A Brain-Inspired Algorithm For Memory

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Artem Kirsanov

Artem Kirsanov

Күн бұрын

Пікірлер: 280
@ArtemKirsanov
@ArtemKirsanov 4 ай бұрын
Join Shortform for awesome book guides and get 5 days of unlimited access! Get 20% off at shortform.com/artem
@NicholasWilliams-uk9xu
@NicholasWilliams-uk9xu 4 ай бұрын
I have a more streamline answer to the protein problem. The protein doesn't start folding when it's a complete sequence, it folds as the sequence is being built. This computationally and temporally constrains the degrees of movement, limiting the number of molecular forces at work at any one given time. Meaning that the part of the sequence that has already been constructed, is already folded into it's low energy state, and the part that hasn't been build isn't preturbing the current folding stage. The folding process is constrained to occur as sequentially as possible, not in parrallel.
@NicholasWilliams-uk9xu
@NicholasWilliams-uk9xu 4 ай бұрын
This is top notch content, good work.
@NicholasWilliams-uk9xu
@NicholasWilliams-uk9xu 4 ай бұрын
A threshold activation heatmap over a parallel distribution of temporal sequential threads is more descriptive. Each thread operates in its own input/output relative connection space and favors specific input sequences over time. Maximum amplification of a sequence (i_1/time + i_2/time + i_3/time...) indicating highly favored temporal sequence and (i_3/time - i_2/time - i_1/time...) indicating the least favored temporal sequence (with temporal sequences in-between these 2 extremes). Each thread is measured against its threshold (T), Amplification (A), and a latent timeframe (L) and elapsed time (E) for sequence-coordinated activation. When A exceeds T, the output is calculated as (1 - |L - E|) to output partners. Favored detection sequences can be defined by a integer to define (most favored position) within the temporal sequential thread. The process can be tuned by sensory reward detections over time, increasing mutation velocity in a direction, changing the param magnitude in that direction, acting on thresholds and shift the sequence of most value for each thread. There is more optimizations to further optimize this style of learning, by extending it with threads that mutate other threads based on their activation levels, allowing mutation behavior to be inferred and leveraged by the network as it's trained (it begins to handle it's own mutations internally based on inference). Then it's a matter of reading the heat map to see what parts of the network like doing certain task, and seeing the state transitions of the network.
@talkingbirb2808
@talkingbirb2808 2 ай бұрын
how do you pay for the subscription from Russia?
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@davidhand9721
@davidhand9721 4 ай бұрын
In fact, many proteins function in a _local_ minimum that is _not_ the global minimum. This is why proteins denature irreversibly when exposed to heat; there's an energy barrier that they can never come back from if they cross it.
@GeoffryGifari
@GeoffryGifari 4 ай бұрын
What's stopping the proteins to fold to the global minimum immediately? And can it spontaneously transition from local to global minimum?
@onebronx
@onebronx 4 ай бұрын
They function at their own global minimum, but the global minimum is also defined by the environment, for example pH, or various chemical agents. Also, for some proteins denaturation is reversible ("renaturation") when the conditions for denaturaing are removed. Irreversibility often caused by protiens interconnecting each other and forming a mesh, losing almost all degrees of freedom; in this case you cannot talk about a global minimum of an individual protein molecule.
@davidhand9721
@davidhand9721 4 ай бұрын
@@GeoffryGifari The space of possible conformations for a protein is gigantic, very high dimensional, so even if they were started in a random state, it would be very unlikely for them to fall into the global minimum right away. As it happens, though, they are constructed one amino acid at a time and the enzyme that builds them keeps anything from interacting with the most recently added residues, so there is a systematic way to do it. At each step, the already-extruded portion of the polypeptide finds its own minimum, and that limits the trajectory of the conformation as it grows. Thus, it's always in some kind of local minimum at every step. There are many other factors at play, too. There are chaperone proteins that prevent selected parts from interacting, there is a whole different process for proteins that are supposed to be in a membrane, and on and on. Life never gives you simple, straightforward rules. What stops it from falling to the global minimum is the energy barriers surrounding local minima. That's pretty much the definition of local minimum, surrounded by energy barriers. If the water molecules that are constantly battering it give it enough energy, it can hop over the barrier and fall into the nearest minimum in that direction, so to speak, but there is no dynamical reason for it to progress toward the global minimum at any given moment; it has to reach it by random jostling. It's theoretically possible for it to jump out of the global minimum, too, in the same way, but by definition, the global minimum has the biggest barriers in the whole space, so it's likely to stick around there.
