Philosophers From Germany

"I have a lot of good things to say about Joscha Bach. He has a deep conceptual understanding of AGI and its grounding in cognitive science, philosophy of mind and neuroscience; a software system embodying a subset of his ideas and doing interesting and useful things; and a concrete plan for what needs to be learned to expand his system and his associated theory gradually toward human-level intelligence. What's more... his approach might work, if extended and grown intelligently from its current state. There aren’t many AGI researchers I can say all that about."

"Joscha Bach has written a blog post criticizing my suggestion that the universe as a whole is, in a sense, akin to a cosmic nervous system. ...Bach and I have engaged... in an extensive email exchange discussing precisely the points he brought up in his blog post. ...[H]e chose to make his criticisms public now, whilst ignoring the many clarifications I sent him by email back then. ...Bach's criticisms are straw-men; every single one of them."

"[T]he types of models that we form right now are not sparse enough... which means that, ideally, every potential model state should correspond to a potential world state. So... if you vary states in your model, you always end up with valid world states. ...[O]ur mind is not quite there... an indication is especially what we see in dreams. The older we get, the more boring our dreams become, because we incorporate more and more constraints that we learned about how the world works. So many of the things that we imagine to be possible as children turn out to be constrained by physical and social dynamics, and as a result fewer and fewer things remain possible. It's not because our imagination scales back, but the constraints under which it operates become tighter and tighter. ...So the constraints under which our neural networks operate are almost limitless, which means it's very difficult to get a neural network to imagine things that look real."

"Normally we only get attention in the parts of our mind that create heat, where you have a mismatch between [the] model and the results that are happening. So most people are not self-aware, because their control is too good. If everything works out roughly the way you want, and the only things that don't work out are whether your football team wins, then you will mostly have models about these domains. ...It's only when... your fundamental relationships through the world don't work [that, attention or self-awareness arises]."

"We probably need to build dreaming systems... [P]art of the purpose of dreams is... similar to a... generative adversarial network. We learn certain constraints, and then it produces alternative perspectives on the same set of constraints, so you can recognize it under different circumstances. Maybe we have flying dreams as children because we recreate the objects that we know, the maps that we know, from different perspectives, which also means from the bird's-eye perspective."

"[Y]ou don't know this state in which you don't have a self. You can turn off yourself... You can... meditate yourself [into] a state where you are still conscious, where still things are happening, where you know everything that you knew before, but you're no longer identified with changing anything. ...[T]his means that your self ...dissolves. There is no longer this person... you know that this person construct exists in other states and it runs on this brain... but it's not a real thing. It's a construct. It's an idea... and you can change that idea, and if you let go of this idea... If you don't think you are special, you realize it's just one of many people, and it's not your favorite person even... It's just one of many, and it's the one that you are doomed to control... and that is... informing the actions of this organism as a control model. This is all there is, and you are somehow afraid that this control model gets interrupted, or loses the identity of continuity."

"The fuzzy idea is the one of continuous existence. We don't have continuous existence... because it's not computable. There is no continuous process. The only thing that binds you together with the last week and from yesterday is the illusion that you have memories about them. So if you want to upload, it is very easy. You make a machine that thinks it's you. ...It's the same thing that you are. You are a machine that thinks it's you."

"[M]editation is... just a bunch of techniques that let you control attention. ...[W]hen you can control attention you can get access to your own source code, hopefully not before you understand what you are doing, and then you can change the way it works, temporarily or permanently. ...Everything else is downstream from controlling attention."

"It's relatively easy to build a neural network that... learns the dynamics. The fact that we haven't done it right so far doesn't mean it's hard... [A] biological organism does it with relatively few neurons. ...[Y]ou build a bunch of neural oscillators that entrain themselves with the dynamics of your body is such a way that the regulator becomes isomorphic and it's modeled with the dynamics that it regulates, and then it's automatic. ...[I]t's only interesting in the sense that it captures attention when the system is off [kelter]."

