• SwellJoe an hour ago

What I most want to see it compared to is Gemma 4 12B in the 4-bit QAT version. It's barely bigger than this at just under 7GB, so it also runs on just about any modern device and is remarkably smart for its size. It's an excellent tool user, crazy good vision for its size. I'm still trying to wrap my head around how much is lost with each step down in resolution, but the QAT versions from Google seem to prove the answer is "very little" at four bits.

• verdverm an hour ago

4bits is a cutoff point for many model families, but also depends on what parts you quant to 4bits vs alternatives (weights, weight+activation, kv cache). Also depends on model size and task, lots of nuance in quanting I've come to learn.

Good evaluation from 2024 https://arxiv.org/pdf/2402.18158

I'm currently working towards an updated version (not an og author), curious if others are aware of similar surveys, as I have yet to do a real lit search.

• motbus3 2 hours ago

I need help understanding this. I understood that the magic here is the quantization that allows it to use from 50G to 4G and their process retain most of the intelligence within Pareto limits of gain. And then they proceed to compare with other quantized models as in the level of intelligence per size. It gets to my attention though that the performance in tool calling is mostly affected which is a problem for other small models.

How does this model compare to a recent 4G model? How do we know it retained intelligence from the parent rather then being fine tuned for the benchmarks?

I am not shtng on them or anything. I'd rather find it amazing, BUT given my limited knowledge, I feel the results miss fair comparison plots and the ones might be misleading. Buy I also reckon it might be me the problem. Anyone care to explain this poor silly fellow some of those points?

• jedbrooke an hour ago

from what I understand prismml isn’t doing a quant like normal models where you take a model trained at fp16 and then chop off some bits to reduce vram, but rather they’re training the model natively with 1 bit weights. It’s explained more in the article. They’re also doing some other tricks like a fp16 weight per block of 128 1bit weights to get some more data out of 1 bit weights

• kristianp 3 hours ago

Apparently Apple is "in talks" with the PrismML: https://www.cnbc.com/2026/07/14/apple-prismml-ai-compression...

• CharlesW an hour ago

Notably, PrismML CEO Babak Hassibi told CNBC this, so it’s either (1) bullshit, or (2) he just ended any chance of a relationship by leaking news of the talks.

• rogerkirkness an hour ago

Apple would punish him severely unless they cleared it in advance, it might be to their advantage for some reason (negotiating with Google for Gemma rights? idk).

• segmondy 26 minutes ago

Apple is too desperate to be making demands. You confuse the Apple of yesterday and of today. Things change fast and things have changed.

• mandeepj 6 minutes ago

> Apple is too desperate to be making demands

They don't give a F about AI or any new AI model that was announced this morning. Wasn't there news a while ago about them buying Perplexity?

• conception 10 minutes ago

You’re right, Apple only has 68 billion dollars in cash, up 40% since last year. Definitely on their last legs.

• mgambati 4 minutes ago

Free cash? Crazy. I think I can live with the interest of that in the bank.

• brcmthrowaway 6 minutes ago

I remember the infographics of 5-10 years ago. They had 200 billion. What happened? Sinking ship?

• maxvu an hour ago

The 2000 ATI leak showed up here a few weeks ago.

https://www.theregister.com/on-prem/2000/08/02/jobs-snubs-at...

• thakoppno an hour ago

either way, maybe a portent for the times.

apple’s secrecy agenda has been defeated to an extent by the practicalities of ubiquitous technology?

• Heliodex 7 minutes ago

Nice to see a larger model in their lineup, I've been using Ternary 8B and it seems to get higher TPS than most other similarly sized models on my hardware.

• Arcuru 2 hours ago

Awesome! I've been waiting for them to start scaling ternary models for over a year[1]. Excited to try it out, typical Qwen 27B is too heavy for me to run on my local hardware at reasonable speeds.

[1] https://jackson.dev/post/dont-sleep-on-bitnet/

• drob518 an hour ago

Same here. I’m excited to have a model that might be usable on a 16 GB laptop.

• simonw 3 hours ago

The models themselves are showing up on Hugging Face here: https://huggingface.co/prism-ml/models

I've tried a couple in LM Studio - the GGUF one and the MLX one - but neither worked there. Anyone else get them to work? Might be that LM Studio needs to upgrade their llama.cpp or MLX engines first.