@davidhand9721
@davidhand9721 4 ай бұрын
@@onebronx Some good points there; I was thinking only of heat denaturing. The result of physical heat denaturing is inevitably the global minimum, and at least when I was in university in 2006, we didn't hear about any proteins coming back from that. If a protein functions at its global minimum, then you can always cook it until it chemically comes apart, but that is another story. Most proteins need to be able to cycle between conformations at low energy scales, e.g. the binding energy of a small molecule, so they don't typically function at the global minimum. It would be pretty contrived if they did, if you think about it. RNAzymes, on the other hand denature and cease function at _low_ temperatures, rather than high, last I checked, and this happens for the same reason: an enzyme needs to access multiple conformation states to function, so it doesn't function if denied the energy to flop around. There are way more interaction motifs for RNA than for polypeptides, so the energy landscape, while bumpy, doesn't generally have an irreversible global minimum like a protein, so they can return to function pretty well after being cooked. That's just what I was taught ~2006, so if we know any different now, please show me a citation.
@onebronx
@onebronx 4 ай бұрын
​@@davidhand9721 well, again, are we talking about heat denaturating of a single polypeptide, or of a large collective? Those are different environments -- in a collective, large molecules can start interlinking, so there is no much sense to talk about some individual global minimums. Of course there is always an ultimate global minimum -- death of the Universe, but we're usually interested in somewhat more "locally global" minimums, where your surrounding environment does not kill you if you stretched a bit too much :) For polymers it is even more complicated because of topology -- there are millions way to make a polypeptide chain self-entangled like a rope in a washing machine, and it actually can denaturate in some configuration with a _higher_ energy, simply because it cannot detangle itself from it. Intuitively, a global minimum (or very close one) should be reachable if you build the chain slowly and carefully, shaking it periodically to allow some "annealing", allowing it to de-tangle early while the chain is still short. And the shorter the polypeptide, the more likely it will eventually find its global minimum (in a sense "global for a single molecule in the pH-neutral isotonic intracellular fluid"). Huge polypeptides can be farther from a global minimum for sure, but may be not so far too, due to evolutionaly pressure: the secondary/ternary structures are evolving and they were naturally-selected for as much stability as it still allows them to function. Those pretty alpha-heilces and beta-sheets, varoius cross-links and nicely-fitting active zones overall create more bonds per unit of length than some randomly aligned segments of the same chain - they evolved for that! And more bonds means less free energy. And then, near the global minimum, you can have some local minimums with slightly higher energies, corresponding to different "activated" configuration. OTOH, the alternative "activated" configuration can be thought as "global" minimums for a system "protein + activator".
@Dent42
@Dent42 4 ай бұрын
Ladies, gentlemen, and fabulous folks of every flavor, the legend is back!
@tonsetz
@tonsetz 4 ай бұрын
bro got lost into obsidian css configuration, but now he returns to brain cell
@giacomogalli2448
@giacomogalli2448 4 ай бұрын
He's something else, manages to make computational neuroscience engaging WHILE not giving up on the details
@terbospeed
@terbospeed Ай бұрын
Fabulous folks of every flavor :) :)
@matthias7534
@matthias7534 Ай бұрын
​@@terbospeed leftist
@siddmathlver3444
@siddmathlver3444 Ай бұрын
Saw this video a month ago and even watched it twice. Just had to come back and drop a comment now that the legend’s got a Nobel under his belt.
@SriNiVi
@SriNiVi 4 ай бұрын
This is an insanely educational video, as a ML researcher working on representation learning for multi modal retrieval, this is insanely helpful and relatable. I think you just gave me a new area to look at now, how exciting, i owe you one.
@blakesmith4879
@blakesmith4879 3 ай бұрын
He has screwed you over. This goes nowhere.
@zachariascarlstromselimovi1243
@zachariascarlstromselimovi1243 3 ай бұрын
@@blakesmith4879explain
@oliveeisner8964
@oliveeisner8964 3 ай бұрын
Everyone involved in this field needs to take a step back and focus on developing empathy before engaging with emerging technologies. The money is big but the forces behind the scenes have nefarious goals. Will you engage ethically going forward? Because there are no positive role models. We are in a battle for humanity's future.