"... Facebook... Twitter... are companies that... own a protocol... imposed on a community and... [and have] different components for monetization... user management... user display... rating... anonymity... for import of other content... Imagine that you take these components of the protocol apart and... communities are allowed to mix and match their protocols, and design new ones... [e.g.,] the UI and the UX can be defined by the community, the rules for sharing content across communities can be defined, the monetization... the way you reward individual users... the way users represent themselves... can become part of the protocol... [I]n some communities it will be a single person that comes up with these things; in others it's a group of friends. Some might implement a voting scheme... Who knows what might be the best self-organizing principle for this. ...It can be automated so people can write software for this. ...Let's not make an assumption about this thing if you don't know the right solution... In most areas there is no idea whether it will be people designing this ad-hoc, or machines doing this. Whether you want to enforce compliance by social norms, like , or with software solutions, or with AI that goes through the post-op people, or with a legal principle... If you let the communities evolve, and you just control it in such a way that you are incentivizing the most sentient communities. The ones that produce the most interesting behaviors, that allow you to interact in the most helpful ways to the individuals. ...So that you have a network that gives... information that is relevant to you. It helps you to maintain relationships to others in healthy ways. It allows you to build teams... to... bring the best of you into this thing and goes into the coupling, into a relationship with others in which you produce things that you would be unable to produce alone."

"What Gödel could show is using classical mathematical semantics you run into contradictions, and because Gödel strongly believed in these semantics... he was shocked. It... shook his world to the core, because in some sense he felt that the world has to be implemented in classical mathematics."

"How much common sense knowledge do we actually have. Imagine that you are a really hard working all your life and you form two new concepts every half-hour... You end up with... a million concepts, because you don't get that old. ...That's not a lot. ...[H]ow many cycles do your neurons have in your life, it's quite limited."

"For Turing it wasn't quite so bad. ...[T]uring could see that the solution is to understand that mathematics was computational all along. ...For instance pi in classical mathematics is a value. It's also a function, but it's the same thing. In computation, a function is only a value when you can compute it, and if you cannot compute the last digit of pi, you only have a function. You can plug this function into your local sun, let it run until the sun burns out... This is it. This is the last digit of pi you will know. But it also means that there can be no process in the physical universe, or in any physically realized computer that depends on having known the last digit of pi. ...Which means that there are parts of physics that are defined in such a way that cannot strictly be true, because, assuming that this could be true leads into contradictions."

"I don't actually have an identity beyond the identity that I construct. ...[T]he Dalai Lama... identifies as a form of government. [He] gets reborn, not because he is confused, but because he is not identifying as a human being. He runs on a human being. He's... a governmental software that is instantiated in every new generation anew. So his advisors will pick someone who does this in the next generation. So if you identify with this, you are no longer human and you don't die in this sense... only the body that you run on. To kill the Dalai Lama you'd have to kill his tradition."

"Minds are software states... Software doesn't have identity. Software in some sense is a physical law. ...The maintenance of the identity is not terminal. It's instrumental to something else. You maintain your identity so you can serve your meaning. So you can do the things that you are supposed to do before you die. ...For most people the fear of death is the fear of dying before they are done with the things that they feel they have to do even though they cannot quite put their finger on... what that is."

"Mathematics is the domain of all formal languages, and allows the expression of arbitrary statements (most of which are uncomputable). Computation may be understood in terms of computational systems, for instance via defining states (which are sets of discernible differences, i.e. bits), and transition functions that let us derive new states."

"Whereas mathematics is the realm of specification, computation is the realm of implementation; it captures all those systems that can actually be realized."

"The easiest answer is existence is the default. ...So this is the lowest number of bits that you need to encode this. ...Nonexistence might not be a meaningful notion. ...If everything that can exist, exists... it probably needs to be implementable. The only thing that can be implemented is finite automata so maybe the whole of existence is... a superposition of all finite automata, and we are in some region of the fractal that has the properties that it can contain us. ...Imagine that every automaton is... an operator that acts on some substrate [something that can store information], and as a result you get emergent patterns."

"[T]o encode a brain genetically, based on the hardware that we are using, we need something like at least 500 kilobytes of code... actually... it's going to be a little more, I guess. It sounds like surprisingly little... but in terms of scientific theories this is a lot. ...The universe, according to the core theory of quantum mechanics... it's like half a page of code... to generate the universe. ...[I]f you want to understand evolution, it's like a paragraph... a couple lines, really, to understand an evolutionary process. ...[T]here's lots ...of details that you get afterwards, because this process itself doesn't define what all the animals are going to look like. In a similar way, the code of the universe doesn't tell you what this planet is going to look like and you... are going to look like. It's just defining the rule book."

"It may not have a why. This might be the wrong direction to ask... [T]here could be no relation in the "why" direction... It doesn't mean that everything has to have a purpose or a cause..."

"The last big things that we discovered was the constructivist turn in mathematics... to understand that the parts of mathematics that work are computation. That was a very significant discovery in the first half of the 20th century. ...[I]t hasn't fully permeated philosophy and even physics yet. Physicists checked out the code libraries for mathematics before constructivism became universal. ...Gödel himself ...didn't get it yet. Hilbert could get it. Hilbert saw that [e.g.,] Cantor's set theoretic experiments in mathematics led him to contradictions, and he noticed that with the current semantics we cannot build a computer in mathematics that runs mathematics without crashing, and Gödel... could prove this."

