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highfrequency

2,625 カルマ登録 6 年前

投稿

Disclosing information about the self is intrinsically rewarding

pnas.org
4 ポイント·投稿者 highfrequency·5 日前·0 コメント

Transcending Temptation Through Abstraction

journals.sagepub.com
1 ポイント·投稿者 highfrequency·9 日前·0 コメント

What I learned competing against a convnet (Karpathy 2014)

karpathy.github.io
3 ポイント·投稿者 highfrequency·21 日前·0 コメント

The Evolution of Unix

nokia.com
3 ポイント·投稿者 highfrequency·24 日前·0 コメント

New gene delivery vehicle shows promise for human brain gene therapy

broadinstitute.org
6 ポイント·投稿者 highfrequency·先月·0 コメント

Enlicitide lowers LDL by 60% with little side effect

apnews.com
16 ポイント·投稿者 highfrequency·先月·0 コメント

Ambrose to Theodosius I 390

sourcebooks.web.fordham.edu
2 ポイント·投稿者 highfrequency·2 か月前·0 コメント

Keats, Letters

sites.ualberta.ca
2 ポイント·投稿者 highfrequency·2 か月前·0 コメント

Main quests, subquests, side quests and minigames

stevepavlina.com
1 ポイント·投稿者 highfrequency·2 か月前·0 コメント

Lessons from Building Mercury

thespl.it
1 ポイント·投稿者 highfrequency·3 か月前·0 コメント

The Dynamics of Competition in Search Engines (2001)

tesble.com
1 ポイント·投稿者 highfrequency·3 か月前·0 コメント

Project Mario: the inside story of DeepMind

colossus.com
17 ポイント·投稿者 highfrequency·3 か月前·1 コメント

Stackelberg Competition

en.wikipedia.org
3 ポイント·投稿者 highfrequency·4 か月前·0 コメント

I Created Rosie's mRNA Vaccine

twitter.com
4 ポイント·投稿者 highfrequency·4 か月前·1 コメント

Hummingbird: Venture Firm You've Never Heard Of

generalist.com
2 ポイント·投稿者 highfrequency·4 か月前·0 コメント

The Arithmetic Return Doesn't Exist

breakingthemarket.com
1 ポイント·投稿者 highfrequency·6 か月前·0 コメント

Generative models for power law vs. lognormal distributions [pdf]

eecs.harvard.edu
2 ポイント·投稿者 highfrequency·6 か月前·0 コメント

Engineering Is Becoming Beekeeping

bits.logic.inc
8 ポイント·投稿者 highfrequency·6 か月前·0 コメント

The Great Filter

mason.gmu.edu
2 ポイント·投稿者 highfrequency·7 か月前·0 コメント

ArXiv Monthly Submissions Chart

arxiv.org
1 ポイント·投稿者 highfrequency·8 か月前·0 コメント

コメント

highfrequency
·3 時間前·議論
Weighting by population seems reasonable here!
highfrequency
·3 日前·議論
Copy paste out of tmux drives me nuts. Seems to work half the time. Interested in a good fix
highfrequency
·12 日前·議論
Hyperscaler free cash flow chart is interesting, but why does it omit Apple?
highfrequency
·12 日前·議論
Seems natural enough. There will always be complexity and nuance that is missed by an AI model or person - the world is just super detailed. The more expertise you have the more you will be aware of that nuance. That doesn't mean the model or person is not useful as a starting point.
highfrequency
·14 日前·議論
Did they at least rule out an easy prompt fix? "Stick to the spirit of the problem and don't cheat (eg reverse engineering the test cases or source code)"
highfrequency
·16 日前·議論
Why UK?
highfrequency
·22 日前·議論
> idea thief. Takes credit for others’ work.

Based on what?
highfrequency
·29 日前·議論
Thanks, I appreciate the discussion. The paper you sent is interesting. I agree it looks like for moderate values of K (on the order of 100-1000), RL models actually look a little worse at pass@k than their base models.

So perhaps the right framing of your/Sutton's claim is: RL can upweight low-probability (p) but correct outputs, but there is a limit to how small p can be, and it is on the order of 1 in a 100 or 1 in a 1000. Implicitly there must be some crossover point where you would call this discovery/creativity if it works for sufficiently small p right? Eg if RL can upweight a correct but 1 in a trillion output to 1 in 5, that's got to count as discovery given that all possible sequences are technically "in the distribution"?

In practice, it does seem like that kind of progress is happening. For example with the recent Erdos solution [0], I would wager that GPT 4's hit rate on this would have been functionally 0 (certainly less than 1 in a thousand). Curious to hear whether you'd still say this is mode-seeking within a base distribution, or if not then what is the right explanation if not iterative RL.

