It’s definitely an interesting phenomenon & worth thinking about seriously.
Any procedures for optimizing for expected impact could go wrong if the value of long-term alliances and relationships isn’t accounted for.
It’s definitely an interesting phenomenon & worth thinking about seriously.
Any procedures for optimizing for expected impact could go wrong if the value of long-term alliances and relationships isn’t accounted for.
Thanks for the detailed comment!
I expect we’ll remain in disagreement, but I’ll clarify where I stand on a couple of points you raised:
“Optimizer’s curse only matters when comparing better-understood projects to worse-understood projects, but you are talking about “prioritizing among funding opportunities that involve substantial, poorly understood uncertainty.”
Certainly, the optimizer’s curse may be a big deal when well-understood projects are compared with poorly-understood projects. However, I don’t think it’s the case that all projects involving “substantial, poorly understood uncertainty” are on the same footing. Rather, each project is on its own footing, and we’re somewhat ignorant about how firm that footing is.
“We can use prior distributions.”
Yes, absolutely. What I worry about is how reliable those priors will be. I maintain that, in many situations, it’s very hard to defend any particular prior.
“And there is no reason to assume that probabilistic decision makers will overestimate as opposed to underestimate.”
This gets at what I’m really worried about! Let’s assume decisionmakers coming up with probabilistic estimates to assess potential activities don’t have a tendency to overestimate or underestimate. However, once a decisionmaker has made many estimates, there is reason to believe the activities that look most promising likely involve overestimates (because of the optimizer’s curse).
“Here’s a question: how are you going to adjust for the optimizer’s curse if you don’t use probability (implicitly or explicitly)?”
This is a great question!
Rather than saying, “This is a hard problem, and I have an awesome solution no one else has proposed,” I’m trying to say something more like, “This is a problem we should acknowledge! Let’s also acknowledge that it’s a damn hard problem and may not have an easy solution!”
That said, I think there are approaches that have promise (but are not complete solutions):
-Favoring opportunities that look promising under multiple models.
-Being skeptical of opportunities that look promising under only a single model.
-Learning more (if that can cause probability estimates to become less uncertain & hazy).
-Doing more things to put society in a good position to handle problems when they arise (or become apparent) instead of trying to predict problems before they arise (or become apparent).
“Here’s what it means, formally: given that I have an equal desire to be right about the existence of God and the nonexistence of God, and given some basic assumptions about my money and my desire for money, I would make a bet with at most 50:1 odds that all-powerful-God exists.”
This is how a lot of people think about statements of probability, and I think that’s usually reasonable. I’m concerned that people are sometimes accidentally equivocating between: “I would bet on this with at most 50:1 odds” and “this is as likely to occur as a perfectly fair 50-sided die being rolled and coming up ‘17’”
“But in Bayesian decision theory, they aren’t on the same footing. They have very different levels of robustness. They are not well-grounded and this matters for how readily we update away from them. Is the notion of robustness inadequate for solving some problem here?”
The notion of robustness points in the right direction, but I think it’s difficult (perhaps impossible) to reliably and explicitly quantify robustness in the situations we’re concerned about.
Can you expand on how you would directly estimate the reliability of charity evaluations? I feel like there are a lot of realistic situations where this would be extremely difficult to do well.
Thanks Max! That paper looks interesting—I’ll have to give it a closer read at some point.
I agree with you that how the reliability of assessments varies between options is crucial.
I’m struggling to understand how your proposed new group avoids the optimizer’s curse, and I’m worried we’re already talking past each other. To be clear, I’m don’t believe there’s something wrong with Bayesian methods in the abstract. Those methods are correct in a technical sense. They clearly work in situations where everything that matters can be completely quantified.
The position I’m taking is that the scope of real-world problems that those methods are useful for is limited because our ability to precisely quantify things is severely limited in many real-world scenarios. In my post, I try to build the case for why attempting Bayesian approaches in scenarios where things are really hard to quantify might be misguided.
