Congratulations! I’ll be interested to see the next steps in alignment. Do you plan to start selling access, or collect more data to train bigger & better? What tasks or benchmarks are your biggest guide stars, or what was unexpectedly tricky—a few are hinted in the post.
It would be pretty interesting to see activation maps for the encoder on video, confidence building to see the compression derived from so much training.
nee1r 29 minutes ago [-]
we have an alignment blog post dropping soon! scaling up in the next couple of months, then hopefully opening up an API or licensing it.
Benchmarks are really fun—lots of secret ones. Our main thesis is that you should be using the same benchmarks to measure human ability to use a computer, as you would an AI model. Definitely a suite of continuous long term planning tasks (games) and things such as marking emails as spam etc.
definitely! we are looking into more interp + visualizations in general as we scale up.
nee1r 2 days ago [-]
Hey guys! I’m Neel, been holed up in our south park office for the past year working on model training. excited to share our research!
This is a preview of a very different type of computer use model—we train on the internet. Specifically we have 11 million hours of computer video stored on our storage cluster (previously shared https://news.ycombinator.com/item?id=45438496 !) and the model can work in 30 FPS. Since we match the fundamental form factor of computer-use, we can get our model to do CAD, browse websites, and even drive a car using arrow keys. I’m super excited to see what our model can do as we scale more, it's a fun frontier to work on (not language models :) ).
The team and I will be online responding to the comments, so drop any questions.
ilaksh 2 hours ago [-]
How do I access this? Any HF or API coming?
Any benchmark comparisons to Fara-7B or Sonnet 4.6, Qwen 3.5 etc.?
dangoodmanUT 3 hours ago [-]
11 million hours of data is a lot, did you have to synthesize it at all, or was it purely collected?
nee1r 1 hours ago [-]
collected! no synthetic
AndrewKemendo 3 hours ago [-]
This looks like a really promising approach
In particular the Forward rollout module is very important. It aligns your (effectively) world model with what it expects from the world, and keeping those in sync I think gives this the power it needs to be able to generate the state action pairs to continuously train semi supervised
arkmm 2 hours ago [-]
Get ready for the acquisition offers.
kylenessen 2 hours ago [-]
This seems like really great research, and the first time I’ve seen overwhelming praise on HN. Congrats!
I wanted to comment though that your title is not doing you any favors, and I suspect that is why this is not getting more traction (which it deserves). I fully expected some half baked GitHub repo, but instead found something truly awesome.
To use your own words, Neel, “ a very different type of computer use model” would have had me clicking faster. I’m not great at titles, however, and maybe there are better ideas out there.
Anyway, can’t wait to see how this develops! Especially looking forward to the CAD work.
nee1r 1 hours ago [-]
cool thanks for the title idea!! hopefully when we scale up in the next month/two we can update the community
theredsix 21 minutes ago [-]
This is one of those hacker news posts that you stumble upon and see 2 genius ideas within the span of as many paragraphs. Thanks again for sharing the diffusion based labeling algorithm. Truly demonstrates a mastery and understanding of what diffusion is capable of.
clemvonstengel 2 days ago [-]
I rly liked the point about ctrl-c only being able to be labelled retrocausally. I do think that with enough past context you should be able to know what was copied - in some sense the past does encode the future - but also an agentic decision is precisely the kind where the future is more informative than the past for reconstructing that decision.
It does make me wonder if you should have the inverse dynamics model split into specifically retrocausal and causal. You kind of do this already with the inverse and forward dynamics model, but the idea of a model that knows only
about the future training in a feedback loop with a model that knows only about the past is kind of interesting.