I'd also highlight that the paper you linked with the pass@k equivalence doesn't technically address the question of how small p can be before RL upweighting breaks down - all of the example problems were easy enough that the base model had decent hit rate with 128 tries.

[0] https://openai.com/index/model-disproves-discrete-geometry-c...
highfrequency
·29 日前·議論
I wish it were ok for companies to bluntly say: “we made these decisions for competitive reasons, but the public backlash outweighed that so we are reversing course.”

I think it’s normal and morally fine for companies to want to protect their leadership position. I find the process of creating narratives that justify these decisions as something chosen for the good of others is a little tedious.
highfrequency
·30 日前·議論
Sure, but I'd say that moving desirable trajectories from very low probability to high probability is characteristic of genuine human learning and discovery. Technically, quantum gravity, a bestselling novel, or a yet undiscovered proof of the Riemann Hypothesis is "in my distribution", but when we are talking about a long chain of unlikely token completions (with multiplicative probabilities), whether that trajectory lives in the tail of the distribution vs. in the mode makes all the difference.

Would you agree that it is a matter of degrees rather than a qualitative distinction? There seems to be a broad misconception in Sutton and others that output quality cannot exceed that of the base internet distribution; my point is that RL allows you to easily produce an output distribution that is better than whatever data you trained on according to some evaluation criteria. There are no clear theoretical limits on how much better it can get, rather there are many people asserting guesses that there is an upper bound and it lives below "human creativity." I just haven't seen any solid theoretical argument, and the empirical evidence has so far shown continual improvement.

Also, I would be keen to look at any sources you have of pass@k not improving much during GRPO.
highfrequency
·先月·議論
The model’s distribution will certainly change from the base model’s output distribution during reinforcement learning, shifting toward outputs that score well on an external evaluation. This is very different from mode-seeking. Am I missing something?
highfrequency
·先月·議論
> RLVR still does not expand beyond the base distribution though, it only mode-seeks within it.

Seems clearly false. Pretraining finds the mean/mode of the data distribution. RL can easily generate many samples around that mode, evaluate them on an external source of truth (eg compile the code and run it) and then selectively train on the good samples. This clearly can go beyond the initial data distribution.
highfrequency
·先月·議論
Unless I'm missing something, this argument seems to apply only to the original pretraining era (eg GPT 1-4). The post-training and reinforcement learning paradigms are clearly doing variation, evaluation and selective retention no?
highfrequency
·先月·議論
In particular, good to marinate beyond the (typically 6 month) lockup period during which investors cannot sell stock
highfrequency
·先月·議論
Makes a lot of sense that Musk should do the parts of the AI stack that look more like manufacturing/regulatory bottlenecks, and rent out the compute to research-focused AI labs. Does anyone know the full accounting of how much it cost to build Colossus (plus ongoing opex) vs. the revenue it's generating now?
highfrequency
·2 か月前·議論
> now they’ve thrown down the gauntlet directly challenging frontier labs by training their own model (“much larger” than Kimi 2.5’s 1T parameters) from scratch.

To clarify, the model Composer 2.5 announced in this post is not that; it uses Kimi 2.5 as a strong starting point. This is not to discount Cursor's work or future ambitions, but one of the most striking things about the last 6 months is that multiple open-source models/labs are now within striking distance of the frontier closed-sourced labs.

See eg Kimi 2.6 benchmarks: https://www.kimi.com/blog/kimi-k2-6
highfrequency
·2 か月前·議論
> LLMs have got to the point where if a problem has an easy argument that for one reason or another human mathematicians have missed (that reason sometimes, but not always, being that the problem has not received all that much attention), then there is a good chance that the LLMs will spot it.
highfrequency
·2 か月前·議論
What’s wrong with the finance team (vibe) coding a janky prototype for planning?
highfrequency
·3 か月前·議論
Why do you prefer the laptop to be thicker and heavier?
highfrequency
·3 か月前·議論
I believe that's why 90% of the focus in these firms is on coding. There is a natural difficulty ramp-up that doesn't end anytime soon: you could imagine LLMs creating a line of code, a function, a file, a library, a codebase. The problem gets harder and harder and is still economically relevant very high into the difficulty ladder. Unlike basic natural language queries which saturate difficulty early.

This is also why I don't see the models getting commoditized anytime soon - the dimensionality of LLM output that is economically relevant keeps growing linearly for coding (therefore the possibility space of LLM outputs grows exponentially) which keeps the frontier nontrivial and thus not commoditized.

In contrast, there is not much demand for 100 page articles written by LLMs in response to basic conversational questions, therefore the models are basically commoditized at answering conversational questions because they have already saturated the difficulty/usefulness curve.