I think it’s super exciting—a really useful application of probability!
I don’t know as much as I’d like to about Tetlock’s work. My understanding is that the work has focused mostly on geopolitical events where forecasters have been awfully successful. Geopolitical events are a kind of thing I think people are in an OK position for predicting—i.e. we’ve seen a lot of geopolitical events in the past that are similar to the events we expect to see in the future. We have decent theories that can explain why certain events came to pass while others didn’t.
I doubt that Tetlock-style forecasting would be as fruitful in unfamiliar domains that involve Knightian-ish uncertainty. Forecasting may not be particularly reliable for questions like:
-Will we have a detailed, broadly accepted theory of consciousness this century?
-Will quantum computers take off in the next 50 years?
-Will any humans leave the solar system by 2100?
(That said, following Tetlock’s guidelines may still be worthwhile if you’re trying to predict hard-to-predict things.)
Sure. To be clear, I think most of what I’m concerned about applies to prioritization decisions made in highly-uncertain scenarios. So far, I think the EA community has had very few opportunities to look back and conclusively assess whether highly-uncertain things it prioritized turned out to be worthwhile. (Ben makes a similar point at https://www.lesswrong.com/posts/Kb9HeG2jHy2GehHDY/effective-altruism-is-self-recommending.)
That said, there are cases where I believe mistakes are being made. For example, I think mass deworming in areas where almost all worm infections are light cases of trichuriasis or ascariasis is almost certainly not among the most cost-effective global health interventions.
Neither trichuriasis nor ascariasis appear to have common/significant/easily-measured symptoms when infections are light (i.e., when there are not many worms in an infected person’s body). To reach the conclusion that treating these infections has a high expected value, extrapolations are made from the results of a study that had some weird features and occurred in a very different environment (an environment with far heavier infections and additional types of worm infections). When GiveWell makes its extrapolations, lots of discounts, assumptions, probabilities, etc. are used. I don’t think people can make this kind of extrapolation reliably (even if they’re skeptical, smart, and thinking carefully). When unreliable estimates are combined with an optimization procedure, I worry about the optimizer’s curse.
Someone who is generally skeptical of people’s ability to productively use models in highly-uncertain situations might instead survey experts about the value of treating light trichuriasis & asariasis infections. Faced with the decision of funding either this kind of deworming or a different health program that looked highly-effective, I think the example person who ran surveys would choose the latter.
Just to be clear, much of the deworming work supported by people in the EA community happens in areas where worm infections are more intense or are caused by worm species other than Trichuris & Ascaris. However, I believe a non-trivial amount of deworming done by charities supported by the EA community occurs in areas w/ primarily light infections from those worms.
Thanks for raising this.
To be clear, I’m still a huge fan of GiveWell. GiveWell only shows up in so many examples in my post because I’m so familiar with the organization.
I mostly agree with the points Holden makes in his cluster thinking post (and his other related posts). Despite that, I still have serious reservations about some of the decision-making strategies used both at GW and in the EA community at large. It could be that Holden and I mostly agree, but other people take different positions. It could be that Holden and I agree about a lot of things at a high-level but then have significantly different perspectives about how those things we agree on at a high-level should actually manifest themselves in concrete decision making.
For what it’s worth, I do feel like the page you linked to from GiveWell’s website may downplay the role cost-effectiveness plays in its final recommendations (though GiveWell may have a good rebuttal).
In a response to Taymon’s comment, I left a specific example of something I’d like to see change. In general, I’d like people to be more reluctant to brute-force push their way through uncertainty by putting numbers on things. I don’t think people need to stop doing that entirely, but I think it should be done while keeping in mind something like: “I’m using lots of probabilities in a domain where I have no idea if I’m well-calibrated...I need to be extra skeptical of whatever conclusions I reach.”
I’d also be excited to see more people in the EA movement doing the sort of work that I think would put society in a good position for handling future problems when they arrive. E.g., I think a lot of people who associate with EA might be awfully good and pushing for progress in metascience/open science or promoting a free & open internet.
