> I'm most excited for the smaller sizes because I'm interested in locally-runnable models that can sometimes write passable code, and I think we're getting close.

Likewise, I found that the regular Qwen3-30B-A3B worked pretty well on a pair of L4 GPUs (60 tokens/second, 48 GB of memory) which is good enough for on-prem use where cloud options aren't allowed, but I'd very much like a similar code specific model, because the tool calling in something like RooCode just didn't work with the regular model.

In those circumstances, it isn't really a comparison between cloud and on-prem, it's on-prem vs nothing.

30B-A3B works extremely well as a generalist chat model when you pair with scaffolding such as web search. It's fast (for me) using my workstation at home running a 5070 + 128GB of DDR4 3200 RAM @ ~28 tok/s. Love MoE models.

Sadly it falls short during real world coding usage, but fingers crossed that a similarly sized coder variant of Qwen 3 can fill in that gap for me.

This is my script for the Q4_K_XL version from unsloth at 45k context:

llama-server.exe --host 0.0.0.0 --no-webui --alias "Qwen3-30B-A3B-Q4_K_XL" --model "F:\models\unsloth\Qwen3-30B-A3B-128K-GGUF\Qwen3-30B-A3B-128K-UD-Q4_K_XL.gguf" --ctx-size 45000 --n-gpu-layers 99 --slots --metrics --batch-size 2048 --ubatch-size 2048 --temp 0.6 --top-p 0.95 --min-p 0 --presence-penalty 1.5 --repeat-penalty 1.1 --jinja --reasoning-format deepseek --cache-type-k q8_0 --cache-type-v q8_0 --flash-attn --no-mmap --threads 8 --cache-reuse 256 --override-tensor "blk\.([0-9][02468])\.ffn_._exps\.=CPU"

I love Qwen3-30B-A3B for translation and fixing up transcripts generated by automatic speech recognition models. It's not the most stylish translator (a bit literal), but it's generally better than the automatic translation features built into most apps, and it's much faster since there's no network latency.

It has also been helpful (when run locally, of course) for addressing questions-- good faith questions, not censorship tests to which I already know the answers-- about Chinese history and culture that the DeepSeek app's censorship is a little too conservative for. This is a really fun use case actually, asking models from different parts of the world to summarize and describe historical events and comparing the quality of their answers, their biases, etc. Qwen3-30B-A3B is fast enough that this can be as fun as playing with the big, commercial, online models, even if its answers are not equally detailed or accurate.

> good faith questions

yep, when you hire an immigrate software engineer, you don't ask them if Israel has a right to exist, or whether Vladivostok is part of china. Unless you are a DoD vendor which there won't be an interview anyway.

Give devstral a try, fp8 should fit in 48GB, it was surprisingly good for a 24B local model, w/ cline/roo. Handles itself well, doesn't get stuck much, most of the things work OK (considering the size ofc)

I did! I do think Mistral models are pretty okay, but even the 4-bit quantized version runs at about 16 tokens/second, more or less usable but a biiiig step down from the MoE options.

Might have to swap out Ollama for vLLM though and see how different things are.

> Might have to swap out Ollama for vLLM though and see how different things are.

Oh, that might be it. Using gguf is slower than say AWQ if you want 4bit, or fp8 if you want the best quality (especially on Ada arch that I think your GPUs are).

edit: vLLM is better for Tensor Parallel and also better for batched inference, some agentic stuff can do multiple queries in parallel. We run devstral fp8 on 2x A6000 (old, not even Ada) and even with marlin kernels we get ~35-40 t/s gen and 2-3k pp on a single session, with ~4 parallel sessions supported at full context. But in practice it can work with 6 people using it concurrently, as not all sessions get to the max context. You'd get 1/2 of that for 2x L4, but should see higher t/s in generation since you have Ada GPUs (native support for fp8).

Currently, the goal of everyone is creating one master model to rule them all, so we haven't seen too much specialization. I wonder how much more efficient smaller models could be if we created language specialized models.

It feels intuitively obvious (so maybe wrong?) that a 32B Java Coder would be far better at coding Java than a generalist 32B Coder.

I’ll fill the role to push back on your Java coder idea!

First, Java code tends to be written a certain way, and for certain goals and business domains.

Let’s say 90% of modern Java is a mix of: * students learning to program and writing algorithms * corporate legacy software from non-tech focused companies

If you want to build something that is uncommon in that subset, it will likely struggle due to a lack of training data. And if you wanted to build something like a game, the majority of your training data is going to be based on ancient versions of Java, back when game development was more common in Java.