I think you could just do a clever masking regime in your diffusion model to achieve the same effect without a whole architecture change.
g413n 2 days ago [-]
yeah we actually had some wacky ideas with ctc + a reverse-causal mask but diffusion does just make it all a bit more simple
cs702 4 hours ago [-]
At first glance, this looks incredible to me. The authors train one model on 40K hours of computer-use video, previously labeled by contractors with keyboard and mouse actions, then use that model, in effect, to label 11M hours of computer-use video, which they use to train the computer-action model. The key advance is in compression. Quoting from the OP:
> [previous models] burn a million tokens to understand just one minute of 30 FPS computer data. Our video encoder encodes nearly 2 hours of video in the same number of tokens—that’s 50x more token-efficient than the previous state-of-the-art and 100x more token-efficient than OpenAI’s encoder.
While I was already aware that there are people working on new, more efficient "world models," this is the first one I've seen in action. I'm a bit in shock at how good it is, quite frankly.
I've added the OP, as well as a related 2018 paper on Behavioral Cloning from Obervation (BCO) to my reading list.[a] So far, I've only skimmed the 2018 paper, but it's already evident that it's well-written. I'm no expert in deep RL, and I can understand it. BTW, "Behavioral Cloning from Obervation" is a really good name, with an easy-to-remember acronym.
yeah! i love the BCO paper, i think its extremely intuitive and these methods are really interesting in a time where data without labels is abundant. i especially like the idea of iteratively making the inverse dynamics better—might lean closer to that in the future
alyxya 2 days ago [-]
This looks extremely impressive, really deserves more attention here.
Are the inverse dynamics and forward dynamics models trained separately? It sounds like if the inverse dynamics model is meant to extrapolate more training data, then perhaps all that means is it takes very little data to generalize directly with the forward dynamics model assuming the right architecture.
nee1r 1 days ago [-]
thanks! the inverse dynamics model is trained first on 40k hours of data and then frozen to label all 11 million hours. yup! the idea is that it should take a small amount of data to generalize environment dynamics, then you can use a lot of data to understand actions.
nextzck 2 hours ago [-]
I think you guys are on the right track here. I’d love to learn more about the math behind the FDM. I don’t think folks realize how behind we are on vision, thank you for your work here.
nee1r 1 hours ago [-]
thanks! the math and architecture of the FDM (no video encoder) is pretty simple, its a regular transformer with next-token predictions but with frames interleaved.
ripped_britches 2 hours ago [-]
Looks extremely impressive! Genuine question - why are you sharing your methods openly? I am grateful for it, but just curious your motivations.
vessenes 3 hours ago [-]
dammmmmmnnnn - lots to like here. I'm impressed with the 80,000 parallel website fuzzing desktops. And the 30hz (everything). Amazing.
user- 2 hours ago [-]
Really really cool. I appreciate the article style a lot too.
aakashks 2 days ago [-]
The video compression is very cool. And the small tricks like binning the mouse movements.
Wonder how much data is generalizable across different UIs? ie how good will the model be at using Figma if it’s never seen it before but has seen a lot of Photoshop
nee1r 2 days ago [-]
this is honestly an issue for the inverse dynamics (for app specific shortcuts etc.) but for general UI learning we still see promising eval trends
piva00 4 hours ago [-]
Just wanted to say: this is might impressive research.
Really interesting breakdown, proper nerdsniped into this, thanks for the refreshing AI news outside of language models :)
sp1nningaway 4 hours ago [-]
May I suggest a driving demo in a parking lot with a mannequin instead of a real world video where it drives way too close to a pedestrian?
Otherwise, very cool and exciting!
nee1r 1 hours ago [-]
safety was important for the demo, the model didn't have access to the brake or accelerator.
rio_popper 2 days ago [-]
Curious about the masked diffusion IDM choice. They mention CTC loss and cross-entropy both underperformed — I'd love to see ablations on that. The claim that typos were "extremely common" with non-causal cross-entropy is interesting but hand-wavy without numbers.
nee1r 2 days ago [-]
the main chain of experiments was trying causal => non-causal => non-causal with ctc and CE. i think a good intuition here is that you need a generative approach fundamentally because there definitely are multiple correct IDM labels.
