This post is the second in what is likely to become a series of uncharitable rants about alignment proposals (previously: Godzilla Strategies). In general, these posts are intended to convey my underlying intuitions. They are not intended to convey my all-things-considered, reflectively-endorsed opinions. In particular, my all-things-considered reflectively-endorsed opinions are usually more kind. But I think it is valuable to make the underlying, not-particularly-kind intuitions publicly-visible, so people can debate underlying generators directly. I apologize in advance to all the people I insult in the process.

With that in mind, let's talk about problem factorization (a.k.a. task decomposition).

HCH

It all started with HCH, a.k.a. The Infinite Bureaucracy.

The idea of The Infinite Bureaucracy is that a human (or, in practice, human-mimicking AI) is given a problem. They only have a small amount of time to think about it and research it, but they can delegate subproblems to their underlings. The underlings likewise each have only a small amount of time, but can further delegate to their underlings, and so on down the infinite tree. So long as the humans near the top of the tree can “factorize the problem” into small, manageable pieces, the underlings should be able to get it done. (In practice, this would be implemented by training a question-answerer AI which can pass subquestions to copies of itself.)

At this point the ghost of George Orwell chimes in, not to say anything in particular, but just to scream. The ghost has a point: how on earth does an infinite bureaucracy seem like anything besides a terrible idea?

“Well,” says a proponent of the Infinite Bureaucracy, “unlike in a real bureaucracy, all the humans in the infinite bureaucracy are actually just trying to help you, rather than e.g. engaging in departmental politics.” So, ok, apparently this person has not met a lot of real-life bureaucrats. The large majority are decent people who are honestly trying to help. It is true that departmental politics are a big issue in bureaucracies, but those selection pressures apply regardless of the peoples’ intentions. And also, man, it sure does seem like Coordination is a Scarce Resource and Interfaces are a Scarce Resource and scarcity of those sorts of things sure would make bureaucracies incompetent in basically the ways bureacracies are incompetent in practice.

Debate and Other Successors

So, ok, maybe The Infinite Bureaucracy is not the right human institution to mimic. What institution can use humans to produce accurate and sensible answers to questions, robustly and reliably? Oh, I know! How about the Extremely Long Jury Trial? Y’know, because juries are, in practice, known for their extremely high reliability in producing accurate and sensible judgements!

The Magic 8 Ball, known for being about as reliable as a Jury Trial.

“Well,” says the imaginary proponent, “unlike in a real Jury Trial, in the Extremely Long Jury Trial, the lawyers are both superintelligent and the arguments are so long that no human could ever possibility check them all the way through; the lawyers instead read each other’s arguments and then try to point the Jury at the particular places where the holes are in the opponent’s argument without going through the whole thing end-to-end.”

I rest my case.

Anyway, HCH and debate have since been followed by various other successors, which improve on their predecessors mostly by adding more boxes and arrows and loops and sometimes even multiple colors of arrows to the diagram describing the setup. Presumably the strategy is to make it complicated enough that it no longer obviously corresponds to some strategy which already fails in practice, and then we can bury our heads in the sand and pretend that We Just Don’t Know whether it will work and therefore maybe it will work.

(Reminder: in general I don’t reflectively endorse everything in this post; it’s accurately conveying my underlying intuitions, not my all-things-considered judgement. That last bit in particular was probably overly harsh.)

The Ought Experiment

I have a hypothesis about problem factorization research. My guess is that, to kids fresh out of the ivory tower with minimal work experience at actual companies, it seems totally plausible that humans can factorize problems well. After all, we manufacture all sorts of things on production lines, right? Ask someone who’s worked in a non-academia cognitive job for a while (like e.g. a tech company), at a company with more than a dozen people, and they’ll be like “lolwut obviously humans don’t factorize problems well, have you ever seen an actual company?”. I’d love to test this theory, please give feedback in the comments about your own work experience and thoughts on problem factorization.

Anyway, for someone either totally ignorant of the giant onslaught of evidence provided by day-to-day economic reality, or trying to ignore the giant onslaught of evidence in order to avoid their hopes being crushed, it apparently seems like We Just Don’t Know whether humans can factorize cognitive problems well. Sort of like We Just Don’t Know whether a covid test works until after the FDA finishes its trials, even after the test has been approved in the EU ok that’s a little too harsh even for this post.

So Ought went out and tested it experimentally. (Which, sarcasm aside, was a great thing to do.)

The experiment setup: a group of people are given a Project Euler problem. The first person receives the problem, has five minutes to work on it, and records their thoughts in a google doc. The doc is then passed to the next person, who works on it for five minutes recording their thoughts in the doc, and so on down the line. (Note: I’m not sure it was 5 minutes exactly, but something like that.) As long as the humans are able to factor the problem into 5-minute-size chunks without too much overhead, they should be able to efficiently solve it this way.

So what actually happened?

The story I got from a participant is: it sucked. The google doc was mostly useless, you’d spend five minutes just trying to catch up and summarize, people constantly repeated work, and progress was mostly not cumulative. Then, eventually, one person would just ignore the google doc and manage to solve the whole problem in five minutes. (This was, supposedly, usually the same person.) So, in short, the humans utterly failed to factor the problems well, exactly as one would (very strongly) expect from seeing real-world companies in action.

This story basically matches the official write-up of the results.

So Ought said “Oops” and moved on to greener pastures lol no, last I heard Ought is still trying to figure out if better interface design and some ML integration can make problem factorization work. Which, to their credit, would be insanely valuable if they could do it.

That said, I originally heard about HCH and the then-upcoming Ought experiment from Paul Christiano in the summer of 2019. It was immediately very obvious to me that HCH was hopeless (for basically the reasons discussed here); at the time I asked Paul “So when the Ought experiments inevitably fail completely, what’s the fallback plan?”. And he basically said “back to more foundational research”. And to Paul’s credit, three years and an Ought experiment later, he’s now basically moved on to more foundational research.

