One possible use being considered is for troops in combat. Army personnel in the field already carry very bulky equipment. It is unfeasible to add the heavy, power-hungry equipment required to enhance a subthreshold signal. Their technique is also applicable in resource-constrained environments or beneath the ocean where people want to monitor very weak signals. It could also be used in volcanic locations or to monitor earthquakes in time to give an alarm. "Who would have thought that noise could play a constructive role in signal detection? We have challenged tradition to detect otherwise undetectable signals with miniscule energy consumption. This can open doors to a totally unexplored and ignored field of noise enhanced signal detection," said Aaryan Oberoi, a graduate student from the Department of Engineering Science and Mechanics and co-first author on the paper. Their next step is to demonstrate this technique on a silicon photodiode, which would make the device very scalable. Any state-of-the art sensor can be enhanced by this concept, Das says. """ - https://phys.org/news/2020-09-sensor-noise.html
On Sat, Sep 05, 2020 at 07:36:32PM +0000, coderman wrote:
On Saturday, September 5, 2020 6:39 PM, Robert Hettinga <hettinga@gmail.com> wrote:
J. Random Universe ... It’s all about randomness. It’s now obvious to me that you can’t study infinity without randomness...
consciousness all about randomness as well, or the boundary between entropy and stasis.
... I suppose it’s safe to say that since history is the application of a human narrative to previous events, it is an art, and not a science to begin with.
it's interesting to see technology shape the historical narrative.
"the speed of sound is an upper limit to the speed of travel" "the Earth is the center of this universe" "this universe is the only universe" "the speed of light is an upper limit to the speed of travel"
in the past, manipulation oriented around secrecy and falsity. today we see profligacy of falsity - ever harder to find the proverbial needle in the exploding digital haystack!
the digital sea is tailor made for confirmation bias :)
:)
I have a friend who’s a priest, more fun, a converted Mormon, who has said at least once in public that I’m going to end up a ‘towel-boy in purgatory’ because of my backslid-from-Unitarian-but-declared-anyway metaphysical naturalism.
the mormon religion always struck me as the most "American" belief system: you! can become a god! and procreate with untold spirit wives! populating worlds without number!
o/~ fatboy slim is fucking in heaven, and fucking and fucking and fucking in heaven ... o/~
If, like calculus, it hasn’t found it’s epsilons and deltas just yet, relying on infinity as a ‘no matter where you go, there you are’ in answer to ‘why are we here’, is as good a hack as any.
existence - a mystery to everybody!
"our existence is a mystery which shall never be 'solved'" ;)
Which brings me to the idea of a universal simulation. Without following the turtles all the way down, I’d like to propose a cypherpunk’s solution.
The universe is discovered, not calculated... also, the universe, at the quantum level is random. Incalculable, all the way up, all the way down.
fun developments in this regard: "Does quantum theory apply at all scales, including that of observers? New light on this fundamental question has recently been shed through a resurgence of interest in the long-standing Wigner’s friend paradox. This is a thought experiment addressing the quantum measurement problem—the difficulty of reconciling the (unitary, deterministic) evolution of isolated systems and the (non-unitary, probabilistic) state update after a measurement. Here, by building on a scenario with two separated but entangled friends introduced by Brukner, we prove that if quantum evolution is controllable on the scale of an observer, then one of ‘No-Superdeterminism’, ‘Locality’ or ‘Absoluteness of Observed Events’—that every observed event exists absolutely, not relatively—must be false." - https://www.nature.com/articles/s41567-020-0990-x
perhaps entropy invades locality, due to entanglement, throughout the universe?
Entropy having some motive force, or perhaps tendency? And if due to entanglement, then we might posit entangled vs non-entangled entropy... Assuming the universe is discovered, this discovery is by some reference point - unit of awareness (and or experience I guess - but is experience qualitatively different to awareness anyway?).
If you were to simulate this universe, you would need to simulate randomness. At this point cypherpunks are waving their arms, semaphore, at the back of the room, while real cryptographers smirk in the front row. Pseudorandomness requires a seed. A key. And if you have a key, you can now predict the results of the simulation without having to run it to begin with.
That's quite a thought - each multiverse a product of a pseudorandom seed :) So then does the seer (such as Nostradamus, the book of Revelation) witness ("calculate") pseudorandom sequences in particular locality (time, as well as space), or are such predictions statements of prior intent? Fatalism devolves at the personal/ individual human level, and experience suggests autonomy to some degree, suggests some capacity to influence one's "reality"..
Heh.
Obviously this is wrong, full of amphiboly. But I’m too lazy to think about it now because it’s time for a nap.
Word o the week: amphiboly
a crux here: in cryptography we know that simulations of randomness (or appearance of randomness) are flawed - they do contain the entropy they appear! question becomes: is this flaw exploitable?
using key expansion, we take a small amount of entropy and expand it indefinitely, with the appearance and capability of unknowable-ness. flawed, but not exploitable!
dark energy the cost of key expansion of our universal seed state? perhaps questions of existence to be answered in finding such a secret...