"[I]f you look at the progression of AI models, it... went the opposite direction. ...AI started with linguistic protocols, which were expressed in formal grammars, and then it got to concept spaces, and now it's about to address percepts. ...At some point in the near future it's going to get better at mental simulations and at some point after that we'll get to attention directed and motivationally connected systems that make sense of the world, that are in some sense able to address meaning. This is the hardware that we have..."

"[T]he genome defines the rule book by which our brain is built. The brain boots itself, in a development process, and this booting takes some time... formation learning in which some connections are formed, basic models are built of the world so we can operate in it. How long does this booting take... about 80 megaseconds. That's the time a child is awake until it's 3 1/2 years old. By this age you understand Star Wars, and I think everything after Star Wars is cosmetics."

"If we want to understand music we have to go beyond understanding sound. We have to understand the transformations that sound can have if you play a different pitch. We have to arrange the sound in a sequencer that gives you rhythms, and so on, and then we want to identify some kind of musical grammar that we can use to... control the sequencer. So we have stacked structures that simulate the world. ...If you want to model a world of music you need to have the lowest level of the precepts, then the higher levels of mental simulations, which give the sequences... and the grammars of music... [B]eyond this you have the conceptual landscape that you can use to describe the different styles of music. ...[I]f you go up in the hierarchy, you get to more and more abstract models, more and more conceptual models, and more and more analytic models. ...[T]hese are causal models..."

"How difficult is it to define a brain? We know that the brain must be somewhere hidden in the genome [which] fits in a CD-ROM. It's not that complicated. It's easier than Microsoft Windows. ...[A]bout 2% of the genome is coding for proteins, and maybe about 10%... tells you when to express which protein, and the remainder is mostly garbage. It's old viruses that are left over and it's never been properly deleted [etc.] because there are no real code revisions in the genome. ...How much of this 10%, [i.e.,] about 75 megabytes code for the brain, we don't really know. What we do know is that we share almost all of this with mice. Genetically speaking, a human is a pretty big mouse, with a few bits changed to fix some of the genetic expressions. ...Most of the stuff there is going to code for cells and metabolism and what your body looks like, [etc.]..."

"[C]ausal models can be weakly deterministic, basically associative models, which tell you if this state [S1] happens, it is quite probable that this one [S2] comes afterwards. Or you can get to a strongly determined model... one which tells you, if you are in this state [S1], and this condition [c1] is met, you're going to go exactly in this state [S2]. If this state is not met, or a different condition [c2] is met, you go into this state [S3]. And this is what we call an algorithm. Now you're in the domain of computation."

"What's the best algorithm that you should be using to fix your world model? ...This question ...has been answered for the first time by in the 1960s. He discovered an algorithm that you can apply when you've discovered that you're a robot and all you've got is data. What is the world like? ...[H]is algorithm is... a combination of Bayesian Reasoning, Induction and Occam's Razor. ...[W]e can mathematically prove that we cannot do better than Solomonoff Induction. Unfortunately, Solomonoff Induction is not quite computable."

"Just as the extensive theoretical bodies of physics, chemistry, [etc.]... unified theories of cognition are not isolated statements discarded when... predictions [are] refuted. Rather they are paradigms... that direct a research program..."

"[E]verything that we're going to do is some approximation of Solomonoff Induction. ...[O]ur concepts cannot really refer to facts in the world out there. We do not get the truth by referring to stuff out there in the world. We get meaning by suitably encoding the patterns in our systemic interface."

"The goal of building cognitive architectures is to achieve an understanding of mental processes by constructing testable information processing models."

"According to [the hypothesis]... an implemented ', has the necessary and sufficient means for general intelligent action. ...[A]ny system that exhibits general intelligence will ...be a physical symbol system. ...[A]ny physical symbol system of sufficient size can be organized further to exhibit general intelligence.""

"Functionalist psychology is... compatible with... scientific positivism, because it makes emperically falsifiable predictions... The... model is capable of producing [or predicting] specific behavior [and] [t]he model is the sparsest, simplest one..."