@SriNiVi
@SriNiVi 3 ай бұрын
@@blakesmith4879 I agree, the inspiration from PGMs and energy states are interesting and comes closer to formalising emergent properties in biological evolution
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@tfburns
@tfburns 4 ай бұрын
John Hopfield wasn't the first to describe the formalism which has been subsequently popularised as "Hopfield networks". It seems much fairer to the wider field and long history of neuroscientists, computer scientists, physicists, and so on to call them "associative memory networks", i.e. Hopfield was definitely not the first/only to propose the network some call "Hopfield networks". For instance, after the proposal of Marr (1971), many similar models of associative memory were proposed, e.g., those of Nakano (1972), Amari (1972), Little (1974), and Stanley (1976), which all have a very similar (or exactly the same) formalism as Hopfield's 1982 paper. Today, notable researchers in this field correct their students' papers to replace instances of "Hopfield networks" with "associative memory networks (sometimes referred to as Hopfield networks)" or something similar. I would encourage you to do the same in your current/future videos. I deeply regret making a similar mistake regarding this topic in one of my earlier papers. However, I am glad to correct the record now and in the future. Refs: D Marr. Simple memory: a theory for archicortex. Philos Trans R Soc Lond B Biol Sci, 262(841):23-81, July 1971. Kaoru Nakano. Associatron-a model of associative memory. IEEE Transactions on Systems, Man, and Cybernetics, SMC-2(3):380-388, 1972. doi: 10.1109/TSMC.1972.4309133. S.-I. Amari. Learning patterns and pattern sequences by self-organizing nets of threshold elements. IEEE Transactions on Computers, C-21(11):1197-1206, 1972. doi: 10.1109/T-C.1972.223477. W.A. Little. The existence of persistent states in the brain. Mathematical Biosciences, 19(1):101-120, 1974. ISSN 0025-5564. doi: doi.org/10.1016/0025-5564(74)90031-5. J. C. Stanley. Simulation studies of a temporal sequence memory model. Biological Cybernetics, 24(3):121-137, Sep 1976. ISSN 1432-0770. doi: 10.1007/BF00364115.
@Marcus001
@Marcus001 4 ай бұрын
Wow, you cited your sources on a KZbin comment! Thanks for the info.
@tiagotiagot
@tiagotiagot 4 ай бұрын
See also: Sitgler's law
@maheshkanojiya4858
@maheshkanojiya4858 4 ай бұрын
Thank you for sharing your knowledge
@ArtemKirsanov
@ArtemKirsanov 4 ай бұрын
Wow, thanks for the info!
@NicholasWilliams-uk9xu
@NicholasWilliams-uk9xu 4 ай бұрын
Relative connection spaces are dimensionally agnostic, they don't presupose a dimensionality for each node in the connection space, it's better at tracking large distributions (where a heat map can highligh areas of activity [threshold activations], to see the areas that light up when the system is doing specific task or undergoing a specific sensory data pattern). This way the dimensionality isn't constrained to a 2d sheet and predifined curvature manifold, you can better see the modal transitions of the system via this heat map.
@ricklongley9172
@ricklongley9172 4 ай бұрын
Minor correction: 'Cells that fire together, wire together' was coined by Carla Shatz (1992). Unlike Donald Hebb's original formulation, Shatz's summary of Hebbian learning eliminates the role of axonal transmission delays. By extension, neural networks which remain true to Hebb's original definition should go beyond rate coded models and instead simulate the time delays.
@NicholasWilliams-uk9xu
@NicholasWilliams-uk9xu 4 ай бұрын
Yes latent time parameters need to be implemented. A threshold activation heatmap over a parallel distribution of interconnected temporal sequential threads is more descriptive in targeting what he is trying to convey in larger distibutions where hopfield computational structure fails. Each thread operates in its own input/output relative connection space and favors specific input sequences over time. Maximum amplification of a sequence (i_1/time + i_2/time + i_3/time...) indicating highly favored temporal sequence and (i_3/time - i_2/time - i_1/time...) indicating the least favored temporal sequence (with temporal sequences in-between these 2 extremes). Each thread is measured against its threshold (T), Amplification (A), and a latent timeframe (L) and elapsed time (E) for sequence-coordinated activation. When A exceeds T, the output is calculated as (1 - |L - E|) to output partners. Favored detection sequences can be defined by a integer for each input within a temporal sequential thread (a mutable trainable param), representing the input's favored position within the temporal sequence. The process can be tuned by sensory reward detections over time, increasing mutation velocity in a direction, changing the param magnitude in that direction, acting on thresholds and shift the sequence of most value for each thread. There is more optimizations to further optimize this style of learning, by extending it with threads that mutate other threads based on their activation levels, allowing mutation behavior to be inferred and leveraged by the network. Then it's a matter of reading the heat map to see what parts of the network like doing certain task given a specific time slice, and seeing the state transitions of the network when other distributions become active.
@hyperduality2838
@hyperduality2838 Ай бұрын
Learning is a teleological process, syntropic! Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@ProgZ
@ProgZ 4 ай бұрын
At the beginning, when you mention the O(n) problem, as a programmer it just intuitively makes you want to use a tree or a hash map lol In any case, another banger! Its fascinating to see how these things work!