• bansaltushar 2 hours ago

Depending on which model you're running, you might need to use the custom forks.

Details are here -> https://github.com/PrismML-Eng/Bonsai-demo/blob/main/README....

• motbus3 2 hours ago

I spent quite sometime trying to install their tools and nothing really worked. I used these repos you shared but the dependencies all fail on mac

• PrismML an hour ago

If you can share details on where it is failing, we'd love to help fix.

You can also join Discord to communicate with us directly http://discord.gg/prismml

• motbus3 an hour ago

I did not know you guys would be watching. For sure. Let me do that tomorrow when I turn it on again :) I am happy to see the message. Thanks!

• trollbridge 2 hours ago

Didn't work for me in Unsloth, but it will probably be fixed in a day or two when the next batch of updates comes out.

• bilsbie 9 minutes ago

What data type stores one bit? Does it offer opportunity for more efficient matmuls?

• athrowaway3z 21 minutes ago

So first off, phenomenal stuff to see a 1bit model at 90% capability.

However, this is the 5th product post in 2 weeks that proclaims that AI use is shifting, and why [insert tradeoffs] are the perfect fit.

Paradigms shift don't happen in the release announcements.

I suspect this is an AI-ism, making all the release posts sound so paradigmshiftery.

• jrflo 17 minutes ago

That is true of all tech announcements. Marketers will do their thing regardless of reality.

• alvatech 4 hours ago

TIL that 1 bit models are actually 1.58 bit with three values +1, 0 and -1

• NitpickLawyer 3 hours ago

There's two variants of this (or, as the joke goes, for very big values of bit):

Ternary Bonsai 27B uses ternary {−1, 0, +1} weights with FP16 group-wise scaling, giving a true 1.71 effective bits per weight.

1-bit Bonsai 27B uses binary {−1, +1} weights with the same group-wise scaling, giving 1.125 effective bits per weight.

• PcChip 2 hours ago

this is a really dumb question, but how is -1 represented?

is it a float? if so, how many bits is the float?

I've never heard of a bit ever having more than two possible values

• edflsafoiewq an hour ago

It appears they are using Q2_0 in llama.cpp, which is 2 bits per weight + 1 float16 scale per group of 64 weights. This is inefficient in two ways: one bit pattern is wasted on each weight, since ternary weights only use {-1,0,1} and Q2_0 allows {-1,0,1,2}; and their group size is 128 weights, so the scale will be stored twice in two groups of 64 instead of stored only once in one group of 128.

Their fork corrects the second inefficiency by using a group size of 128, but still uses 2-bit weights AFAICT.

It's possible to pack 5 trits into a byte, but the unpacking is not very efficient. Another recent idea is to add the constraint that exactly one weight in each group of four be zero, which gives exactly 32 possible states, so it fits in 5 bits.

• lioeters an hour ago

> never heard of a bit ever having more than two possible values

It's not represented by a "bit", binary digit with value of 0 or 1; but with a "trit", ternary digit with value of {−1, 0, +1}.

• petu 2 hours ago

packing multiple trits together

e.g. 5 trits (243 states) into a byte gives 1.6 bits per trit: https://compilade.net/blog/ternary-packing

• JoshTriplett an hour ago

It's impressive how close to optimal this is.

You can beat the efficiency of 5 trits in 8 bits (1.6) with as few as 17 trits in 27 bits (~1.588), but once you account for rounding up to a whole number of bytes for practical reasons, then beating the efficiency requires going to at least 111 trits in 176 bits (~1.586), or perhaps more practically for fast unpacking, 161 trits in 256 bits (~1.59).

At that level, even if you have, say, 27B trits, the more efficient encodings would save something like 38-45MB (theoretical limit ~48MB), likely at the cost of some slowdown.

• zawaideh 2 hours ago

It’s still a bit with only two possible values. But they add a scaling factor to a group of them (128 for example) which when you factor in, results in a fractional number of bits per parameter.

• throwawayffffas 2 hours ago

I believe the scaling comes in later, to turn the 1 and -1 into large numbers that may or may not activate the next layer.