Sandwiching

About a year ago, Cotra proposed a different class of problem factorization experiments: “sandwiching”. We start with some ML model which has lots of knowledge from many different fields, like GPT-n. We also have a human who has a domain-specific problem to solve (like e.g. a coding problem, or a translation to another language) but lacks the relevant domain knowledge (e.g. coding skills, or language fluency). The problem, roughly speaking, is to get the ML model and the human to work as a team, and produce an outcome at-least-as-good as a human expert in the domain. In other words, we want to factorize the “expert knowledge” and the “having a use-case” parts of the problem.

(The actual sandwiching experiment proposal adds some pieces which I claim aren’t particularly relevant to the point here.)

I love this as an experiment idea. It really nicely captures the core kind of factorization needed for factorization-based alignment to work. But Cotra makes one claim I don’t buy: that We Just Don’t Know how such experiments will turn out, or how hard sandwiching will be for cognitive problems in general. I claim that the results are very predictable, because things very much like this already happen all the time in practice.

For instance: consider a lawyer and a business owner putting together a contract. The business owner has a rough intuitive idea of what they want, but lacks expertise on contracts/law. The lawyer has lots of knowledge about contracts/law, but doesn't know what the business owner wants. The business owner is like our non-expert humans; the lawyer is like GPT.

In this analogy, the analogue of an expert human would be a business owner who is also an expert in contracts/law. The analogue of the "sandwich problem" would be to get the lawyer + non-expert business-owner to come up with a contract as good as the expert business-owner would. This sort of problem has been around for centuries, and I don't think we have a good solution in practice; I'd expect the expert business-owner to usually come up with a much better contract.

This sort of problem comes up all the time in real-world businesses. We could just as easily consider a product designer at a tech startup (who knows what they want but little about coding), an engineer (who knows lots about coding but doesn't understand what the designer wants), versus a product designer who's also a fluent coder and familiar with the code base. I've experienced this one first-hand; the expert product designer is way better. Or, consider a well-intentioned mortgage salesman, who wants to get their customer the best mortgage for them, and the customer who understands the specifics of their own life but knows nothing about mortgages. Will they end up with as good a mortgage as a customer who has expertise in mortgages themselves? Probably not. (I've seen this one first-hand too.)

There’s tons of real-life sandwiching problems, and tons of economic incentive to solve them, yet we do not have good general-purpose solutions.

The Next Generation

Back in 2019, I heard Paul’s HCH proposal, heard about the Ought experiment, and concluded that this bad idea was already on track to self-correct via experimental feedback. Those are the best kind of bad ideas. I wrote up some of the relevant underlying principles (Coordination as a Scarce Resource and Interfaces as a Scarce Resource), but mostly waited for the problem to solve itself. And I think that mostly worked… for Paul.

But meanwhile, over the past year or so, the field has seen a massive influx of bright-eyed new alignment researchers fresh out of college/grad school, with minimal work experience in industry. And of course most of them don’t read through most of the enormous, undistilled, and very poorly indexed corpus of failed attempts from the past ten years. (And it probably doesn’t help that a plurality come through the AGI Safety Fundamentals course, which last time I checked had a whole section on problem factorization but, to my knowledge, didn’t even mention the Ought experiment or the massive pile of close real-world economic analogues. It does include two papers which got ok results by picking easy-to-decompose tasks and hard-coding the decompositions.) So we have a perfect recipe for people who will see problem factorization and think “oh, hey, that could maybe work!”.

If we’re lucky, hopefully some of the onslaught of bright-eyed new researchers will attempt their own experiments (like e.g. sandwiching) and manage to self-correct, but at this point new researchers are pouring in faster than any experiments are likely to proceed, so probably the number of people pursuing this particular dead end will go up over time.

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Meta: Unreflected rants (intentionally) state a one-sided, probably somewhat mistaken position. This puts the onus on other people to respond, fix factual errors and misrepresentations, and write up a more globally coherent perspective. Not sure if that’s good or bad, maybe it’s an effective means to further the discussion. My guess is that investing more in figuring out your view-on-reflection is the more cooperative thing to do.

I endorse this criticism, though I think the upsides outweigh the downsides in this case. (Specifically, the relevant upsides are (1) being able to directly discuss generators of beliefs, and (2) just directly writing up my intuitions is far less time-intensive than a view-on-reflection, to the point where I actually do it rather than never getting around to it.)

This post seems to rely too much on transferring intuitions about existing human institutions to the new (e.g. HCH) setting, where there are two big differences that could invalidate those intuitions:

  1. Real humans all have different interests/values, even if most of them on a conscious level are trying to help.
  2. Real humans are very costly and institutions have to economize on them. (Is coordination still a scarce resource if we can cheaply add more "coordinators"?)

In this post, you don't explain in any detail why you think the intuitions should nevertheless transfer. I read some of the linked posts that might explain this, and couldn't find an explanation in them either. They seem to talk about problems in human institutions, and don't mention why the same issues might exist in new constructs such as HCH despite the differences that I mention. For example you link "those selection pressures apply regardless of the peoples’ intentions" to Unconscious Economics but it's just not obvious to me how that post applies in the case of HCH.

The main reason it would transfer to HCH (and ~all other problem-factorization-based proposals I've seen) is because the individual units in those proposals are generally human-mimickers of some kind (similar to e.g. GPT). Indeed, the original point of HCH is to be able to solve problems beyond what an individual human can solve while training on human mimickry, in order to get the outer alignment benefits of human mimickry.

E.g. for unconscious economics in particular, the selection effects mostly apply to memetics in the HCH tree. And in versions of HCH which allow repeated calls to the same human (as Paul's later version of the proposal does IIRC), unconscious economics applies in the more traditional ways as well.

