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@Brad dіe Irriterend III wasn't it just because he became so defined by it in the public's eye that he tried to push it away so people would look at his other work as well?
@Brad dіe Irriterend III what he means is that way of thinking is exactly what the guy hated. People thinking "oh wow you are the game of lifes's creator! Your other stuff must be absolutely great!" He didn't want himself to be defined by it. Nor his others works compared to it
It probably is. You have many cellular automata producing this pattern. Just in the elementary cellular automata Sierpinsky triangles generate from Rule 60, Rule 90, Rule 102, Rule 110, Rule 126, Rule 182, Rule 129 and many others: mathworld.wolfram.com/ElementaryCellularAutomaton.html
Very cool. The emitters and crystalline shapes were expected but I was surprised by the more organic looking shapes. I was wondering about the colours for a while but they're just based on position. Would be interesting to see colours based on voxel age or number of neighbors. So much to explore with this!
cough cough... I show fractal images to kids and adults to examine their aesthetic preferences and the way in which they perceive dynamic processes. I have plans to use cellular automata for stimuli as well. I'm a phd student in cognitive neuroscience and developmental psychology. It's really fun.
@@dennyhamrick2552 My studies were halted this spring when things got shut down. I was piloting a experiment which used iterations of simple fractals to examine participants aesthetic preference using a looking time paradigm. I plan to continue work in this area when things go back to normal. I am fortunate to have spent some time collaborating on other fractal research projects at the University of Oregon with Richard Taylor and Margaret Sereno who have published a number of fractal related studies.
Stephen Wolfram produced a series of papers systematically investigating all 88 of the possible one-dimensional elementary cellular automata (en.wikipedia.org/wiki/Elementary_cellular_automaton). He conjectured that one variant ("Rule 110") is Turing-complete and therefore capable of universal computation. This was later proven by Matthew Cook. The 2D cellular automaton that defines Conway's "Game of Life" is also Turing-complete. I would expect that several 3D automata are also Turing-complete since there are so many possibilities.
@@FahlmanCascade where did you get 88 from? There are 256. Each elementary cellular automata is made up of a series of cells; single pixels that can hold either a 1 or a 0. Each cell evolves over time by examining its 'neighbourhood' - it checks the state of itself and the two adjacent cells and determines its next state from that. In total, there are 2^3 = 8 different possible states for this neighbourhood of three cells. Each cell can choose its next state as either 1 or 0 based on which of these neighbourhood states it is in, giving 2^8 = 256 different possible rules. Of course, some of these rules will be mirror images of the others. 64 of the rules are symmetrical, leaving 192 rules with a mirror image or 96 distinct asymmetrical rules. That's a total of 160 distinct rules, even when removing mirrored rules.
writings.stephenwolfram.com/2020/04/finally-we-may-have-a-path-to-the-fundamental-theory-of-physics-and-its-beautiful/ could be a very good reason for that.
@@HermanWillems I just read that article, and it detonated my wig much more than I was prepared for, especially after watching Eric Weinstein's Geometric Unity presentation recently. I'm also mind blown that URL was delivered to me via a UA-cam comment. well done/10
It's only because that's what 3 dimensional noise looks like. It's just pure randomness, which we don't see in 3D very often because it is dominated by spherical symmetry.
I think the rules here are much more complex and take more previous steps into account than Conway's Life. Part of the appeal of that is that there are basically three rules, each cell only has to check eight others, and each tick evolves independently from the previous tick. I'm sure there are rulesets that simple with results that complex in 3D automata, but these are more custom-made.
I'm sure he knows. As far as I can tell, this is simply a 3D extrapolation of 1D elementary cellular automata, with each cell state determined by the preceding states of a 27 cell neighbourhood instead of 3. Of course, even if the rules are a bit different and the cells check more of the field in either space or time, it's still an extrapolation of the same basic concept.
There’s some very cool research that is looking into the genetic/epigenetic ramifications of this model. I’m thinking it may also be useful in modeling community or patch ecology!
I'm very excited to get started with this software but i'm still in hour 6 of ??? installing ML stuff. But your work is fantastic and I really appreciated the ML install instructions, very clearly written and easy to follow even for someone who hasn't used windows since the 90s.