"AI has recently made huge progress in encoding data at perceptual interfaces. is about using a stacked hierarchy of feature detectors. ...[W]e use pattern detectors and we build them into networks that are arranged in hundreds of layers and then we adjust the links between these layers, usually using some kind of . ...[Y]ou can use this to classify [e.g.,] images and parts of speech. ...[W]e get to features that are more and more complex. They start with these very... simple patterns, and then get more and more complex until we get to object categories. ...[N]ow the systems are able, in image recognition tasks, to approach performance that's very similar to human performance. ...[I]t seems to be somewhat similar to what the brain seems to be doing in visual processing."

"[T]he notions we process... are systematically structured information, making up a dynamic system. The description of such... is the domain of cybernetics or systems science... constructive methods that allow the representation of functionality."

"The radical idea of treating individuals in a society as cells and the society itself as a well-Organized organism is fascism, or course. Probably the most efficient and rationally stringent way of governance, if someone could pull it off in a sustainable way… I rather like the treatment Fascism gets in the Amazon Series ‘The Man in the High Castle’, which explores what would have happened if the Germans and Japanese had won the war: A society that tries to function as a brutal and ruthlessly efficient machine, eliminating all social and evolutionary slack. It is very dark, but not a flat caricature of pointless evil for its own sake."

"To understand... mind, we have to ask how a system capable of constructing has to be built..."

"You cannot learn what does not attract your attention. Women tend to find abstract systems, conflicts and mechanisms intrinsically boring."

"too many people, so many mass executions of the elderly and infirm make sense… if the brain discards unused neurons, why shold socieity [sic] keep their equivalent"

"What the universe makes visible... to any observer... is... functionality."

"[A] functionalist model of cognitive processes might be implemented as a computer program (computationalism)... hand in hand with... Artificial Intelligence."

"If you take the activation at different levels of these networks and you... enhance this activation a little... you get stuff that looks very psychadelic, which might be similar to what happens if you put certain illegal substances into people and enhance the activity on certain layers of their visual processing."

"I looked up the statistics, black kids in the US have slower cognitive development"

"Everything we know about ourselves is... ordering... over features available at the interface; we know of mental phenomena only insofar as they are patterns or constructed over patterns."

"Attempts in psychology at overarching theories of the mind have been all but shattered by the influence of behaviorism, and where cognitive psychology has sprung up in its tracks, it rarely acknowledges that there is something as "intelligence per se", as opposed to the individual performance of a group of subjects in an isolated set of experiments."

"[O]ur best bet is not just to have a single classification with filtering. ...[I]nstead... take the low level of input and get a whole universe of features that is interrelated. ...[W]e have different levels of determinations. At the lowest level we have percepts. At a slightly higher level we have simulations, and on an even higher level we have a concept landscape."

"How does... representation by simulation work? ...If you are a brain and you want to understand sound, you have to model it. ...Neurons do not want to do 20 Khz. That's way too fast for them. They like something like 20 Hz. So... you need to make a [which] measures the amount of energy at different frequencies. ...This ...in our ears ...transforms energy of sound at different frequency intervals into energy measurements... This is something that the brain can model. ...[A] neurosimulator tries to recreate these patterns. If it can predict the next input from the cochlea, then it understands the sound."

"For a long time people have thought that the universe is written in mathematics... In fact nothing is mathematical. Mathematics is just the domain of formal languages. It doesn't exist. Mathematics starts with a void. Just throw in a few axioms and if those are nice axioms, then you get infinite complexity. Most of it is not computable. In mathematics you can express arbitrary statements, because it's all about formal languages. Many of these statements will not make sense. Many of these statements will make sense in some way, but you cannot test whether they make sense because they're not computable."

"When the Artificial Intelligence (AI) movement set off fifty years ago, it bristled with ideas and optimism, which have arguably both waned since. The field has regressed into a multitude of relatively well insulated domains like logics, neural learning, case based reasoning, artificial life, robotics, agent technologies, semantic web... each with their own goals and methodologies. The decline of the idea of studying intelligence per se, as opposed to designing systems that perform tasks that would require some measure of intelligence in humans, has progressed to such a degree that we must now rename the original AI idea into Artificial General Intelligence."

"Artificial Intelligence was the attempt of thinkers like Marvin Minsky, John McCarthy and others to treat the mind as a computational system, and thereby open its study to experimental exploration by building computational machines that would attempt to replicate the functionality of minds."

"[T]here is another type of mental representation that is linguistic protocols, which is... a form of grammar and a vocabulary. ...[W]e need these ...protocols to transfer mental representations between people ...by scannning our ...representations, disassembling them ...and ...we use a discrete set of symbols to get this to somebody else... [who] trains an assembler that reverses this process and builds something that is... similar to what we intended to convey."