@vastabyss6496
@vastabyss6496 4 ай бұрын
I had the same thought. Though, a hashmap or something similar probably wouldn't work, since many times the key is incomplete or noisy, which would cause the hashing function to return a hash that would map to the wrong index
@FreshMedlar
@FreshMedlar 4 ай бұрын
Thanks for the incredible quality in your videos
@BigFatSandwitch
@BigFatSandwitch Ай бұрын
Nobel prize winning video
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
3 күн бұрын
This is the foundation model I was searching for to mimic cosmo-biology dynamics (energy-function astrology) thanks!
@Rayiquazi
@Rayiquazi 15 күн бұрын
I love this channel. It explains concepts well with great animations and puts it to practice through building it. Awesome work!
@minos99
@minos99 4 ай бұрын
This was one of the good oness. I really loved it and hope part 2 comes out sooner. Keep up the amazing production sir.
@josephlabs
@josephlabs 4 ай бұрын
I wanted to do research on something like this a year or two ago. This is amazing, I've got some work to do with this.
@raresmircea
@raresmircea 4 ай бұрын
Exceptional pedagogical skill! I’m not able to hold these types of explanations in my mind, so any attempt at following such a web of relations would quickly have me lost. But this is a masterclass in clear considerate communication 🙏
@Mede_N
@Mede_N 4 ай бұрын
Awesome video, like always. Just a small nitpick: your speaker audio jumps between the left and right audio channel, which is quite distracting - especially with headphones. You can easily solve this by setting the voice audio track to "mono" when editing the video. Cheers
@psuedonerd1236
@psuedonerd1236 4 ай бұрын
Respect for using Coldplay 🔥🔥🔥
@SteveRowe
@SteveRowe 4 ай бұрын
This was really clear, accurate, and easy to follow. 10/10, would watch again.
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@PriyeshPrateek
@PriyeshPrateek Ай бұрын
watching this video after the announcement of Physics Nobel 2024 :)
@F_Sacco
@F_Sacco 4 ай бұрын
Hopfield networks are amazing! They are studied in physics, biology, machine learning, mathematics and chemistry The rabbit hole goes extremely deep
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@mannyadisa
@mannyadisa 3 ай бұрын
This is a wildly fantastic video
@damienclarke2224
@damienclarke2224 27 күн бұрын
A great video, that you clearly put a lot of work into. Really well thought out and explained.
@zeb4827
@zeb4827 4 ай бұрын
very cool video, keen to see how the broader arguments progresses in this series
@Dawnarow
@Dawnarow 4 ай бұрын
Thank you. This is unbelievably simple and potentially more accurate than any other speculation. Next step: determining the shape of the proteins and categorizing them. The tools may not be there, yet... but a good hypothetical certain helps to reach certain conclusions.
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@spiralsun1
@spiralsun1 4 ай бұрын
One of the best most Clear videos I’ve ever seen EVER❤ 🙏🏻THANK YOU ❤😊
@didack1419
@didack1419 4 ай бұрын
I was thinking about your channel less than an hour ago.
@odmirmiro
@odmirmiro Ай бұрын
Дружище, связка отлично работает. Всем советую. Спасибо!
@porroapp
@porroapp 4 ай бұрын
12:21 Watching this to maximise my happiness. Max happiness Min unhappiness, this is the way. Thank you!
@shoaibanis6013
@shoaibanis6013 3 ай бұрын
one of the most underrated channels.
@shasun99
@shasun99 4 ай бұрын
Waiting for your video so long. Thank you so much
@翁祺-i7d
@翁祺-i7d 4 ай бұрын
Man, really thankful to your contents. I was facinated by your video about TEM, and started trying to fully understand that network(and memory in general) in my leisure time since about a year ago. I learned about latent variables, transformer architecture(fantastic videos by andrej karpathy), autoencoders, etc, but got stuck at (modern)hopfield nets, which I think is super important in the architecture of TEM. Very glad to see that you start to touch this field of Hopfield Nets, this is probably the best video about vanilla hns I've ever watched. Really looking forward to your video about Boltzman Machines and Modern Hopfield Nets, always appreciates your videos!
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@thwhat6567
@thwhat6567 4 ай бұрын
Your back!!! awesome vid as always.
@shahinchoudhury8256
@shahinchoudhury8256 Ай бұрын
i am here again after the Nobel . doing research in this domain for living but this video is always refreshing .
@Masz0211
@Masz0211 3 ай бұрын
Imagine your favorite song is viva la vida by Coldplay, and you DON’T want to kill yourself. Crazy, right?
@swamihuman9395
@swamihuman9395 4 ай бұрын
- Excellent! Thx. - Very well presented: clear/concise, yet fairly comprehensive - and w/ great visualizations. - Keep up the great content!...