Amazing! I wonder if it's possible to generate a fungi hyphae like growing pattern, or some thing more stringy and root-like, like neurons for instance...
could cellular automata be used to deliver an NH2 ion molecule to where the Oxygen atom is in a guanine molecule in a mtDNA at set point 3243 to dislodge the Oxygen in the guanine and replace the Oxygen with a neutral NH2 to change the Guanine into Adenosine? It would seriously help a lot of people. Especially, MELAS Syndrome patients.
Your software is awesome! Just had a quick play and the only recommendation I can say is you'll need more system memory !! lol Thanks I am gonna have some fun with this :)
Is it possible for a CA rule to include in its visualisation every possible outcome of every possible rule? A grandfather rule you could say. I would presume that the rule itself would have to include the ability for the rule to infinity long. I dunno that’s why I’m asking
“Slow Decay” is probably what’s happening to my brain.
Tfw you eat raw pork
Tfw you get amoebas in your brain
itsacorporatething same
Everything is a going through slow decay
I think I’m more of a extreme decay dude.
I feel like Clouds 1 and Clouds 2 would make amazing terrain generators.
Looks like perlin noise
termite mound generator!
3d noise would be more performant
I saw a little indie game ‘dev talk’ the other day and he used CA to round out the edges in his cave-gen algorithm. It was pretty neat.
@@jsblack02 was that Brian walker's talk?
John Conway, The Genius, The Legend, The One... Rest In Peace...
I was not aware that he passed away ... What a loss.
@Brad dіe Irriterend III Just like Tchaikovsky came to hate his 1812 Overture as a minor part of his corpus.
@Brad dіe Irriterend III wasn't it just because he became so defined by it in the public's eye that he tried to push it away so people would look at his other work as well?
@Brad dіe Irriterend III *sigh* that's exactly the bullshit he was unhappy about, I'd imagine
@Brad dіe Irriterend III what he means is that way of thinking is exactly what the guy hated. People thinking "oh wow you are the game of lifes's creator! Your other stuff must be absolutely great!"
He didn't want himself to be defined by it. Nor his others works compared to it
Cristal Growth 1 (1:32) looks like a 3d form of Sierpinski triangle
pretty much just a sierpinski octahedron
It probably is. You have many cellular automata producing this pattern. Just in the elementary cellular automata Sierpinsky triangles generate from Rule 60, Rule 90, Rule 102, Rule 110, Rule 126, Rule 182, Rule 129 and many others: mathworld.wolfram.com/ElementaryCellularAutomaton.html
yea
It is like a Sierpinski triangle but actually isn't because any holes in a 3D Sierpinski triangle would be inside it an not visible
that's what i was thinking that but simpler like: dats a fracal
Very cool. The emitters and crystalline shapes were expected but I was surprised by the more organic looking shapes. I was wondering about the colours for a while but they're just based on position. Would be interesting to see colours based on voxel age or number of neighbors. So much to explore with this!
Thx, I was also wondering what the colors are representing
Timeline :
0:00 445
0:15 678 678
0:30 Amoeba
0:45 Builder
1:00 Clouds 1
1:15 Clouds 2
1:30 Crystal Growth 1
1:45 Pyroclastic
2:00 Slow decay
2:15 Spiky growth
Also, I wanted to thank you (a bit late) for this wonderful video
I feel like someone could make an academic career out of studying 3d cellular automata
cough cough... I show fractal images to kids and adults to examine their aesthetic preferences and the way in which they perceive dynamic processes. I have plans to use cellular automata for stimuli as well. I'm a phd student in cognitive neuroscience and developmental psychology. It's really fun.
Scott Wallner do you have any published info/more info on that? Sounds interesting
@@dennyhamrick2552 My studies were halted this spring when things got shut down. I was piloting a experiment which used iterations of simple fractals to examine participants aesthetic preference using a looking time paradigm. I plan to continue work in this area when things go back to normal. I am fortunate to have spent some time collaborating on other fractal research projects at the University of Oregon with Richard Taylor and Margaret Sereno who have published a number of fractal related studies.
Stephen Wolfram produced a series of papers systematically investigating all 88 of the possible one-dimensional elementary cellular automata (en.wikipedia.org/wiki/Elementary_cellular_automaton). He conjectured that one variant ("Rule 110") is Turing-complete and therefore capable of universal computation. This was later proven by Matthew Cook. The 2D cellular automaton that defines Conway's "Game of Life" is also Turing-complete. I would expect that several 3D automata are also Turing-complete since there are so many possibilities.
