interstice

There are lots of things that an ideal utility maximizer would do via means-end reasoning, that humans and animals do instead because[...]

Right. What you said in your comment seems pretty general -- any thoughts on what in particular leads to Approval Reward being a good thing for the brain to optimize? Spitballing, maybe it's because human life is a long iterated game so reputation ends up being the dominant factor in most situations and this might not be easily learned by a behaviorist reward function?

Replying to6 reasons why “alignment-is-hard” discourse seems alien to human intuitions, and vice-versa

interstice2mo

6 reasons why “alignment-is-hard” discourse seems alien to human intuitions, and vice-versa

What's your take on why Approval Reward was selected for in the first place VS sociopathy?

I find myself wondering if non-behavioral reward functions are more powerful in general than behavioral ones due to less tendency towards wireheading, etc.(consider the laziness & impulsivity of sociopaths) Especially ones such as Approval Reward which can be "customized" depending on the details of the environment and what sort of agent it would be most useful to become.

Replying toDecision theory does not imply that we get to have nice things

interstice3y

Decision theory does not imply that we get to have nice things

There aren’t enough simulators above us that care enough about us-in-particular to pay in paperclips. There are so many things to care about! Why us, rather than giant gold obelisks?

What about neighboring Everett branches where humanity succeeds at alignment? If you think alignment isn't completely impossible, it seems such branches should have at least roughly comparable weight to branches where we fail, so trade could be possible.

Replying to“Pivotal Act” Intentions: Negative Consequences and Fallacious Arguments

interstice4y

“Pivotal Act” Intentions: Negative Consequences and Fallacious Arguments

Yeah. I think this sort of thing is why Eliezer thinks we're doomed

Hmm, interesting...but wasn't he more optimistic a few years ago, when his plan was still "pull off a pivotal act with a limited AI"? I thought the thing that made him update towards doom was the apparent difficulty of safely making even a limited AI, plus shorter timelines.

other gestured-example I've heard is "upload aligned people who think hard for 1000 subjective years and hopefully figure something out."

Ah, that actually seems like it might work. I guess the problem is that an AI that can competently do neuroscience well enough to do this would have to be pretty general. Maybe a more realistic plan along the same lines might be to try using ML to replicate the functional activity of various parts of the human brain and create 'pseudo-uploads'. Or just try to create an AI with similar architecture and roughly-similar reward function to us, hoping that human values are more generic than they might appear.

Replying to“Pivotal Act” Intentions: Negative Consequences and Fallacious Arguments

interstice4y

“Pivotal Act” Intentions: Negative Consequences and Fallacious Arguments

Oh, melting the GPUs would not actually be a pivotal act

Well yeah, that's my point. It seems to me that any pivotal act worthy of the name would essentially require the AI team to become an AGI-powered world government, which seems pretty darn difficult to pull off safely. The superpowered-AI-propaganda plan falls under this category. The long-lasting nanomachines idea is cute, but I bet people would just figure out ways to evade the nanomachines' definition of 'GPU'.

Note that these aren't intended to be very good/realistic suggestions, they're just meant to point to different dimensions of the possibility space

Fair enough...but if the pivotal act plan is workable, there should be some member of... (read more)

Replying to“Pivotal Act” Intentions: Negative Consequences and Fallacious Arguments

interstice4y

“Pivotal Act” Intentions: Negative Consequences and Fallacious Arguments

it's much more likely that someone could actually perform a unilateral pivotal act; it is a far easier problem, even after accounting for the problems the OP mentions in Part 1.

What I've never understood about the pivotal act plan is exactly what the successful AGI team is supposed to do after melting the GPUs or whatever. Every government on Earth will now consider them their enemy; they will immediately be destroyed unless they can defend themselves militarily, then countries will simply rebuild the GPU factories and continue on as before(except now in a more combative, disrupted, AI-race-encouraging geopolitical situation). So any pivotal act seems to require, at a minimum, an AI capable... (read more)

Replying toThe Codex Skeptic FAQ

interstice4y

The Codex Skeptic FAQ

Regarding your first point, I think when people say that language models "don't bring us closer to full code automation" they mean there's no way of improving/upgrading language models such that they implement full code automation. I think it would be better to argue against that claim directly instead of bringing up language model's productivity-boosting effects. There are many things that could potentially boost programmers' productivity -- better nootropics, say -- but it seems overly broad to say that they all "bring us closer to full code automation", even if it might be causally true that they reduce the time to automation in expectation.