@jverart2106
@jverart2106 4 ай бұрын
I was reading and watching videos about metacognition and bayesian probability and now you have thrown me into a new rabbit hole! 😅 Your videos are incredible and it's great to have a new one. Thank you!
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@danishawp32
@danishawp32 4 ай бұрын
Finally, you are comeback 🎉
@jamesphillips9403
@jamesphillips9403 4 ай бұрын
Holy cow, this makes a complex topic so intuitive.
@GeoffryGifari
@GeoffryGifari 4 ай бұрын
Isn't the 2nd law of thermodynamics more directly linked to entropy? Is there an analog for entropy in the associative memory network?
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@agurasmask2210
@agurasmask2210 4 ай бұрын
Much love bro incredible video ❤ thank you
@WillBeebe
@WillBeebe Ай бұрын
It sounds like a really useful way to reduce the problem space. Well done!!
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological. Problem, reaction, solution -- the Hegelian dialectic.
@arvindnanjundaswamy2442
@arvindnanjundaswamy2442 Ай бұрын
Beautifully explained. Thank you
@Raphael4722
@Raphael4722 4 ай бұрын
This is really cool! Thanks for your work Artem!
@antonionogueras6533
@antonionogueras6533 4 ай бұрын
So good. Thank you
@rohan.fernando
@rohan.fernando 4 ай бұрын
Really good that you’re covering these foundational concepts of NNs. Cross-associative NNs, auto-associative NNs, and unsupervised learning are big missing pieces in today’s NNs.
@ExistenceUniversity
@ExistenceUniversity 4 ай бұрын
This content is so high level, it's almost impossible to tell if it is true or not. Physically and philosophically, I have bought in, but my want of it to be true doesn't make it so. I cannot imagine this is wrong, but where does this come from? This stuff is just crazy and I don't know if it is crazy good or just crazy lol but I'm along for the ride
@zix2421
@zix2421 2 ай бұрын
That’s really interesting theme, as a programmer I’m gonna try to create it by myself)
@mattkafker8400
@mattkafker8400 Ай бұрын
High quality and useful, thank you.
@PastaEngineer
@PastaEngineer 4 ай бұрын
This is incredibly well put together.
@pushyamithra223
@pushyamithra223 4 ай бұрын
please try to make more videos, your content is extremely good
@PACOBRYAN-cj9gf
@PACOBRYAN-cj9gf Ай бұрын
great video , love the way of thinking thing through
@jeffevio
@jeffevio 4 ай бұрын
Another great video! I really liked your energy landscape and gradient descent animations especially.
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@marcoramonet1123
@marcoramonet1123 4 ай бұрын
This is one of the best channels
@viniciusscala7324
@viniciusscala7324 4 ай бұрын
Thank you for this video!
@mariorossi7930
@mariorossi7930 2 ай бұрын
Super intuitive! Very well done! I will wait for the video on Modern Hopfield Network :P
@peki_ooooooo
@peki_ooooooo Ай бұрын
wow, very insightful, very brilliant.
@laurentpayot3464
@laurentpayot3464 4 ай бұрын
Awesome. I just can’t wait for the next video!
@PieceOfSource
@PieceOfSource Ай бұрын
So, if a protein chain simply minimizes it's potential energy, then how is it possible to have different spatial configurations that actually define a protein's function? Addressing this somewhere around 8:30 may improve the flow of information a lot. Thanks for the really nice video.
@PieceOfSource
@PieceOfSource Ай бұрын
Basically, a few words on how do cells define a proper energy landscape that fits a particular task.
@deotimedev
@deotimedev 4 ай бұрын
Thank you so much for creating this video, genuinely one of the most educational I've ever come across. I've been trying to learn more about how brains work since that's always been something I've been very curious about literally since birth, and along with entropy being my favorite physics concept this video has just led to me googling and researching for the last 4 hours (its 3am lol) trying to find out more. Really impressed with how complicated, yet still high-quality and clear, some of the topics are in this is and I'm really looking forward to watching the rest of your videos to learn more on how all of this stuff works in such an intricate way
@ArtemKirsanov
@ArtemKirsanov 4 ай бұрын
Thank you!!
@joeybasile545
@joeybasile545 4 ай бұрын
Please keep going. Keep dedicating your time to your pursuit of wonder.