ennucore 2 days ago [-]
The car thing is very impressive
By the way, do you have plans to handle the computer’s audio output?
g413n 2 days ago [-]
yeah we've done audio work in the past so we'll def merge the recipes at some point, long term should have full io that a human has (except maybe not generating video for video calls that seems a bit much)
ClaireBookworm 2 days ago [-]
What sort of fine tuning data was needed to allow the model to self-drive? One hour of video of someone driving, or extra labeling?
nee1r 2 days ago [-]
i actually drove the car (with arrow keys) around south park for around ~45 minutes as finetuning data, no extra labelling other than that. think the car line graph is super cool because you actually see the videegame prior working
g413n 2 days ago [-]
relevant note is that we finetuned by having the human also use arrow keys which keeps it in-distribution but also slower to collect
bananzamba 2 hours ago [-]
Very impressive stuff!
Can you prompt it or is it strictly Copilot-style prediction?
nee1r 1 hours ago [-]
planning on instruct tuning soon!
wasmainiac 4 hours ago [-]
Can it defeat captchas?
kdrag0n 2 days ago [-]
what tasks can the model do out of the box? was each of the examples a different fine tuned model?
g413n 2 days ago [-]
it's a pretty general policy but this is all super early, it's great at exploring websites so fuzzing was easy, for CAD it has good enough base rates with the few-shot prompt when we do the repetitive stuff, and we gave it checkpoints on each step, the other stuff in the mosaic are just some of our favorite clips from internal evals
LorenDB 3 hours ago [-]
Nice that it can drive a car, but you could just use openpilot.
davidguetta 3 hours ago [-]
Beware of ending up on the top page of "things HN didn't like" with such a comment (see post a few days ago)
ennucore 2 days ago [-]
How do you tokenize the mouse inputs?
nee1r 2 days ago [-]
good question! we use exponential binning (map the mouse movements onto a plane with exponentially increasing tick marks https://si.inc/fdm1/exponential_binning.webp) but tried a bunch of other methods (linear creates too many tokens for the model to learn well). Polar coordinates seem like a better solution but empirically didn't work well because the tokens got too coarse too fast.
rao-v 23 minutes ago [-]
It’s interesting that you invest in mouse movements vs just targeting a click at X in Y milliseconds. CAD and video games are of course a great reason for this, but I wonder how much typical tool use can be modeled by just next click events.
I’d love to see this sort of thing paired with eye tracking and turned into a general purpose precog predictive tool for computer use … but you probably have many better use cases for your world model!
g413n 2 days ago [-]
we do exponential binning but fwiw I think we can do way better just hasn't been the main research area initially
bitwize 3 hours ago [-]
Looks like it's playing the special stages from Knuckles' Chaotix?
152334H 1 days ago [-]
holy crap, this is so good. How did it get buried?
yoyohello13 4 hours ago [-]
Too technical for HN
nee1r 1 days ago [-]
real
sheepscreek 3 hours ago [-]
Are you guys affiliated with Meta’s ex-CTO in any way? I remember he famously implied that LLMs hyped. The demos are very impressive. Does this use an attention based mechanism too? Just trying to understand (as a layman) how these models handle context and if long contexts lead to weaker results. Could be catastrophic in the real world!
sheepscreek 2 hours ago [-]
I think in the long run, we may need something like a batch job that compresses context from the last N conversations (in LLMs) and applies that as an update to weights. A looser form of delayed automated reinforcement learning.
Or make something like LoRA mainstream for everyone (probably scales better for general use models shared by everyone).
Obscura- 4 hours ago [-]
Amazing!
2 days ago [-]
akoboldfrying 3 hours ago [-]
My tech-informed but ML-ignorant take: This will soon be the biggest thing since ChatGPT.
aplomb1026 2 hours ago [-]
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snowhale 2 days ago [-]
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nee1r 2 days ago [-]
no finetuning data for the blender task! we actually think its the opposite, there are a lot of video tutorials for complex tasks like onshape/blender/fusion360 but not as much of people idly browsing.
but also at the 11M hour scales it still sees a substantial amount of data
Rendered at 02:20:37 GMT+0000 (Coordinated Universal Time) with Vercel.