Hey Kyle, I’d stopped responding since I felt like we were well beyond the point where we were likely to convince one another or say things that those reading the comments would find insightful.
I understand why you think “good prior” needs to be defined better.
As I try to communicate (but may not quite say explicitly) in my post, I think that in situations where uncertainty is poorly understood, it’s hard to come up with priors that are good enough that choosing actions based explicit Bayesian calculations will lead to better outcomes than choosing actions based on a combination of careful skepticism, information gathering, hunches, and critical thinking.
It’s always worth entertaining multiple models if you can do that at no cost. However, doing that often comes at some cost (money, time, etc). In situations with lots of uncertainty (where the optimizer’s curse is liable to cause significant problems), it’s worth paying much higher costs to entertain multiple models (or do other things I suggested) than it is in cases where the optimizer’s curse is unlikely to cause serious problems.
As a real world example:
Venture capitalists frequently fund things that they’re extremely uncertain about. It’s my impression that Bayesian calculations rarely play into these situations. Instead, smart VCs think hard and critically and come to conclusions based on processes that they probably don’t full understand themselves.
It could be that VCs have just failed to realize the amazingness of Bayesianism. However, given that they’re smart & there’s a ton of money on the table, I think the much more plausible explanation is that hardcore Bayesianism wouldn’t lead to better results than whatever it is that successful VCs actually do.
Again, none of this is to say that Bayesianism is fundamentally broken or that high-level Bayesian-ish things like “I have a very skeptical prior so I should not take this estimate of impact at face value” are crazy.
That’s interesting—and something I may not have considered enough. I think there’s a real possibility that there could be excessive quantification in some areas of the EA but not enough of it in other areas.
For what it’s worth, I may have made this post too broad. I wanted to point out a handful of issues that I felt all kind of fell under the umbrella of “having excessive faith in systematic or mathematical thinking styles.” Maybe I should have written several posts on specific topics that get at areas of disagreement a bit more concretely. I might get around to those posts at some point in the future.
(I used to work for GiveWell)
Hey Ben,
I’m sympathetic to a lot of the points you make in this post, but I think your conclusions are far more negative than is reasonable.
Here’s the stuff I largely agree with you on:
-The opportunities to save lives w/ global health interventions probably aren’t nearly as easy as Singer’s thought experiment suggests
-Entities other than GiveWell use GiveWell’s estimates without the appropriate level of nuance and detail about where the estimates come from and how uncertain they are
-There’s not anything close to $50,000,000,000 funding gap for ultra cost-effective interventions to save lives
-GiveWell’s cost-effectiveness estimates are probably overly optimistic
That said, I find a few of the things you say in this post frustrating:
“Either charities like the Gates Foundation and Good Ventures are hoarding money at the price of millions of preventable deaths, or the low cost-per-life-saved numbers are wildly exaggerated.”
I don’t think anyone at GiveWell believes millions of lives could be saved today at an ultra-low cost. GiveWell regularly publishes their room for more funding analyses that indicate it thinks the funding gaps for their recommended interventions amount to way way less than $50 billion/year.
As far as I can tell, people at Good Ventures & Open Phil sincerely believe that funding in cause areas other than global health may be incredibly cost-effective. I think Good Ventures funds other stuff because they think each $5,000 of funding given to those causes may do more good than an additional $5,000 given to GiveWell’s recommended charities. They might be dead wrong, but I don’t think they rationalize their choices with, “Well, GiveWell’s estimates are just BS so let’s not take them seriously.”
“They were worried that this would be an unfair way to save lives.”
I find this way of describing GW’s motivations awfully uncharitable.
“[The cost-effectiveness estimates are] marketing copy designed to control your behavior, not unbiased estimates designed to improve the quality of your decisionmaking process.”