@Jaybearno
@Jaybearno 3 ай бұрын
This was really interesting to listen to, and your intro triggered an intuition I never thought of-- The "weights" in associative memory (as you describe as proteins folding to minimize potential energy), also have the design of reinforcing relative to *emotional stimuli*. This is an evolutionary adaptation and makes total sense-- we want to remember the things we care about or hurt us. What I didn't consider until this video is that this 'emotional weight' also behaves just like a database index, except it's bi-directional, and decaying! The surface similar to what you displayed, maybe like a paraboloid, where X is time, Y is memory complexity, and Z would describe the 'activation energy' requires to perform recall. I think it would be interesting to somehow visualize memories on this plane. I don't know if I'm rambling, but this video alone just formed so many connections between things I never thought of!
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@nothingtobelie
@nothingtobelie 3 ай бұрын
Very intelligent, as someone who finds this very relevant, the rgb lights add on for pico 2 looks a good way to visualize this a little affordably. I am going to read on the 2016 paper. Geoffrey Hinton is amazing to hear beforehand. Thank you for creating this
@GeoffryGifari
@GeoffryGifari 4 ай бұрын
The protein example got me thinking. Is there only one unique folded configuration of the lowest energy? Can there be multiple stable comfiguration anyway, and transitions between them?
@u2b83
@u2b83 4 ай бұрын
4:00 LOL "The ball doesn't search through all possible trajectories to select the optimal parabolic one." The visualization of the "trajectory space" is even funnier ;) I suspect there's different encodings for proteins with identical function, but which are more robust wrt folding consistently.
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@Velereonics
@Velereonics 3 ай бұрын
I cant recall lyrics at all. But I recall the music itself very clearly, and in the right octave/key, as well as the period of time after which I first heard the song and had an autistic meltdown, listening to it around 5000 times over the course of a few weeks.
@machi4744
@machi4744 3 ай бұрын
youre the best for making this i love you man
@Ann-x1n
@Ann-x1n 4 ай бұрын
Thanks for such a this amazing content
@Alexander_Sannikov
@Alexander_Sannikov 3 ай бұрын
i want to program this immediately, this is a great sign.
@Harsooo
@Harsooo 4 ай бұрын
Кайф слушать и офигевать) Greetings from Austria, keep doing what you're doing!
@tornyu
@tornyu 4 ай бұрын
I love that you made everything dark mode. (Noticed when I saw the Wikipedia logo)
@Tangi_ENT
@Tangi_ENT 3 ай бұрын
I love being here and asking “huh ?” every two minutes. Stay blessed bro. Love these videos (even though I don’t understand anything I feel like I’m learning a lot)
@13lacle
@13lacle 4 ай бұрын
Great video as always. For 22:50, has anyone tried stacking layers of Hopfield networks yet as a work around? Basically each layer acts in it's own feature level space and resolves for that level's most likely feature, then passes it up to the next higher order Hopfield feature space to be resolved there. It seems like this would allow you to store exponentially more overall patterns has they get resolved separately to avoid the overly busy end energy landscape. Also interestingly you can see how it would carve out the energy landscape from just the raw inputs with this. You have the Hopfield network constantly comparing itself to the some abstraction of the source input layer, meaning the more times a pattern seen the stronger it gets in the Hopfield network. Also for faster convergence, it is likely the greater the xi and hi difference the faster xi updates.
@1495978707
@1495978707 3 ай бұрын
3:45 Well, that's really all paradoxes are. The reason people typically consider them to be impossobilities is because they're stuck in the mindset of believing what they first learn, rather than automatically considering that their perspective may be wrong or incomplete.
@mahmoudhamdy4252
@mahmoudhamdy4252 3 ай бұрын
Thank you very informative❤❤
@felipemldias
@felipemldias 4 ай бұрын
Man, I just love your videos
@alexpetrov8871
@alexpetrov8871 2 ай бұрын
It always amazed me that sometimes I can recognize melodies which I heard last time like 30 years ago. Same with videogame. Never in last 35 years I played any Atari videogames and the moment I see them on youtube I remember sounds and pictures.
@max-ys1ei
@max-ys1ei 4 ай бұрын
Fabulous, bravo
@GeminiI-yn4xb
@GeminiI-yn4xb 4 ай бұрын
Hello. It's been long since you last uploaded the last video. I hope you are well. Best videos, bro. Keep them coming 🎉
@BinghaoWang-k5b
@BinghaoWang-k5b Ай бұрын
nice video! thank you for your work
@nothinginteresting1662
@nothinginteresting1662 3 ай бұрын
For every memory, there is a cue associated. This cue is formed when the memory is created. It will only be created if it is worthwhile to the brain. Cues are usually emotional. Something emotional is easily remembered. Because that emotional experience is important to the brain. Now when you come across any information, the brain doesn't have to search the whole memory. It merely needs to find the cue. That cue will help you remember. If you are familiar with programming, the cue acts as a pointer to the memory. Any information that you come across that includes the cue will cause the brain to recall the memory associated with that cue.