The two differences you mention seem not-particularly-central to real-world institutional problems. In order to expect that existing problems wouldn't transfer, based on those two differences, we'd need some argument that those two differences address the primary bottlenecks to better performance in existing institutions. (1) seems mostly-irrelevant-in-practice to me; do you want to give an example or two of where it would be relevant? (2) has obvious relevance, but in practice I think most institutions do not have so many coordinators that it's eating up a plurality of the budget, which is what I'd expect to see if there weren't rapidly decreasing marginal returns on additional coordinators. (Though I could give a counterargument to that: there's a story in which managers, who both handle most coordination in practice and make hiring decisions, tend to make themselves a bottleneck by under-hiring coordinators, since coordinators would compete with the managers for influence.) Also it is true that particularly good coordinators are extremely expensive, so I do still put some weight on (2).

E.g. for unconscious economics in particular, the selection effects mostly apply to memetics in the HCH tree. And in versions of HCH which allow repeated calls to the same human (as Paul’s later version of the proposal does IIRC), unconscious economics applies in the more traditional ways as well.

I'm still not getting a good picture of what your thinking is on this. Seems like the inferential gap is wider than you're expecting? Can you go into more details, and maybe include an example?

(1) seems mostly-irrelevant-in-practice to me; do you want to give an example or two of where it would be relevant?

My intuition around (1) being important mostly comes from studying things like industrial organization and theory of the firm. If you look at the economic theories (mostly based on game theory today) that try to explain why economies are organized the way they are, and where market inefficiencies come from, they all have a fundamental dependence on the assumption of different participants having different interests/values. In other words, if you removed that assumption from the theoretical models and replaced it with the opposite assumption, they would collapse in the sense that all or most of the inefficiencies ("transaction costs") would go away and it would become very puzzling why, for example, there are large hierarchical firms instead of everyone being independent contractors who just buy and sell their labor/services on the open market, or why monopolies are bad (i.e., cause "deadweight loss" in the economy).

I still have some uncertainty that maybe these ivory tower theories/economists are wrong, and you're actually right about (1) not being that important, but I'd need some more explanations/arguments in that direction for it to be more than a small doubt at this point.

My intuition around (1) being important mostly comes from studying things like industrial organization and theory of the firm.

Oh that's really interesting. I did a dive into theory of the firm research a couple years ago (mainly interested in applying it to alignment and subagent models) and came out with totally different takeaways. My takeaway was that the difficulty of credit assignment is a major limiting factor (and in particular this led to thinking about Incentive Design with Imperfect Credit Assignment, which in turn led to my current formulation of the Pointers Problem).

Now, the way economists usually model credit assignment is in terms of incentives, which theoretically aren't necessary if all the agents share a goal. On the other hand, looking at how groups work in practice, I expect that the informational role of credit assignment is actually the load-bearing part at least as much as (if not more than) the incentive-alignment role.

For instance, a price mechanism doesn't just align incentives, it provides information for efficient production decisions, such that it still makes sense to use a price mechanism even if everyone shares a single goal. If the agents share a common goal, then in theory there doesn't need to be a price mechanism, but a price mechanism sure is an efficient way to internally allocate resources in practice.

... and now that I'm thinking about it, there's a notable gap in economic theory here: the economists are using agents with different goals to motivate price mechanisms (and credit allocation more generally), even though the phenomenon does not seem like it should require different goals.

I'm still not getting a good picture of what your thinking is on this. Seems like the inferential gap is wider than you're expecting? Can you go into more details, and maybe include an example?

Memetics example: in the vanilla HCH tree, some agent way down the tree ignores their original task and returns an answer which says "the top-level question asker urgently needs to know X!" followed by some argument. And that sort of argument, if it has high memetic fitness (independent of whether it's correct), gets passed all the way back up the tree. The higher the memetic fitness, the further it propagates.

And if we have an exponentially large tree, with this sort of thing being generated a nontrivial fraction of the time, then there will be lots of these things generated. And there will be a selection process as more-memetically-fit messages get passed up, collide with each other, and people have to choose which ones to pass further up. What pops out at the top is, potentially, very-highly-optimized memes drawn from an exponentially large search space.

And of course this all applies even if the individual agents are all well-intentioned and trying their best. As with "unconscious economics", it's the selection pressures which dominate, not the individuals' intentions.

My takeaway was that the difficulty of credit assignment is a major limiting factor

With existing human institutions, a big part of the problem has to be that every participant has an incentive to distort the credit assignment (i.e., cause more credit to be assigned to oneself). (This is what I conclude from economic theory and also fits with my experience and common sense.) It may well be the case that even if you removed this issue, credit assignment would still be a major problem for things like HCH, but how can you know this from empirical experience with real-world human institutions (which you emphasize in the OP)? If you know of some theory/math/model that says that credit assignment would be a big problem with HCH, why not talk about that instead?

Wei Dai says:

If you look at the economic theories (mostly based on game theory today) that try to explain why economies are organized the way they are, and where market inefficiencies come from, they all have a fundamental dependence on the assumption of different participants having different interests/values. In other words, if you removed that assumption from the theoretical models and replaced it with the opposite assumption, they would collapse in the sense that all or most of the inefficiencies ("transaction costs") would go away...

...With existing human institutions, a big part of the problem has to be that every participant has an incentive to distort the credit assignment (i.e., cause more credit to be assigned to oneself). (This is what I conclude from economic theory and also fits with my experience and common sense.)

I'm going to jump in briefly to respond on one line of reasoning. John says the following, and I'd like to just give two examples from my own life of it.

Now, the way economists usually model credit assignment is in terms of incentives, which theoretically aren't necessary if all the agents share a goal. On the other hand, looking at how groups work in practice, I expect that the informational role of credit assignment is actually the load-bearing part at least as much as (if not more than) the incentive-alignment role.