Comparatively, including C in your training data gives you exposure to a whole separate set of domain data for training, like IoT devices, kernels, etc.

Including Go will likely include a lot more networking and infrastructure code than Java would have had, which means there is also more context to pull from in what networking services expect.

Code for those domains follow different patterns, but the concepts can still be useful in writing Java code.

Now, there may be a middle ground where you could have a model that is still general for many coding languages, but given extra data and fine-tuning focused on domain-specific Java things — like more of a “32B CorporateJava Coder” model — based around the very specific architecture of Spring. And you’d be willing to accept that model to fail at writing games in Java.

It’s interesting to think about for sure - but I do feel like domain-specific might be more useful than language-specific

Don't we also find with natural languages that focusing on training data from only a single language doesn't actually result in better writing in the target language, either?

jetbrains have done this with their mellum models that they use for autocompletion, https://ollama.com/JetBrains

fine tuned rather than created from scratch though.

Been using ggerganov’s llama vscode plugin with the smaller 2.5 models and it actually works super nice on a M3 Max

I'm on a m1 max with 64gb ram, but i never use this vscode plugin before. Should I try?

Is this the one? https://github.com/ggml-org/llama.vscode it sems to be built for code completion rather than outright agent mode

It is RAG for your codebase, and provides code completion. The gain is the local inference, and is actually useful with smaller models.

The plugin itself provides chat also, but my gut feeling is that ggerganov runs several models at the some time, given he uses a 192gb machine.

Have not tried this scenario yet, but looking at my API bill I’m probably going to try 100% local dev at some point. Besides vibe coding with existing tools seems to not work that good for enterprise size codebases.

What languages do you work in? How much code do you keep? Do you end up using it as scaffolding and rewriting it, it leaving most of it as is?

Languages: JS/TS, C/C++, Shader Code, Some ESP Arduino code. Not counting all the boilerplate and CSS that I dont care about too much.

It very much reminds of tabbing autocomplete with IntelliSense step by step, but in a more diffusion-like way.

but my tool-set is a mixture of agentic and autocomplete, not 100% of each. I try to keep a clear focus of the architecture, and actually own the code by reading most of it, keeping straight the parts of the code the way i like.

> small models can never match bigger models, the bigger models just know more and are smarter.

They don't need to match bigger models, though. They just need to be good enough for a specific task!

This is more obvious when you look at the things language models are best at, like translation. You just don't need a super huge model for translation, and in fact you might sometimes prefer a smaller one because being able to do something in real-time, or being able to run on a mobile device, is more important than marginal accuracy gains for some applications.

I'll also say that due to the hallucination problem, beyond whatever knowledge is required for being more or less coherent and "knowing" what to write in web search queries, I'm not sure I find more "knowledgeable" LLMs very valuable. Even with proprietary SOTA models hosted on someone else's cloud hardware, I basically never want an LLM to answer "off the dome"; IME it's almost always wrong! (Maybe this is less true for others whose work focuses on the absolute most popular libraries and languages, idk.) And if an LLM I use is always going to be consulting documentation at runtime, maybe that knowledge difference isn't quite so vital— summarization is one of those things that seems much, much easier for language models than writing code or "reasoning".

All of that is to say:

Sure, bigger is better! But for some tasks, my needs are still below the ceiling of the capabilities of a smaller model, and that's where I'm focusing on local usage. For now that's mostly language-focused tasks entirely apart from coding (translation, transcription, TTS, maybe summarization). It may also include simple coding tasks today (e.g., fancy auto-complete, "ghost-text" style). I think it's reasonable to hope that it will eventually include more substantial programming tasks— even if larger models are still preferable for more sophisticated tasks (like "vibe coding", maybe).

If I end up having a lot of fun, in a year or two I'll probably try to put together a machine that can indeed run larger models. :)

> Even with proprietary SOTA models hosted on someone else's cloud hardware, I basically never want an LLM to answer "off the dome"; IME it's almost always wrong! (Maybe this is less true for others whose work focuses on the absolute most popular libraries and languages, idk.)

I feel like I'm the exact opposite here (despite heavily mistrusting these models in general): if I came to the model to ask it a question, and it decides to do a Google search, it pisses me off as I not only could do that, I did do that, and if that had worked out I wouldn't be bothering to ask the model.

FWIW, I do imagine we are doing very different things, though: most of the time, when I'm working with a model, I'm trying to do something so complex that I also asked my human friends and they didn't know the answer either, and my attempts to search for the answer are failing as I don't even know the terminology.