@asdf56790
@asdf56790 4 ай бұрын
As always, outstanding video!
@therainman7777
@therainman7777 3 ай бұрын
Not to be pedantic, but systems’ tendency to minimize their potential energy is not directly related to the 2nd law of thermodynamics. The 2nd law states that closed systems increase in entropy over time; it does not deal with energy values directly.
@hyperduality2838
@hyperduality2838 Ай бұрын
Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@ibrahimal-nuaimi1005
@ibrahimal-nuaimi1005 3 ай бұрын
I'm subbing this dude is amazing
@kellymoses8566
@kellymoses8566 4 ай бұрын
One reason I like using Neo4J is that graph networks seem like the work a bit like human memory with links between things making finding related items fast.
@edsonjr6972
@edsonjr6972 4 ай бұрын
My God, your videos are amazing
@yaswanthk251
@yaswanthk251 3 ай бұрын
Need networking protocol to explain pls
@TaniaHeller
@TaniaHeller 2 ай бұрын
Hi great video! Does someone know if a network like that would work based on qubit-like 'neurons' ? Would the connection with the weights lead to quantum decoherence? Would the storage capacity be greater because of the superposition of states?
@hyperduality2838
@hyperduality2838 Ай бұрын
On is dual to off -- qubits. The word superposition actually means duality:- Alive is dual to not alive or Schrodinger's cat. Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@vinniepeterss
@vinniepeterss 4 ай бұрын
great video as always
@studywithmaike
@studywithmaike 4 ай бұрын
The outro music 🙏🏻🙏🏻🙏🏻
@谭文龙-d1l
@谭文龙-d1l 4 ай бұрын
Can wait to see this video!!!!!
@GeoffryGifari
@GeoffryGifari 4 ай бұрын
That excitatory and inhibitory connections remind me of statistical correlation function
@hyperduality2838
@hyperduality2838 Ай бұрын
Excitatory is dual to inhibitory. Association is dual to disassociation. Cause is dual to effect -- correlation. "Always two there are" -- Yoda.
@SilentderLaute
@SilentderLaute 4 ай бұрын
Another awesoem Video :)
@Mohammad-nv1wv
@Mohammad-nv1wv 3 ай бұрын
KZbin channel out there ❤
@disgruntledwookie369
@disgruntledwookie369 4 ай бұрын
Ironically, within the framework of quantum mechanics, one could actually say that the ball *does* "search" every possible path in order to find the "correct" one. It simply performs the "search" in parallel, not sequentially. And it's less of a search and more of an average of all paths. The principle of stationary action is the driving principle behind Newtonian dynamics and itself follows directly from the interference between many "virtual" trajectories, it turns out that the paths which are close to the "true path" (the classical path) have very little variance in their action, which rough speaking means that they end with nearly identical phase shifts (e^iHt/h, Ht ~ action, h = Planck constant) and can interfere constructively, whereas paths which are far from the "true path" have wildly varying actions, even if two paths are similar to each other. So they pick up big phase shifts and end up interfering destructively, leaving only the contributions from the paths "close to" the classically observed path. As far as I know this is the only way to derive the principle of stationary action, and the same basic idea is essential to finding transition probability amplitudes in QFT. It really does seem like the universe simultaneously tries all conceivable paths, superimposed together.
@asdf56790
@asdf56790 4 ай бұрын
One could also say this for optics with Fermat's principle or classical mechanics with Hamilton's principle. Even though variational formulations are mathematically beautiful, I'd be cautious to assume that "reality works this way" i.e. "searches through all paths". They are one equivalent description of many (even though it is remarkable that they pop up basically everywhere).
@disgruntledwookie369
@disgruntledwookie369 4 ай бұрын
@@asdf56790 I agree with your caution. I'm just increasingly convinced that theory and experiment are pointing this way and the onl obstacle is our flawed intuition and prejudice. We want there to be only a single, consistent reality. But this forces us into some intense mental and mathematical gymnastics to make the equations of QM fit observations. If you take the equations at face value then you have no trouble, you just have to contend with the idea that reality is not a single line of well defined events, but multiple histories occurring simultaneously and generally able to interfere with each other. An electron passing through a Stern-Gerlach device would then actually travel both paths, in "separate worlds" but these paths can still interfere and superimpose so long as you don't take any steps to determine which path was taken. Like if you redirect the paths to converge into a single path and put the whole thing in a box so you can only see the output, you cannot determine which path was taken and you can show experimentally that the output electron superposition of spin states is preserved. But the universe doesn't know ahead of time (superdeterminism notwithstanding) whether you will take a peek in the box and catch the electron with its pants down. In my view, the explanation requiring the fewest assumptions is that all paths really are taken, but with the assumptions that 1. When we observe a property we can only observe definite values, not superpositions, and 2. paths can interfere (unless decoherence has occurred). A poor and rushed explanation but this is kind of my thought process. As you say, there are many alternative interpretations. It's pretty much philosophy at this point. 😅
@raresmircea
@raresmircea 4 ай бұрын
What’s the status of all those parallel paths? You’ve used the term "virtual" so you seem to view them as part of some kind of potentiality, not getting actualized in the observer measured reality (I’m using these terms very loosely, I don’t know exactly what they mean). If I’ve understood right, in the MWI there’s no actual convergence on a path, each of the possible parallel paths are actualized paths that get to be part of reality.