The way they do it is packing like the other comment says.

Each byte represents 5 trinary values instead of 8 binary, and there is a little bit of waste.

• Dwedit 19 minutes ago

1.6 bits if you want the most practical way to pack five 3-state numbers into a single byte. But even then, they usually pack four 4-state numbers instead.

• bensyverson 4 hours ago

Yeah, it's an unfortunate convention from the very first "1 bit" model. But to be clear, Bonsai comes in both ternary and actual 1-bit variants.

• comandillos 2 hours ago

Quite weird that heavy quantization method on a dense model gives better results than slightly quantized MoE models like 35B-A3B from Google.

At this point all the different quantization and 'compression' (look at MPO applied to LLMs...) techniques start feeling a bit like snake oil. It's just gut feeling - or scores on benchmarks models are optimized for - what ends up deciding whether a technique is good enough or not.

• erwan577 3 hours ago

The KV-cache memory usage also seems remarkably frugal, even at the full context length. That could make this model particularly useful in multi-agent coding workflows.

I wish KV-cache memory usage and related optimizations were discussed more clearly in new model announcements and demos.

• verdverm 2 hours ago

quanting kv cache hurts attention / recall, and long-form tasks by proxy. Model families and sizes have different tolerances to quant ting different parts of the model, same for intended tasks.

• liuliu 4 hours ago

The problem, of course, is if you run the UD_Q2 variant (Unsloth) which does only post-training, the number is pretty close to 1-bit model here and the 5% drop in tool-call is significant than it suggests in real-life use cases.

• liuliu 4 hours ago

You also need to pay close attention to BFCLv3 multi-turn result, that helps you to get a sense how frequently these quants will be in a doom loop.

• h14h 2 hours ago

I'm curious what kind of results one could get from combining the clever quantization PrismML is doing here with something like LiquidAI's antidoom:

https://github.com/Liquid4All/antidoom

• sigbottle 3 hours ago

What's the hiring space and business strategy around all of these smaller AI labs? Its really cool that people like these guys get paid to optimize models and give them out for free (open source). Do a lot of these labs have forward deployed engineers doing integrations with customers who want local models? Is there a general shift towards the local model crowd?

• trollbridge 2 hours ago

If you read to the bottom of the page, it says they're funded by a few people, and one of them is Samsung. I'm betting Samsung wants to be able to ship a capable AI system on a future model of their phone so they can compete with Apple.

• doctoboggan 2 hours ago

Agreed, and the prevailing wisdom now seems to be that unless you can release a truly frontier model, you might as well release yours as open source to undercut your competition.

• ndrwdvvs an hour ago

or smart fridge

• thomasjb 3 hours ago

I've been watching and waiting for this, interested to see how smart it is, as it fits with my interest of getting the smartest possible model running in 10GB of VRAM (RTX3060 that has to drive 2 monitors and run an llm)

• dakolli 2 hours ago

start saving your money.

• thomasjb 3 minutes ago

Or watch and wait as models get denser

• luckystarr 3 hours ago

Tried it on Android and got "!!!!!!!!!!!!!" for answers.

• gunalx 2 hours ago

The qwen models really seem to have this as a failure mode, its so annoying having a proper trace ending up in !!!!!! Garbage.

• amelius an hour ago

Wait in a regular sentence, what is the probability of "!!!" being followed by "!"?

Sounds like the model is not following a proper probabilistic choice here, so maybe more a programming error than a model training error.

• jldugger 24 minutes ago

After the third !, the probability of a fourth probably skyrockets =)

• verdverm 2 hours ago

That's what happens when you quant too hard. I'm working on quant strats and evals for the same underlying qwen 27b models.

When I saw 27b on a phone, I thought not fitting, big phone, or aggressive quant. NVFP4 still takes 27G before KV cache.

• syntaxing 3 hours ago

For those curious about their demo, I’m pretty sure it’s using Locally AI (iOS only) that lmstudio acquired/aquihired a couple months ago.

• trvz 43 minutes ago

I still don’t see the point of this. In my testing, it’s worse than Qwen 3.5 4B and even 0.8B.

• kamranjon 2 hours ago

After using a highly capable 2-bit quant as my daily driver for months now, I get pretty excited about releases like this. After a few days for the kinks to be worked out, I’ll be excited to try it.