For instance, a price mechanism doesn't just align incentives, it provides information for efficient production decisions, such that it still makes sense to use a price mechanism even if everyone shares a single goal. If the agents share a common goal, then in theory there doesn't need to be a price mechanism, but a price mechanism sure is an efficient way to internally allocate resources in practice.

... and now that I'm thinking about it, there's a notable gap in economic theory here: the economists are using agents with different goals to motivate price mechanisms (and credit allocation more generally), even though the phenomenon does not seem like it should require different goals.

Microcovid Tax

In my group house during the early pandemic, we often spent hours each week negotiating rules about what we could and couldn't do. We could order take-out food if we put it in the oven for 20 mins, we could go for walks outside with friends if 6 feet apart, etc. This was very costly, and tired everyone out. 

We later replaced it (thanks especially to Daniel Filan for this proposal) with a microcovid tax, where each person could do as they wished, then calculate the microcovids they gathered, and pay the house $1/microcovid (this was determined by calculating everyone's cost/life, multiplying by expected loss of life if they got covid, dividing by 1 million, then summing over all housemates).

This massively reduced negotiation overhead and also removed the need for norm-enforcement mechanisms. If you made a mistake, we didn't punish you or tell you off, we just charged you the microcovid tax.

This was a situation where everyone was trusted to be completely honest about their exposures. It nonetheless made it easier for everyone to make tradeoffs in everyone else's interests.

Paying for Resources

Sometimes within the Lightcone team, when people wish to make bids on others' resources, people negotiate a price. If some team members want another team member to e.g. stay overtime for a meeting, move the desk they work from, change what time frame they're going to get something done, or otherwise bid for a use of the other teammate's resources, it's common enough for someone to state a price, and then the action only goes through if both parties agree to a trade.

I don't think this is because we all have different goals. I think it's primarily because it's genuinely difficult to know (a) how valuable it is to the asker and (b) how costly it is to the askee. 

On some occasions I'm bidding for something that seems clearly to me to be the right call, but when the person is asked how much they'd need to be paid in order to make it worth it, they give a much higher number, and it turns out there was a hidden cost I was not modeling.

If a coordination point is sticking, reducing it to a financial trade helps speed it up, by turning the hidden information into a willingness-to-pay / willingness-to-be-paid integer.

In sum

Figuring out the costs of an action in someone else's world is detailed and costly work, and price mechanisms + incentives can communicate this information far more efficiently, and in these two situations having trust-in-honesty (and very aligned goals) does not change this fact.

I am unclear to what extent this is a crux for the whole issue, but it does seem to me that insofar as Wei Dai believes (these are my words) "agents bending the credit-assignment toward selfish goals is the primary reason that credit assignment is difficult and HCH resolves it by having arbitrary many copies of the same (self-aligned) individual", this is false.

If a coordination point is sticking, reducing it to a financial trade helps speed it up, by turning the hidden information into a willingness-to-pay / willingness-to-be-paid integer.

I don't disagree with this. I would add that if agents aren't aligned, then that introduces an additional inefficiency into this pricing process, because each agent now has an incentive to distort the price to benefit themselves, and this (together with information asymmetry) means some mutually profitable trades will not occur.

Figuring out the costs of an action in someone else’s world is detailed and costly work, and price mechanisms + incentives can communicate this information far more efficiently, and in these two situations having trust-in-honesty (and very aligned goals) does not change this fact.

Some work being "detailed and costly" isn't necessarily a big problem for HCH, since we theoretically have an infinite tree of free labor, whereas the inefficiencies introduced by agents having different values/interests seem potentially of a different character. I'm not super confident about this (and I'm overall pretty skeptical about HCH for this and other reasons), but just think that John was too confident in his position in the OP or at least hasn't explained his position enough. To restate the question I see being unanswered: why is alignment + infinite free labor still not enough to overcome the problems we see with actual human orgs?

(I have added the point I wanted to add to this conversation, and will tap out now.)

Some work being "detailed and costly" isn't necessarily a big problem for HCH, since we theoretically have an infinite tree of free labor

Huh, my first thought was that the depth of the tree is measured in training epochs, while width is cheaper, since HCH is just one model and going much deeper amounts to running more training epochs. But how deep we effectively go depends on how robust the model is to particular prompts that occur on that path in the tree, and there could be a way to decide whether to run a request explicitly, unwinding another level of the subtree as multiple instances of the model (deliberation/reflection), or to answer it immediately, with a single instance, relying on what's already in the model (intuition/babble). This way, the effective depth of the tree at the level of performance around the current epoch could extend more, so the effect of learning effort on performance would increase.

This decision mirrors what happens at the goodhart boundary pretty well (there, you don't allow incomprehensible/misleading prompts that are outside the boundary), but the decision here will be further from the boundary (very familiar prompts can be answered immediately, while less familiar but still comprehensible prompts motivate unwinding the subtree by another level, implicitly creating more training data to improve robustness on those prompts).

The intuitive answers that don't require deliberation are close to the center of the concept of aligned behavior, while incomprehensible situations in the crash space are where the concept (in current understanding) fails to apply. So it's another reason to associate robustness with the goodhart boundary, to treat it as a robustness threshold, as this gives centrally aligned behavior as occuring for situations where the model has robustness above another threshold.

It may well be the case that even if you removed [incentive to distort the credit assignment], credit assignment would still be a major problem for things like HCH, but how can you know this from empirical experience with real-world human institutions (which you emphasize in the OP)?

Because there exist human institutions in which people generally seem basically aligned and not trying to game the credit assignment. For instance, most of the startups I've worked at were like this (size ~20 people), and I think the alignment research community is basically like this today (although I'll be surprised if that lasts another 3 years). Probably lots of small-to-medium size orgs are like this, especially in the nonprofit space. It's hard to get very big orgs/communities without letting in some credit monsters, but medium-size is still large enough to see coordination problems kick in (we had no shortage of them at ~20-person startups).