@mastershooter64
@mastershooter64 4 ай бұрын
@@asdf56790 This is true, all subsequent physical theories are simply better and better approximations of reality, we shouldn't assume reality works that way without more experiemental and theoretical verification.
@hyperduality2838
@hyperduality2838 Ай бұрын
Holomorphic functions are independent of path (angle) -- complex differentiable. Potential energy is dual to kinetic energy -- energy is dual. If energy is being conserved then duality is being conserved -- the 5th law of thermodynamics! Integrating information is a syntropic process -- teleological (Sheaf co-homology). Homology is dual to co-homology synthesizes sheaf co-homology. Action is dual to reaction -- forces are dual. "Always two there are" -- Yoda. Convergence (syntropy) is dual to divergence (entropy) -- the 4th law of thermodynamics! Energy minimization is a syntropic process -- teleological.
@GeoffryGifari
@GeoffryGifari 4 ай бұрын
Reminds me of gradient descent
@РоманИгнатьев-ц7ж
@РоманИгнатьев-ц7ж 4 ай бұрын
That's because this is it.
@kapilpokhrel3841
@kapilpokhrel3841 Ай бұрын
19:20 Can anyone tell me how can we get the state of all the neural (ξ) for the pattern we want to store? Suppose, I have a network of 500 neurons and I would like to store two 10x10 images. How do we get the states of neuron for these patterns and how is it ensured that those two patterns are located far apart?
@is44ct37
@is44ct37 4 ай бұрын
Great video
@thisismambonumber5
@thisismambonumber5 3 ай бұрын
your intro is beautiful btw
@Xylos144
@Xylos144 4 ай бұрын
Great video. Little sad to see that anti-training wasn't mentioned. It doesn't really solve the problem with training two sequences that are 'close' together, so that's fair. But it does help, and has an interesting analogy with physiology. Essentially, if you try to train two sequences that are too close to each other, their valleys will overlap, which means you might try to aim for one specific sequence and end up falling into the other. And if they're really close, you'll actually create a new local minimum that sits between the two. In those cases, what you can do is identify all your local minima and then run the algorithm backwards, training hills on top of all your local minima. For stand-alone minima, this doesn't matter because they're still local minima. But if a minima is a false sequence that sits between two or more neighboring targets, this builds a hill in between those two neighboring valleys, helping to make those nearby sequences more distinct. As Geoffy Hinton has pointed out, this has an interesting conceptual analog to dreaming, where we seem to replay experiences and concepts from our day (to a vague extent) and sleeping/dreaming also seems to help with learning and memory. Similarly by making the Hopfield focus on its memoreis while playing them backwards, so to speak, helps to solidify its own memory. It may be little more than a metaphorical analog, but I think its still quite interesting.
@ArtemKirsanov
@ArtemKirsanov 4 ай бұрын
That’s exactly right! Bolzmann machines, which are an improved version of Hopfield nets in fact do just that, with contrastive hebbian learning, by increasing the energy of “fake” memories. Hopfield networks, being the first model, don’t have that property in the conventional form though. So we will talk about this in the Bolzmann machines video. Good catch!
@Xylos144
@Xylos144 4 ай бұрын
@@ArtemKirsanov Ah, gotcha I didn't realize the idea of 'anti-learning' applied to boltzman machines. I've only messed with restricted boltzmann machines and I always thought of them as stacked reversible auto-encoders. Never though that the updating method may be replicating the same 'anti-learning' process - though it does make sense since autoencoders are trying to make a bunch of weird, distinct hyper-dimensional valleys. Maybe it's more apparent with the more general Boltzmann machine. Looking forward to that video!
@strangelaw6384
@strangelaw6384 3 ай бұрын
doesn't a principal component analysis solve this problem?
@carlosgruss7289
@carlosgruss7289 17 күн бұрын
What a beautiful video
@mjc7190
@mjc7190 Ай бұрын
17:43 "It turns out that there is a mathematical proof that..." does anybody know that what are references for 'local update rules leads to global energy descend'?
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