• digdugdirk an hour ago

What model? And what hardware do you run it on?

I find these style of models are great, but fail hard, and fail randomly. I'd be hesitant to use it for a daily driver, but I'm using dual 3060s, so it's not like I'm quantizing a frontier model here.

How do you find the overall experience? And do you have any special sauce or recommendations for going this route?

• kamranjon an hour ago

I’m using DeepSeek V4 Flash on 128gb mbp - it’s a bit different using a 200b+ param model. It’s MoE so performance is acceptable. It will still malform a tool call every now and then, but the capabilities are so far ahead anything else that the majority of the time it works really well and solves really complex problems.

• RALaBarge an hour ago

What have you been using?

• kamranjon an hour ago

DeepSeek V4 Flash with DwarfStar: https://github.com/antirez/ds4

The 2 bit quants are really good. I have a lot of memory so I can squeeze it all in at ~80gb.

• syntaxing 3 hours ago

I don’t know if the llama cpp implementation is wonky (and only supports the binary version) but it’s a lot slower than 35B-A3B @ Q4_KM + MTP with CPU offloading.

• pulse7 3 hours ago

Most probably not optimized yet for this model...

• Luker88 an hour ago

Nice!

Do they have plans to bring even bigger models down to ~16GB VRAM so that more consumer hardware might be useful?

• verdverm an hour ago

bigger quant'd harder is not always better than a model of more modest size and quant

• drob518 an hour ago

This is going in a good direction.

• xyzsparetimexyz 3 hours ago

That's awesome. What's the largest model that could fit onto a single 16gb gpu at 1.125 effects bits per weight?

• Catloafdev 3 hours ago

Doing some naive math, the F16 filesize is ~53.8gb, the 1-bit version is ~3.8gb, about 7% of the original size. The F16 size is roughly 2x param count, so that gives a rough ballpark of ~110B.

• kroaton 24 minutes ago

Which would be very interesting to test, as larger models (such as Deepseek V4 Flash or Qwen 397B) seem to compress better. Their Q2 quants are usable as is, even without the ternary compression.

• drob518 an hour ago

Yep, that’s the question. I asked just that when Bonsai’s first models got released. Super interesting if we can push the parameter count over 100B with 1.125 bit quantization and still keep pretty good performance versus 16-bit 100B models. That’s a definite sweet spot.

• verdverm an hour ago

Preliminary analysis via lm-evaluation-harness + vllm

    model         | disk | wikitext | gsm8k (match/error)
    baseline      | 55G  | 8.00     | 0.50/0.09
    nvfp4-gptq    | 27G  | 8.25     | 0.47/0.9
    nvfp4a16-gptq | 27G  | 8.11     | 0.53/0.9
    bonsai-4bit   | 19G  | 16.75    | 0/0
Looks like they quant'd too hard at 4 bits, can't imagine the ternary being any good based on this. I'm also not sure what is up with the gsm8k, their benchmarks show something different, but they are using another eval tool. I'll have to add it to my setup. Also why I'm building a setup instead of taking model devs word for benchmarks. (https://github.com/modelscope/evalscope)

Code if you'd like to reproduce or try other test sets: https://github.com/verdverm/quantr (lightly tuned to a single oem spark, probably possible in 32-48G)

Good paper to understand the effects of quant regimes across model families and tasks: https://arxiv.org/abs/2402.18158 (Evaluating Quantized Large Language Models - 2024 ICML)

• 0xbadcafebee 2 hours ago

27B is way more than you need for a phone. Doesn't matter how much you try to compress it, it's the wrong application of the wrong tool. There are already useful tiny models that fit on phones and do basic things really well. Dumb down a big model too much and it becomes worse than a small fine-tuned model.

• wy35 2 hours ago

Entire blog post seems to be AI-generated :/

• wmf 2 hours ago

Do you think people who work on AI for a living are not going to use it?

• wy35 an hour ago

Of course not, personally almost all of my code these days is generated.

The LLM style of writing is just very distracting to read. “It unlocks X”, “Y changes the equation”, and why is there always something shifting? Makes my eyes glaze over in an otherwise interesting post.