GiveWell puts a ton of effort into coming up with these numbers and drawing on them as they make decisions. None of that would happen if the numbers were just created for the purposes of marketing and manipulation. I have significant reservations about how GiveWell’s estimates are created and used. I don’t have significant reservations about GiveWell’s sincerity when sharing the estimates.
Just found this post, coming in to comment a year late—Thanks Michael for the thoughtful post and Ozzie for the thoughtful comments!
I’m not saying that these are easy to solve, but rather, there is a mathematical strategy to generally fix them in ways that would make sense intuitively. There’s no better approach than to try to approximate the mathematical approach, or go with an approach that in-expectation does a decent job at approximating the mathematical approach.
I might agree with you about what’s (in some sense) mathematically possible (in principle). In practice, I don’t think people trying to approximate the ideal mathematical approach are going to have a ton of success (for reasons discussed in my post and quoted in Michael’s previous comment).
I don’t think searching for “an approach that in-expectation does a decent job at approximating the mathematical approach” is pragmatic.
In most important scenarios, we’re uncertain what approaches work well in-expectation. Our uncertainty about what works well in-expectation is the kind of uncertainty that’s hard to hash out in probabilities. A strict Bayesian might say, “That’s not a problem—with even more math, the uncertainty can be handled....”
While you can keep adding more math and technical patches to try and ground decision making in Bayesianism, pragmatism eventually pushes me in other directions. I think David Chapman explains this idea a hell of a lot better than I can in Rationalism’s Responses To Trouble.
Getting more concrete:
Trusting my gut or listening to domain experts might turn out to be approaches that work well in some situation. If one of these approaches works, I’m sure someone could argue in hindsight that an approach works because it approximates an idealized mathematical approach. But I’m skeptical of the merits of work done in the reverse (i.e., trying to discover non-math approaches by looking for things that will approximate idealized mathematical approaches).
Just saw this comment, I’m also super late to the party responding to you!
It actually seems to me it might have been worth emphasising more, as I think a casual reader could think this post was a critique of formal/explicit/quantitative models in particular.
Totally agree! Honestly, I had several goals with this post, and I almost complete failed on two of them:
Arguing why utilitarianism can’t be the foundation of ethics.
Without talking much about AI, explaining why I don’t think people in the EA community are being reasonable when they suggest there’s a decent chance of an AGI being developed in the near future.
Instead, I think this post came off as primarily a criticism of certain kinds of models and a criticism of GiveWell’s approach to prioritization (which is unfortunate since I think the Optimizer’s Curse isn’t as big an issue for GiveWell & global health as it is for many other EA orgs/cause areas).
--
On the second piece of your comment, I think we mostly agree. Informal/cluster-style thinking is probably helpful, but it definitely doesn’t make the Optimizer’s Curse a non-issue.
I largely agree with what you said in this comment, though I’d say the line between data collection and data processing is often blurred in real-world scenarios.
I think we are talking past each other (not in a bad faith way though!), so I want to stop myself from digging us deeper into an unproductive rabbit hole.
Thanks Milan—I probably should have been a bit more detailed in my summary.
Here are the main issues I see:
-The optimizer’s curse is an underappreciated threat to those who prioritize among causes and programs that involve substantial, poorly understood uncertainty.
-I think EAs are unusually prone to wrong-way reductions: a fallacy where people try to solve messy, hard problems with tidy, formulaic approaches that actually create more issues than they resolve.
--I argue that trying to turn all uncertainty into something like numeric probability estimates is a wrong-way reduction that can have serious consequences.
--I argue that trying to use Bayesian methods in situations where well-ground priors are unavailable is often a wrong-way reduction. (For what it’s worth, I rarely see EAs actually deploy these Bayesian methods, but I often see people suggest that the proper approaches in hard situations involve “making a Bayesian adjustments.” In many of these situations, I’d argue that something closer to run-of-the-mill critical thinking beats Bayesianism.)
-I think EAs sometimes have an unwarranted bias towards numerical, formulaic approaches over less-quantitative approaches.