> I feel like I'm the exact opposite here (despite heavily mistrusting these models in general): if I came to the model to ask it a question, and it decides to do a Google search, it pisses me off as I not only could do that, I did do that, and if that had worked out I wouldn't be bothering to ask the model.

When a model does a single web search and emulates a compressed version of the "I'm Feeling Lucky" button, I am disappointed, too. ;)

I usually want the model to perform multiple web searches, do some summarization, refine/adjust search terms, etc. I tend to avoid asking LLMs things that I know I'll find the answer to directly in some upstream official documentation, or a local man page. I've long been and remain a big "RTFM" person; imo it's still both more efficient and more accurate when you know what you're looking for.

But if I'm asking an LLM to write code for me, I usually still enable web search on my query to the LLM, because I don't trust it to "remember" APIs. (I also usually rewrite most or all of the code because I'm particular about style.)

>you might sometimes prefer a smaller one because being able to do something in real-time, or being able to run on a mobile device, is more important than marginal accuracy gains for some applications.

This reminds me of ~”the best camera is the one you have with you” idea.

Though, large models are an http request away, there are plenty of reasons to want to run one locally. Not the least of which is getting useful results in the absence of internet.

All of these models are suitable for translation and that is what they are most suitable for. The architecture inherits from seq2seq and original transformers was created to benefit Google translations.

For coding though it seems like people are willing to pay a lot more for a slightly better model.

The problem with local vs remote isn't so much about paid. It is about compliance and privacy.

For me, the sense of a greater degree of independence and freedom is also important. Especially when the tech world is out of its mind with AI hype, it's difficult to feel the normal tinkerer's joy when I'm playing with some big, proprietary model. The more I can tweak at inference time, the more control I have over the tools in use, the more I can learn about how a model works, and the closer to true open-source the model is, the more I can recover my child-like joy at playing with fun and interesting tech-- even if that tech is also fundamentally flawed or limited, over-hyped, etc.

> HN is weird because at one point this was the location where I found the most technically folks, and now for LLM I find them at reddit.

Is this an effort to chastise the viewpoint advanced? Because his viewpoint makes sense to me: I can run biggish models on my 128GB Macbook but not huge ones-- even 2b quantized ones suck too many resources.

So I run a combination of local stuff and remote stuff depending upon various factors (cost, sensitivity of information, convenience/whether I'm at home, amount of battery left, etc ;)

Yes, bigger models are better, but often smaller is good enough.

The large models are using tools/functions to make them useful. Sooner or later open source will provide a good set of tools/functions for coding as well.

I'd be interested in smaller models that were less general, with a training corpus more concentrated. A bash scripting model, or a clojure model, or a zig model, etc.

Well yes tons of people are running them but they're all pretty well off.

I don't have 10-20k$ to spend on this stuff. Which is about the minimum to run a 480B model, with huge quantisation. And pretty slow because for that price all you get is an old Xeon with a lot of memory or some old nvidia datacenter cards. If you want a good setup it will cost a lot more.

So small models it is. Sure, the bigger models are better but because the improvements come so fast it means I'm only 6 months to a year behind the big ones at any time. Is that worth 20k? For me no.

The small model only needs to get as good as the big model is today, not as the big model is in the future.

There's a niche for small-and-cheap, especially if they're fast.

I was surprised in the AlphaEvolve paper how much they relied on the flash model because they were optimizing for speed of generating ideas.

Not really true. Gemma from Google with quantized aware training does an amazing job.

Under the hood, the way it works, is that when you have final probabilities, it really doesn't matter if the most likely token is selected with 59% or 75% - in either case it gets selected. If the 59% case gets there with smaller amount of compute, and that holds across the board for the training set, the model will have similar performance.

In theory, it should be possible to narrow down models even smaller to match the performance of big models, because I really doubt that you do need transformers for every single forward pass. There are probably plenty of shortcuts you can take in terms of compute for sets of tokens in the context. For example, coding structure is much more deterministic than natural text, so you probably don't need as much compute to generate accurate code.

You do need a big model first to train a small model though.

As for running huge models locally, its not enough to run them, you need good throughput as well. If you spend $2k on a graphics card, that is way more expensive than realistic usage with a paid API, and slower output as well.

> small models can never match bigger models, the bigger models just know more and are smarter

Untrue. The big important issue for LLMs is hallucination, and making your model bigger does little to solve it.

Increasing model size is a technological dead end. The future advanced LLM is not that.

> and now for LLM I find them at reddit. tons of folks are running huge models

Very interesting. Any subs or threads you could recommend/link to?

Thanks

join us at r/LocalLlama

Basically just run ollama and run the quantized models. Don't expect high generation speeds though.

which sub-reddits do you recommend?