And, to be clear, I'm not saying these orgs have zero incentive to distort credit assignment. Humans do tend to do that sort of thing reflexively, to some extent. But to the extent that it's reflexive, it would also apply to HCH and variants thereof. For instance, people in HCH would still reflexively tend to conceal evidence/arguments contradicting their answers.  (And when someone does conceal contradictory evidence/arguments, that would presumably increase the memetic fitness of their claims, causing them to propagate further up the tree, so that also provides a selection channel.) Similarly, if the HCH implementation has access to empirical testing channels and the ability to exchange multiple messages, people would still reflexively tend to avoid/bury tests which they expect will actually falsify their answers, or try to blame incorrect answers on subquestions elsewhere in the tree when an unexpected experimental outcome occurs and someone tries to backpropagate to figure out where the prediction-failure came from. (And, again, those who shift blame successfully will presumably have more memetic fitness, etc.)

What if 90% or 99% of the work was not object level, but about mechanism/incentive design, surveillance/interpretability, and rationality training/tuning, including specialized to particular projects being implemented, including the projects that set this up, iterating as relevant wisdom/tuning and reference texts accumulate? This isn't feasible for most human projects, as it increases costs by orders of magnitude in money (salaries), talent (number of capable people), and serial time. But in HCH you can copy people, it runs faster, and distillation should get rid of redundant steering if it converges to a legible thing in the limit of redundancy.

Remember all that work still needs to be done by HCH itself. Mechanism/incentive design, surveillance/interpretability, and rationality training/tuning all seem about-as-difficult as the alignment problem itself, if not more so.

Copying people is a potential game changer in general, but HCH seems like a really terrible way to organize those copies.

In my view, the purpose of human/HCH distinction is that there are two models, that of a "human" and that of HCH (bureaucracies). This gives some freedom in training/tuning the bureaucracies model, to carry out multiple specialized objectives and work with prompts that the human is not robust enough to handle. This is done without changing the human model, to preserve its alignment properties and use the human's pervasive involvement/influence at all steps to keep the bureaucracy training/tuning aligned.

The bureaucracies model starts out as that of a human. An episode involves multiple (but only a few) instances of both humans and bureaucracies, each defined by a self-changed internal state and an unchanging prompt/objective. It's a prompt/mission-statement that turns the single bureaucracies model into a particular bureaucracy, for example one of the prompts might instantiate the ELK head of the bureaucracies model. Crucially, the prompts/objectives of humans are less weird than those of bureaucracies, don't go into the chinese room territory, and each episode starts as a single human in control of the decision about which other humans and bureaucracies to initially instantiate in what arrangement. It's only the bureaucracies that get to be exposed to chinese room prompts/objectives, and they can set up subordinate bureaucracy instances with similarly confusing-for-humans prompts.

Since the initial human model is not very capable or aligned, the greater purpose of the construction is to improve the human model. The setting allows instantiating and training multiple specialized bureaucracies, and possibly generalizing their prompt/role/objective from the examples used in training/tuning the bureaucracies model (the episodes). After all, robustness of the bureaucracies model to weird prompts is almost literally the same thing as breadth of available specializations/objectives of bureaucracies.

So the things I was pointing to, incentives/interpretability/rationality, are focus topics for tuned/specialized bureaucracies, whose outputs can be assessed/used by the more reliable but less trainable human (as more legible reference texts, and not large/opaque models) to improve bureaucracy (episode) designs, to gain leverage over bureaucracies that are more specialized and robust to weird prompts/objectives, by solving more principal-agent issues.

More work being allocated to incentives/surveillance/rationality means that even when working on some object-level objective, a significant portion of the bureaucracy instances in an episode would be those specialized in those principal-agent problem (alignment) prompts/objectives, and not in the object-level objective, even if it's the object-level objective bureaucracy that's being currently trained/tuned. Here, the principal-agent objective bureaucracies (alignment bureaucracies/heads of the bureaucracies model) remain mostly unchanged, similarly to how the human model (that bootstraps alignment) normally remains unchanged in HCH, since it's not their training that's being currently done.

I'd be interested in your thoughts on [Humans-in-a-science-lab consulting HCH], for questions where we expect that suitable empirical experiments could be run on a significant proportion of subquestions. It seems to me that lack of frequent empirical grounding is what makes HCH particularly vulnerable to memetic selection.

Would you still expect this to go badly wrong (assume you get to pick the humans)? If so, would you expect sufficiently large civilizations to be crippled through memetic selection by default? If [yes, no], what do you see as the important differences?

... and now that I'm thinking about it, there's a notable gap in economic theory here: the economists are using agents with different goals to motivate price mechanisms...

I don't think it's a gap in economic theory in general: pretty sure I've heard the [price mechanisms as distributed computation] idea from various Austrian-school economists without reliance on agents with different goals - only on "What should x cost in context y?" being a question whose answer depends on the entire system.

It seems to me that lack of frequent empirical grounding is what makes HCH particularly vulnerable to memetic selection.

Would you still expect this to go badly wrong (assume you get to pick the humans)?  If [yes, no], what do you see as the important differences?

Ok, so, some background on my mental image. Before yesterday, I had never pictured HCH as a tree of John Wentworths (thank you Rohin for that). When I do picture John Wentworths, they mostly just... refuse to do the HCH thing. Like, they take one look at this setup and decide to (politely) mutiny or something. Maybe they're willing to test it out, but they don't expect it to work, and it's likely that their output is something like the string "lol nope". I think an entire society of John Wentworths would probably just not have bureaucracies at all; nobody would intentionally create them, and if they formed accidentally nobody would work for them or deal with them.