As the Scientology "E-Meter" (electrodermal polygraph type device) can by some people (and/or by training) be controlled, perhaps the "quantum substrate" of this verse is a giant electro quantum soliton sound-unit bath of almost unlimited quantum power just waiting for your bio-feedback training to leash, control and unleash as you wield the fabric of this reality and create your world...
best regards,
P.S. i recently read about a study showing randomness as key to sensor efficacy in low signal environments. it seems nature has long relied on this technique of stochastic resonance to amplify capability!
Awesome! Not only the thought, but this one be present reality too. Let's throw "stochastic" into that soliton word salad above and -really- turbo charge our reality molding.
""" To make a better sensor, just add noise
by Walt Mills, Pennsylvania State University
Adding noise to enhance a weak signal is a sensing phenomenon common in the animal world but unusual in manmade sensors. Now Penn State researchers have added a small amount of background noise to enhance very weak signals in a light source too dim to sense.
In contrast to most sensors, for which noise is a problem that should be suppressed, they found that adding just the right amount of background noise can actually increase a signal too weak for sensing by normal sensors, to a level that can reach detectability.
Although their sensor, based on a two-dimensional material called molybdenum disulfide, detects light, the same principle can be used to detect other signals, and because it requires very little energy and space compared to conventional sensors, could find wide adaptation in the coming Internet of Things (IoT). IoT will deploy tens of millions of sensors to monitor conditions in the home and factories, and low energy requirements would be a strong bonus.
This reminds of laser amplification cavities https://en.wikipedia.org/wiki/Optical_amplifier Perhaps we are just noisy doped stochastic reality amplifiers swimming in a quantum possibility soup?
"This phenomenon is something that is frequently seen in nature," says Saptarshi Das, an assistant professor of engineering science and mechanics. "For example, a paddlefish that lives in muddy waters cannot actually find its food, which is a phytoplankton called Daphnia, by sight. The paddlefish has electroreceptors that can pick up very weak electric signal from the Daphnia at up to 50 meters. If you add a little bit of noise, it can find the Daphnia at 75 meters or even 100 meters. This ability adds to the evolutionary success of this animal."
Pheromones - noise added to mating signals.
Another interesting example is the jewel beetle, which can detect a forest fire at 50 miles distance. The most advanced infrared detector can only detect at 10 to 20 miles. This is due to a phenomenon these animals use called stochastic resonance.
"Stochastic resonance is a phenomenon where a weak signal which is below the detection threshold of a sensor can be detected in the presence of a finite and appropriate amount of noise," according to Akhil Dodda, a graduate student in engineering science and mechanics and co-first author on a new paper appearing this week in Nature Communications.
In their paper, the researchers demonstrate the first use of this technique to detect a subthreshold photonic signal.
Photographs at 50 miles hey?
One possible use being considered is for troops in combat. Army personnel in the field already carry very bulky equipment. It is unfeasible to add the heavy, power-hungry equipment required to enhance a subthreshold signal. Their technique is also applicable in resource-constrained environments or beneath the ocean where people want to monitor very weak signals. It could also be used in volcanic locations or to monitor earthquakes in time to give an alarm.
One can imagine extending the range of sonar - it sounds similar to "inherent" modulating of a base frequency, just the base is the noise which makes the signal stand out/ causes the signal to travel much further. No doubt the sigint math boffins will be all over this one... commercial opportunity in enhanced WiFi signals etc of course.
"Who would have thought that noise could play a constructive role in signal detection? We have challenged tradition to detect otherwise undetectable signals with miniscule energy consumption. This can open doors to a totally unexplored and ignored field of noise enhanced signal detection," said Aaryan Oberoi, a graduate student from the Department of Engineering Science and Mechanics and co-first author on the paper.
Their next step is to demonstrate this technique on a silicon photodiode, which would make the device very scalable. Any state-of-the art sensor can be enhanced by this concept, Das says. """ - https://phys.org/news/2020-09-sensor-noise.html
On Sep 5, 2020, at 3:36 PM, coderman <coderman@protonmail.com> wrote:
the mormon religion always struck me as the most "American" belief system: you! can become a god! and procreate with untold spirit wives! populating worlds without number!
Yup. That’s what Harold Bloom said about them. The mormon god is an American God. He’s a real estate developer. Cheers, RAH
you! can ... procreate with untold spirit wives! populating worlds without number!
For whom is this not an ideal and fair situation provided no unfair supports, all the rage today, ensue. Does not voluntary association prevail... What procreation to cypherpunk, who knows. Next...
participants (4)
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coderman
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grarpamp
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Robert Hettinga
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Zenaan Harkness