@@FahlmanCascade where did you get 88 from? There are 256.
Each elementary cellular automata is made up of a series of cells; single pixels that can hold either a 1 or a 0. Each cell evolves over time by examining its 'neighbourhood' - it checks the state of itself and the two adjacent cells and determines its next state from that. In total, there are 2^3 = 8 different possible states for this neighbourhood of three cells. Each cell can choose its next state as either 1 or 0 based on which of these neighbourhood states it is in, giving 2^8 = 256 different possible rules. Of course, some of these rules will be mirror images of the others. 64 of the rules are symmetrical, leaving 192 rules with a mirror image or 96 distinct asymmetrical rules. That's a total of 160 distinct rules, even when removing mirrored rules.
1:30 clearly a fractal progression.
Amazing.
Kind of trippy how the one at 1:12 resembles quantum field fluctuations so much.
Glad you noticed that too. Thought I was the only one.
writings.stephenwolfram.com/2020/04/finally-we-may-have-a-path-to-the-fundamental-theory-of-physics-and-its-beautiful/ could be a very good reason for that.
I'm still looking for a cellular automata that makes lattice QCD happen
@@HermanWillems I just read that article, and it detonated my wig much more than I was prepared for, especially after watching Eric Weinstein's Geometric Unity presentation recently. I'm also mind blown that URL was delivered to me via a UA-cam comment. well done/10
It's only because that's what 3 dimensional noise looks like. It's just pure randomness, which we don't see in 3D very often because it is dominated by spherical symmetry.
The clouds and slow decay really remind me of brain structure or ant colonies more than clouds.
They kinda remind me of Perlin noise
Yes Ant Colony
This is completely fascinating!!
3d cellular automata: *grows*
music: 👽👽👽👽👽
Beautiful
For voxel game terrain generation this would be sick, something like cloud 1 and 2, or even slow decay
The builder would be awesome too
1:10 farlands...?
or bust
The End's outer islands
🤔
It's just perlin noise in 3d, look it up.
@@RegahP Looks a bit like it, just a thresholded one
Wow, beautiful and mesmerizing.
rip john conway, you will be dearly missed 😭
He died in my hometown
Who?
@@Tomas-ml9nv the person thats mentioned in the comment maybe??
Fantastic! I'm glad I stumbled upon your work.
Oh my god... These are beautiful
One of the videos of all time
The 3D game of life. It's 3 dimensions of goodness.
I think the rules here are much more complex and take more previous steps into account than Conway's Life. Part of the appeal of that is that there are basically three rules, each cell only has to check eight others, and each tick evolves independently from the previous tick. I'm sure there are rulesets that simple with results that complex in 3D automata, but these are more custom-made.
I really, really, really hope Sebastian Lague finds out about this.
I'm sure he knows. As far as I can tell, this is simply a 3D extrapolation of 1D elementary cellular automata, with each cell state determined by the preceding states of a 27 cell neighbourhood instead of 3. Of course, even if the rules are a bit different and the cells check more of the field in either space or time, it's still an extrapolation of the same basic concept.
Absolutely beautiful.
Crystal growth 1 and Spiky Growth are my favourites, literally, both of them are just beautiful.
And this is how the nether was made
I don't what I was expecting but this was it
I don't know what I just watched, but I enjoyed it
Beautiful, now need this video in stereoscopic 3d.
Visions of Chaos does support rendering these as stereoscopic 3D (or as the red blue glasses anaglyph 3D).
Viewing this in vr would be amazing.
1:40
That bitrate, though.
Very cool work! =)
glad I stumbled into this video. Now I have a new visualization toy to play with. :)
Excellent
The first one looked like some elaborate arcade game level, with bullets and lasers flying everywhere!
It's fascinating that some of these look very similar to 3D renderings of the large-scale structure of the Universe...
The "slow decay" one is very similar to the future of the universe...
Hmmmm...
BEAUTIFUL!
these would be cool loading screen animations
If the technology ever arises I wanna create a simulated universe with these tools
Hidden Gem, cellular automata.
Will take off in good time
There’s some very cool research that is looking into the genetic/epigenetic ramifications of this model. I’m thinking it may also be useful in modeling community or patch ecology!
Any relevant links?
beautiful
We went from a bunch of little things flying around, and some cool patterns, to perlin noise, to fractals
Amazing work
Dude if this was in VR it would be wild.
Amazing. Thought provoking too. Wolfram would approve.