Now, there's a whole space of things-like-HCH, and some of them look less like a simulated infinite bureaucracy and more like a simulated society. (The OP mostly wasn't talking about things on the simulated-society end of the spectrum, because there will be another post on that.) And I think a bunch of John Wentworths in something like a simulated society would be fine - they'd form lots of small teams working in-person, have forums like LW for reasonably-high-bandwidth interteam communication, and have bounties on problems and secondary markets on people trying to get the bounties and independent contractors and all that jazz.

Anyway, back to your question. If those John Wentworths lacked the ability to run experiments, they would be relatively pessimistic about their own chances, and a huge portion of their work would be devoted to figuring out how to pump bits of information and stay grounded without a real-world experimental feedback channel. That's not a deal-breaker; background knowledge of our world already provides far more bits of evidence than any experiment ever run, and we could still run experiments on the simulated-Johns. But I sure would be a lot more optimistic with an experimental channel.

I do not think memetic selection in particular would cripple those Johns, because that's exactly the sort of thing they'd be on the lookout for. But I'm not confident of that. And I'd be a lot more pessimistic about the vast majority of other people. (I do expect that most people think a bureaucracy/society of themselves would work better than the bureaucracies/societies we have, and I expect that at least a majority and probably a large majority are wrong about that, because bureaucracies are generally made of median-ish people. So I am very suspicious of my inner simulator saying "well, if it was a bunch of copies of John Wentworth, they would know to avoid the failure modes which mess up real-world bureaucracies/societies". Most people probably think that, and most people are probably wrong about it.)

I do think our current civilization is crippled by memetic selection to pretty significant extent. (I mean, that's not the only way to frame it or the only piece, but it's a correct frame for a large piece.)

I don't think it's a gap in economic theory in general: pretty sure I've heard the [price mechanisms as distributed computation] idea from various Austrian-school economists without reliance on agents with different goals - only on "What should x cost in context y?" being a question whose answer depends on the entire system.

Economists do talk about that sort of thing, but I don't usually see it in their math. Of course we can get e.g. implied prices for any pareto-optimal system, but I don't know of math saying that systems will end up using those implied prices internally.

Interesting, thanks. This makes sense to me.
I do think strong-HCH can support the "...more like a simulated society..." stuff in some sense - which is to say that it can be supported so long as we can rely on individual Hs to robustly implement the necessary pointer passing (which, to be fair, we can't).

To add to your "tree of John Wentworths", it's worth noting that H doesn't need to be an individual human - so we could have our H be e.g. {John Wentworth, Eliezer Yudkowsky, Paul Christiano, Wei Dai}, or whatever team would make you more optimistic about lack of memetic disaster. (we also wouldn't need to use the same H at every level)

Yeah, at some point we're basically simulating the alignment community (or possibly several copies thereof interacting with each other). There will probably be another post on that topic soonish.

Like Wei Dai, I think there's a bunch of pretty big disanalogies with real-world examples that make me more hopeful than you:

  1. Typical humans in typical bureaucracies do not seem at all aligned with the goals that the bureaucracy is meant to pursue.
  2. Since you reuse one AI model for each element of the bureaucracy, doing prework to establish sophisticated coordinated protocols for the bureaucracy takes a constant amount of effort, whereas in human bureaucracies it would scale linearly with the number of people. As a result with the same budget you can establish a much more sophisticated protocol with AI than with humans.
    1. In the relay experiment looking at the results it intuitively feels like people could have done significantly better by designing a better protocol in advance and coordinating on it, though I wouldn't say that with high confidence.
  3. After a mere 100 iterations of iterated distillation and amplification where each agent can ask 2 subquestions, you are approximating a bureaucracy of 2^100 agents, which is wildly larger than any human bureaucracy and has qualitatively different strategies available to it. Probably it will be a relatively bad approximation but the exponential scaling with linear iterations still seems pretty majorly different from human bureaucracies.

I think these disanalogies are driving most of the disagreement, rather than things like "not knowing about real-world evidence" or even "failing to anticipate results in simple cases we can test today". For example, for the relay experiment you mention, at least I personally (and probably others) did in fact anticipate these results in advance. Here's a copy of this comment of mine (as a Facebook comment it probably isn't public, sorry), written before anyone had actually played a relay game (bold added now, to emphasize where it agrees with what actually happened):

Worry: 10 minutes seems near-impossible for the cubes problem [a specific Euler project problem]. It is *difficult* to explain things to others. Even between two copies of me, one that knows the answer and one that doesn't, this is hard, and it becomes way harder when it's different people. I think I'd predict >50x slowdown on the cubes problem relative to how long I'd take, and if I take similar times as you, then that would take >250 person-hours = 1500 agents. My intuitive model says it'll never be solved, unless one of the agents is one of the experts who can directly solve the problem in under 10 minutes. This model is wrong -- I'm not properly imagining the clever strategies that could evolve as time goes on -- but I do think it would take a long time for such strategies to evolve.

A 45-minute problem seems much more doable, the solutions/approaches should be explainable in less than 10 minutes. I'm a quite uncertain what the slowdown would be on that, and how the solution would be generated -- I think it's plausible that the solution just ends up being that the 5th person reads the problem statement and just figures out the answer ignoring the work/instructions from people 1-4, and explains the algorithm in their email, and then future agents implement the algorithm.

(I think I would have been significantly more optimistic if each individual person had, say, 30 minutes of time, even if they were working on a relatively harder problem. I didn't find any past quotes to that effect though. In any case that's how I feel about it now.)

One question is why Ought did these experiments if they didn't expect success? I don't know what they expected but I do remember that their approach was very focused on testing the hardest cases (I believe in order to find the most shaky places for Factored Cognition, though my memory is shaky there), so I'm guessing they also thought a negative outcome was pretty plausible.

Typical humans in typical bureaucracies do not seem at all aligned with the goals that the bureaucracy is meant to pursue.

Why would this be any different for simulated humans or for human-mimicry based AI (which is what ~all of the problem-factorization-based alignment strategies I've seen are based on)?