Replying toParsing Chris Mingard on Neural Networks

interstice5y

Parsing Chris Mingard on Neural Networks

For reasons elaborated upon in this post and its comments, I'm kinda skeptical of these results. Basically the claims made are

(A) That the parameter->function map is "biased towards simple functions". It's important to distinguish simple --> large volume and large volume --> simple. Simple --> large volume is the property that Solomonoff induction has and what makes it universal, but large volume-->simple is what is proven in these papers(plus some empirical evidence of unclear import)

(B) SGD being equivalent to random selection. The evidence is empirical performance of Gaussian processes being similar to neural nets on simple tasks. But this may break down on more difficult problems(link is about the NTK, not GP, but they tend to perform similarly, indeed NTK usually performs better than GP)

Overall I think it's likely we'll need to actually analyze SGD in a non-kernel limit to get a satisfactory understanding of "what's really going on" with neural nets.

Replying toNTK/GP Models of Neural Nets Can't Learn Features

interstice5y*

NTK/GP Models of Neural Nets Can't Learn Features

There's an important distinction^[1] to be made between these two claims:

A) Every function with large volume in parameter-space is simple

B) Every simple function has a large volume in parameter space

For a method of inference to qualify as a 'simplicity prior', you want both claims to hold. This is what lets us derive bounds like 'Solomonoff induction matches the performance of any computable predictor', since all of the simple, computable predictors have relatively large volume in the Solomonoff measure, so they'll be picked out after boundedly many mistakes. In particular, you want there to be an implication like, if a function has complexity $C$ , it will have parameter-volume at least $exp (- β C)$ .

Now, the Mingard... (read more)

Replying toNTK/GP Models of Neural Nets Can't Learn Features

interstice5y*

NTK/GP Models of Neural Nets Can't Learn Features

Hmm, so regarding the linear combinations, it's true that there are some linear combinations that will change by $Θ (1)$ in the large-width limit -- just use the vector of partial derivatives of the output at some particular input, this sum will change by the amount that the output function moves during the regression. Indeed, I suspect(but don't have a proof) that these particular combinations will span the space of linear combinations that change non-trivially during training. I would dispute "we expect most linear combinations to change" though -- the CLT argument implies that we should expect almost all combinations to not appreciably change. Not sure what effect this would have on the... (read 526 more words →)

NTK/GP Models of Neural Nets Can't Learn Features

interstice

Since people are talking about the NTK/GP hypothesis of neural nets again, I thought it might be worth bringing up some recent research in the area that casts doubt on their explanatory power. The upshot is: NTK/GP models of neural networks can't learn features. By 'feature learning' I mean the process where intermediate neurons come to represent task-relevant features such as curves, elements of grammar, or cats. Closely related to feature learning is transfer learning, the typical practice whereby a neural net is trained on one task, then 'fine-tuned' with a lower learning to rate to fit another task, usually with less data than the first. This is often a powerful way... (read 788 more words →)

Recent Progress in the Theory of Neural Networks

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It's common wisdom that neural networks are basically "matrix multiplications that nobody understands" , impenetrable to theoretical analysis, which have achieved great results largely through trial-and-error. While this may have been true in the past, recently there has been significant progress towards developing a theoretical understanding of neural networks. Most notably, we have obtained an arguably complete understanding of network initialization and training dynamics in a certain infinite-width limit. There has also been some progress towards understanding their generalization behavior. In this post I will review some of this recent progress and discuss the potential relevance to AI alignment.

Infinite Width Nets: Initialization

The most exciting recent developments in... (read 2615 more words →)

Predictors as Agents

interstice

[UPDATE: I have concluded that the argument in this post is wrong. In particular, consider a generative model. Say the generative model has a choice between two possible 'fixed point' predictions A and B, and currently assigns A 70% probability and B 30% probability. Then the target distribution it is trying to match is A 70 % B 30%, so it will just stay like that forever(or drift, likely increasing the proportion of A). This is true even if B is easier to obtain good predictions for -- the model will shift from "70 % crappy model of A / 30% good model to B" --> "70% slightly better model of A... (read 822 more words →)

AI ALIGNMENT FORUM
AF

AI ALIGNMENT FORUM
AF

Recent Progress in the Theory of Neural Networks

Will Values and Competition Decouple?

NTK/GP Models of Neural Nets Can't Learn Features

What's the Relationship Between "Human Values" and the Brain's Reward System?

interstice

NTK/GP Models of Neural Nets Can't Learn Features

Recent Progress in the Theory of Neural Networks

Predictors as Agents

interstice

Recent Progress in the Theory of Neural Networks

Will Values and Competition Decouple?

NTK/GP Models of Neural Nets Can't Learn Features

What's the Relationship Between "Human Values" and the Brain's Reward System?

interstice

NTK/GP Models of Neural Nets Can't Learn Features

Recent Progress in the Theory of Neural Networks

Predictors as Agents

Infinite Width Nets: Initialization