Very very very nice, awesome really
With the music and the visuals. I'm convinced this is what a drug trip is like.
Imagine modeling this with game scripts in Minecraft so every night each chunk iterates like these animations.
how to read "rules"?
See here for more info softologyblog.wordpress.com/2019/12/28/3d-cellular-automata-3/
This is great.
I'm a big fan of how organic "pyroclastic" looks.
I see all these programmed machines in the 2d game of life. I'd love to see the same thing here.
Same
go ahead
This is definitely how to universe works on the smallest scales
Wonderful!
Nice! I thought you only could write an automata in 2D. 3D looks so intriguing!
Right! You can do it in any dimension
Came for the visuals, stayed for the soundtrack
Excellent!
I'm very excited to get started with this software but i'm still in hour 6 of ??? installing ML stuff. But your work is fantastic and I really appreciated the ML install instructions, very clearly written and easy to follow even for someone who hasn't used windows since the 90s.
I had no idea what this was when I first saw it, now after going down "The Game of Life" Rabbit hole I understand, and this is wild
Amazing! I wonder if it's possible to generate a fungi hyphae like growing pattern, or some thing more stringy and root-like, like neurons for instance...
It is
So much of this resembles the universe on both small & large scales. Also....psychedelics
very cool
Wonderful
love cloud1, awww the slow decay one makes me a little sad for a few reasons! pout
I dunno what I'm looking at, but I like it....
Sirpinski triangle woah
nice soundtrack
Geologist and volcano specialist should see this.
cant wait for 4D cellular automata
Wait no longer ua-cam.com/video/4p-s5Oq3QHY/v-deo.html
ua-cam.com/video/lCqiSn4xfJo/v-deo.html
ua-cam.com/video/k6Hoh0xFnx4/v-deo.html
press 1, 2, 3, 4, 5 ,6 ,7 ,8 , and 9 on your keyboard to go to the diffrent sections
I'd love to see you do a video stepping through the code and slowing it down too
0:18 when I leave the lasagna in the fridge for too long
could cellular automata be used to deliver an NH2 ion molecule to where the Oxygen atom is in a guanine molecule in a mtDNA at set point 3243 to dislodge the Oxygen in the guanine and replace the Oxygen with a neutral NH2 to change the Guanine into Adenosine? It would seriously help a lot of people. Especially, MELAS Syndrome patients.
"Slow Decay" Seems to capture the essence of energy localizing and condensing after the early stages of the universe
Nice
2:00 “Slow Decay” ftw
Halfway through it kinda looks like the structure of an aerogel
Your software is awesome! Just had a quick play and the only recommendation I can say is you'll need more system memory !! lol
Thanks I am gonna have some fun with this :)
I think pyroclastic was my favorite. Although, Crystal Growth 1 was pretty cool too.
I have no idea what this is but i like looking at it
the Slow Decay looks like those models of Quantum Fluctuation
Would have been nice to do it as a stereo pair (left-eye image on the right, right-eye image on the left).
I do have the option to render as side by side 3D. Also red/blue or red/cyan anaglyph glasses. The 3D effect works really well.
This sounds useful for movie effects. Is this already used for that?
crystal growths pyroclastic and decays are absolutely the best ones
entirety of the video is interesting tho
Awesome video, though IMO a slightly slower rotation speed and a bit of a fade-out at the end would make it much better =)
WOW... very nice :=)
Some of these look like what random fluctuations in the quantum foam look like.
Now all I want in life is a 3D glider
why is this cool and disturbing at the sametime lmao
I know right
Rest In Peace Conway :'(
445 reminds me of 345 which I used to play around with a lot (although it was 2d)
Reminds me of the quantum fluctuation simulation in a complete vacuum.
Clouds 1 looks like the Minecraft End while Clouds 2 looks like the Minecraft Nether and Slow Decay looks like a mix of both
I don't know what is this but lets press like button
nier something really cool with this
Is it possible for a CA rule to include in its visualisation every possible outcome of every possible rule?
A grandfather rule you could say. I would presume that the rule itself would have to include the ability for the rule to infinity long.
I dunno that’s why I’m asking
Spiky growth = poggers
2:02 could probably be considered a simulation of entropy snuffing out stars over trillions of years
I wonder if the secret behind the origin of life, is hidden in cellular machines?
Trippy
This is basically the theory of everything
I'm fucking in love with this !