Since you reuse one AI model for each element of the bureaucracy, doing prework to establish sophisticated coordinated protocols for the bureaucracy takes a constant amount of effort, whereas in human bureaucracies it would scale linearly with the number of people. As a result with the same budget you can establish a much more sophisticated protocol with AI than with humans.

This one I buy. Though if it's going to be the key load-bearing piece which makes e.g. something HCH-like work better than the corresponding existing institutions, then it really ought to play a more central role in proposals, and testing it on humans now should be a high priority. (Some of Ought's work roughly fits that, so kudos to them, but I don't know of anyone else doing that sort of thing.)

After a mere 100 iterations of iterated distillation and amplification where each agent can ask 2 subquestions, you are approximating a bureaucracy of 2^100 agents, which is wildly larger than any human bureaucracy and has qualitatively different strategies available to it. Probably it will be a relatively bad approximation but the exponential scaling with linear iterations still seems pretty majorly different from human bureaucracies.

Empirically it does not seem like bureaucracies' problems get better as they get bigger. It seems like they get worse. And like, sure, maybe there's a phase change if you go to really exponentially bigger sizes, but "maybe there's a phase change and it scales totally differently than we're used to and this happens to be a good thing rather than a bad thing" is the sort of argument you could make about anything, we really need some other reason to think that hypothesis is worth distinguishing at all.

I think these disanalogies are driving most of the disagreement, rather than things like "not knowing about real-world evidence" or even "failing to anticipate results in simple cases we can test today". For example, for the relay experiment you mention, at least I personally (and probably others) did in fact anticipate these results in advance.

Kudos for correct prediction!

Continuing in the spirit of expressing my highly uncharitable intuitions, my intuitive reaction to this is "hmm Rohin's inner simulator seems to be working fine, maybe he's just not actually applying it to picture what would happen in an actual bureaucracy when making changes corresponding to the proposed disanalogies". On reflection I think there's a strong chance you have tried picturing that, but I'm not confident, so I mention it just in case you haven't. (In particular disanalogy 3 seems like one which is unlikely to work in our favor when actually picturing it, and my inner sim is also moderately skeptical about disanalogy 2.)

One more disanalogy:

4. the rest of the world pays attention to large or powerful real-world bureaucracies and force rules on them that small teams / individuals can ignore (e.g. Secret Congress, Copenhagen interpretation of ethics, startups being able to do illegal stuff), but this presumably won't apply to alignment approaches.

One other thing I should have mentioned is that I do think the "unconscious economics" point is relevant and could end up being a major problem for problem factorization, but I don't think we have great real-world evidence suggesting that unconscious economics by itself is enough to make teams of agents not be worthwhile.

Re disanalogy 1: I'm not entirely sure I understand what your objection is here but I'll try responding anyway.

I'm imagining that the base agent is an AI system that is pursuing a desired task with roughly human-level competence, not something that acts the way a whole-brain emulation in a realistic environment would act. This base agent can be trained by imitation learning where you have the AI system mimic human demonstrations of the task, or by reinforcement learning on a reward model trained off of human preferences, but (we hope) is just trying to do the task and doesn't have all the other human wants and desires. (Yes, this leaves a question of how you get that in the first place; personally I think that this distillation is the "hard part", but that seems separate from the bureaucracy point.)

Even if you did get a bureaucracy made out of agents with human desires, it still seems like you get a lot of benefit from the fact that the agents are identical to each other, and so have less politics.

Re disanalogy 3: I agree that you have to think that a small / medium / large bureaucracy of Alices-with-15-minutes will at least slightly outperform an individual / small / medium bureaucracy of Alices-with-15-minutes before this disanalogy is actually a reason for optimism. I think that ends up coming from disanalogies 1, 2 and 4, plus some difference in opinion about real-world bureaucracies, e.g. I feel pretty good about small real-world teams beating individuals.

I mostly mention this disanalogy as a reason not to update too hard on intuitions like Can HCH epistemically dominate Ramanujan? and this SlateStarCodex post.

On reflection I think there's a strong chance you have tried picturing that, but I'm not confident, so I mention it just in case you haven't.

Yeah I have. Personally my inner sim feels pretty great about the combination of disanalogy 1 and disanalogy 2 -- it feels like a coalition of Rohins would do so much better than an individual Rohin, as long as the Rohins had time to get familiar with a protocol and evolve it to suit their needs. (Picturing some giant number of Rohins a la disanalogy 3 is a lot harder to do but when I try it mostly feels like it probably goes fine.)

4. the rest of the world pays attention to large or powerful real-world bureaucracies and force rules on them that small teams / individuals can ignore (e.g. Secret Congress, Copenhagen interpretation of ethics, startups being able to do illegal stuff), but this presumably won't apply to alignment approaches.


I think a lot of alignment tax-imposing interventions (like requiring local work to be transparent for process-based feedback) could be analogous?

Hmm, maybe? There are a few ways this could go:

  1. We give feedback to the model on its reasoning, that feedback is bad in the same way that "the rest of the world pays attention and forces dumb rules on them" is bad
  2. "Keep your reasoning transparent" is itself a dumb rule that we force upon the AI system that leads to terrible bureaucracy problems

I'm unsure about (2) and mostly disagree with (1) (and I think you were mostly saying (2)).

Disagreement with (1): Seems like the disanalogy relies pretty hard on the rest of the world not paying much attention when they force bureaucracies to follow dumb rules, whereas we will presumably pay a lot of attention to how we give process-based feedback.

Re disanalogy 1: I'm not entirely sure I understand what your objection is here but I'll try responding anyway.

I was mostly thinking of the unconscious economics stuff.