It would be pretty interesting to see activation maps for the encoder on video, confidence building to see the compression derived from so much training.
Benchmarks are really fun—lots of secret ones. Our main thesis is that you should be using the same benchmarks to measure human ability to use a computer, as you would an AI model. Definitely a suite of continuous long term planning tasks (games) and things such as marking emails as spam etc.
definitely! we are looking into more interp + visualizations in general as we scale up.
This is a preview of a very different type of computer use model—we train on the internet. Specifically we have 11 million hours of computer video stored on our storage cluster (previously shared https://news.ycombinator.com/item?id=45438496 !) and the model can work in 30 FPS. Since we match the fundamental form factor of computer-use, we can get our model to do CAD, browse websites, and even drive a car using arrow keys. I’m super excited to see what our model can do as we scale more, it's a fun frontier to work on (not language models :) ).
The team and I will be online responding to the comments, so drop any questions.
Any benchmark comparisons to Fara-7B or Sonnet 4.6, Qwen 3.5 etc.?
In particular the Forward rollout module is very important. It aligns your (effectively) world model with what it expects from the world, and keeping those in sync I think gives this the power it needs to be able to generate the state action pairs to continuously train semi supervised
I wanted to comment though that your title is not doing you any favors, and I suspect that is why this is not getting more traction (which it deserves). I fully expected some half baked GitHub repo, but instead found something truly awesome.
To use your own words, Neel, “ a very different type of computer use model” would have had me clicking faster. I’m not great at titles, however, and maybe there are better ideas out there.
Anyway, can’t wait to see how this develops! Especially looking forward to the CAD work.
It does make me wonder if you should have the inverse dynamics model split into specifically retrocausal and causal. You kind of do this already with the inverse and forward dynamics model, but the idea of a model that knows only about the future training in a feedback loop with a model that knows only about the past is kind of interesting.
I think you could just do a clever masking regime in your diffusion model to achieve the same effect without a whole architecture change.
> [previous models] burn a million tokens to understand just one minute of 30 FPS computer data. Our video encoder encodes nearly 2 hours of video in the same number of tokens—that’s 50x more token-efficient than the previous state-of-the-art and 100x more token-efficient than OpenAI’s encoder.
While I was already aware that there are people working on new, more efficient "world models," this is the first one I've seen in action. I'm a bit in shock at how good it is, quite frankly.
I've added the OP, as well as a related 2018 paper on Behavioral Cloning from Obervation (BCO) to my reading list.[a] So far, I've only skimmed the 2018 paper, but it's already evident that it's well-written. I'm no expert in deep RL, and I can understand it. BTW, "Behavioral Cloning from Obervation" is a really good name, with an easy-to-remember acronym.
Thank you for sharing this on HN.
[a] https://arxiv.org/abs/1805.01954
Are the inverse dynamics and forward dynamics models trained separately? It sounds like if the inverse dynamics model is meant to extrapolate more training data, then perhaps all that means is it takes very little data to generalize directly with the forward dynamics model assuming the right architecture.
Wonder how much data is generalizable across different UIs? ie how good will the model be at using Figma if it’s never seen it before but has seen a lot of Photoshop
Really interesting breakdown, proper nerdsniped into this, thanks for the refreshing AI news outside of language models :)
Otherwise, very cool and exciting!
Can you prompt it or is it strictly Copilot-style prediction?
I’d love to see this sort of thing paired with eye tracking and turned into a general purpose precog predictive tool for computer use … but you probably have many better use cases for your world model!
Or make something like LoRA mainstream for everyone (probably scales better for general use models shared by everyone).
but also at the 11M hour scales it still sees a substantial amount of data