• arjie an hour ago

The text is mostly content-free. Headline + charts are enough for most HN stories.

• Havoc 4 hours ago

This must be some sort of unpublished app?

I can just see their image tool on the app store

• smallerize 19 minutes ago

One of the links on the sidebar goes to "Locally AI" https://apps.apple.com/us/app/locally-ai-by-lm-studio/id6741... it requires an iPhone 17 Pro or Pro Max to run the 27B model though.

• Catloafdev 3 hours ago

It's a LLM model, not a phone app.

Available on HuggingFace: https://huggingface.co/collections/prism-ml/bonsai-27b

• Havoc an hour ago

Indeed.

The article is about running it on a phone though, and shows an app with their branding running this in text mode on a phone. I'm asking where can I find this app to try what is being demonstrated in this article & video? Appstore only has an image gen app by them and other MLX apps I've tried don't seem to support this model

• erelong 3 hours ago

I was trying Ornith 9B locally (it's up on Ollama) which claims:

> Ornith-1.0-9B, which can be easily deployed on edge devices, matches or exceeds the performance of much larger models such as Gemma 4-31B and Qwen 3.6 35B.

https://deep-reinforce.com/ornith_1_0.html

Only tried it so much so far; it did a little better than Qwen 9B

• liuliu 3 hours ago

Note that 3.5 9B cannot do thinking (while 3.6 27B can, pretty effectively, quite verbosely).

• gunalx 2 hours ago

3.5 9B can do thinking. Its just disabled by default in its gguf chat template.

• liuliu an hour ago

It is disabled because it doesn't work :) Try it and see the doom loop it gets itself in.

• b89kim 5 minutes ago

I had no failure mode in 3.6 9B thinking with llama.cpp. After release, there were updates for both model and llama.cpp.

• janalsncm 3 hours ago

Is that a 1-bit LLM? I don’t understand the connection with this article.

• erelong 2 hours ago

Oh, I don't actually know the difference if you want to explain it

The title says it's 27B grade running on a phone and what I was comparing it to in my mind was a model that runs at 35B grade that could presumably run on a phone "better"?

edit: I asked AI for the difference and understand a little better, thanks for the heads up to learn the difference between models... I think the thing was, although ornith was created for a specific agentic purpose, it was still outperforming a previous generalist model I had running locally (so in my mind I thought it was still a better local model) - I'd like to try bonsai out if I can figure out how to run it lol

• verdverm 2 hours ago

Orinth was not impressive in my vibes testing, I just completed my first grid analysis with real evals on qwen 27b. I can now scale that grid analysis and intend to include the qwen 9b ftunes I've seen going around. They were actually a main motivation because so many claim this or that one is better, but very little in the way of evals

• drob518 an hour ago

I tried it, too, and it got stuck in some loops where it couldn’t recover. Shame, it was promising for the same reason as Bonsai’s models.

• verdverm an hour ago

check out geyron-9b, I've only used it a bit, but seems better than orinth on vibe evals

huggingface.co/Tivaphraen/Geryon-9B-v1

• drob518 25 minutes ago

Interesting, thanks. Looking at the model card on Huggingface, it’s combining the Qwythos and Qwable fine tunes from Empero.

• verdverm 18 minutes ago

yea, it's an experiment in merging multiple fine-tuned models

• theLiminator 2 hours ago

This is useful research, but this particular model itself is likely absolutely useless.

• oceansweep 2 hours ago

Why make this comment without having tried it first? It very clearly is not useless and performs a lot better than one might expect. I am currently waiting to do more benchmarks of it in comparison to the full weight model, but it seems promising/better than Mistral Nemo at a lower file size.

• Onavo 2 hours ago

I think what OP means is that the "minimum viable product" for a daily use LLM is probably somewhere around e.g. GPT 4o's level of intelligence (YMMV). Below a certain threshold, you are better off using specialized machine learning models rather than general purpose LLMs. It's very difficult to get that level of intelligence fully local on a mobile device without streaming to the cloud.

• mchusma an hour ago

I do think this would be interesting if they made these easy to finetune, as I do think this level of intelligence is likely sufficient for many applications and could be extremely cheap to run.

• drob518 an hour ago

Evidence?