Personally my inner sim feels pretty great about the combination of disanalogy 1 and disanalogy 2 -- it feels like a coalition of Rohins would do so much better than an individual Rohin, as long as the Rohins had time to get familiar with a protocol and evolve it to suit their needs. (Picturing some giant number of Rohins a la disanalogy 3 is a lot harder to do but when I try it mostly feels like it probably goes fine.)

I should have asked for a mental picture sooner, this is very useful to know. Thanks.

If I imagine a bunch of Johns, I think that they basically do fine, though mainly because they just don't end up using very many Johns. I do think a small team of Johns would do way better than I do.

I’d love to test this theory, please give feedback in the comments about your own work experience and thoughts on problem factorization.

Yes I too have a rant along those lines from a post a while back, here it is:

I’m generally skeptical that anything in the vicinity of factored cognition will achieve both sufficient safety and sufficient capability simultaneously, for reasons similar to Eliezer’s here. For example, I’ll grant that a team of 10 people can design a better and more complex widget than any one of them could by themselves. But my experience (from having been on many such teams) is that the 10 people all need to be explaining things to each other constantly, such that they wind up with heavily-overlapping understandings of the task, because all abstractions are leaky. And you can’t just replace the 10 people with 100 people spending 10× less time, or the project will absolutely collapse, crushed under the weight of leaky abstractions and unwise-in-retrospect task-splittings and task-definitions, with no one understanding what they’re supposed to be doing well enough to actually do it. In fact, at my last job, it was not at all unusual for me to find myself sketching out the algorithms on a project and sketching out the link budget and scrutinizing laser spec sheets and scrutinizing FPGA spec sheets and nailing down end-user requirements, etc. etc. Not because I’m individually the best person at each of those tasks—or even very good!—but because sometimes a laser-related problem is best solved by switching to a different algorithm, or an FPGA-related problem is best solved by recognizing that the real end-user requirements are not quite what we thought, etc. etc. And that kind of design work is awfully hard unless a giant heap of relevant information and knowledge is all together in a single brain.

I think we could play an endless and uninteresting game of "find a real-world example for / against factorization."

To me, the more interesting discussion is around building better systems for updating on alignment research progress -   

  1. What would it look like for this research community to effectively update on results and progress? 
  2. What can we borrow from other academic disciplines? E.g. what would "preregistration" look like? 
  3. What are the ways more structure and standardization would be limiting / taking us further from truth? 
  4. What does the "institutional memory" system look like? 
  5. How do we coordinate the work of different alignment researchers and groups to maximize information value?

I think we could play an endless and uninteresting game of "find a real-world example for / against factorization."

The problem with not using existing real-world examples as a primary evidence source is that we have far more bits-of-evidence from the existing real world, at far lower cost, than from any other source. Any method which doesn't heavily leverage those bits necessarily makes progress at a pace orders of magnitude slower.

Also, in order for factorization to be viable for aligning AI, we need the large majority of real-world cognitive problems to be factorizable. So if we can find an endless stream of real-world examples of cognitive problems which humans are bad at factoring, then this class of approaches is already dead in the water.

About a year ago, Cotra proposed a different class of problem factorization experiments: “sandwiching”. We start with some ML model which has lots of knowledge from many different fields, like GPT-n. We also have a human who has a domain-specific problem to solve (like e.g. a coding problem, or a translation to another language) but lacks the relevant domain knowledge (e.g. coding skills, or language fluency). The problem, roughly speaking, is to get the ML model and the human to work as a team, and produce an outcome at-least-as-good as a human expert in the domain. In other words, we want to factorize the “expert knowledge” and the “having a use-case” parts of the problem.

I don't think "sandwiching" is best understood as a problem factorization experiment, though this is indeed one possible approach to improve performance in the sandwiching setting.

I prefer to define sandwiching as:

Testbeds where we hold out ground truth (or other validation) for a certain domain and otherwise go no-holds-barred on trying to get maximally good results on that task (perhaps with some restriction in available resources, e.g., only access to non-expert humans). Then we can assess the resulting goodness based on our held-out validation.

I think of sandwiching as the obvious way to assess a certain class of safety/alignment techniques rather than as a particularly opinionated approach.

I think the discussion here or possibly here presents a better perspective on sandwiching.

If anyone has questions for Ought specifically, we're happy to answer them as part of our AMA on Tuesday.

meta:

This seems to be almost exclusively based on the proxies of humans and human institutions. Reasons why this does not necessarily generalize to advanced AIs are often visible when looking from a perspective of other proxies, eg. programs or insects.

Sandwiching:

So far, progress of ML often led to this pattern:

1. ML models sort of suck, maybe help a bit sometimes. Humans are clearly better ("humans better").
2. ML models get overall comparable to humans, but have different strengths and weaknesses; human+AI teams beat both best AIs alone, or best humans alone ("age of cyborgs")
3. human inputs just mess up with superior AI suggestions ("age of AIs")

(chess, go, creating nice images, poetry seems to be at different stages of this sequence)

This seems to lead to a different intuition than the lawyer-owner case. 

Also: designer-engineer and lawyer-owner problems seem both related to communication bottleneck between two human brains. 
 

The agents at the top of most theoretical infinite bureaucracies should be thought of as already superhumanly capable and aligned, not weak language models, because the way IDA works iteratively retrains models on output of bureaucracy, so that agents at higher levels of the theoretical infinite bureaucracy are stronger (from later amplification/distillation epochs) than those at lower levels. It doesn't matter if an infinite bureaucracy instantiated for a certain agent fails to solve important problems, as long as the next epoch does better.

For HCH specifically, this is normally intended to apply to the HCHs, not to humans in it, but then the abstraction of humans being actual humans (exact imitations) leaks, and we start expecting something other than actual humans there. If this is allowed, if something less capable/aligned than humans can appear in HCH, then by the same token these agents should improve with IDA epochs (perhaps not of HCH, but of other bureaucracies) and those "humans" at the top of an infinite HCH should be much better than the starting point, assuming the epochs improve things.