| --- |
| license: apache-2.0 |
| language: [en] |
| library_name: safetensors |
| pipeline_tag: image-text-to-text |
| tags: [hobbylm, mixture-of-experts, moe, sparse-moe] |
| --- |
| |
| # HobbyLM-Omni (500M MoE, text + image + audio) |
|
|
| HobbyLM-Omni is the multimodal core: **one** 500M MoE model that handles text, image, video, audio, and speech β plus tool use, OCR, and UI grounding β folded into a single checkpoint across 18 training paths (TinyLLaVA-style projectors over frozen SigLIP2 / Whisper / CLAP front-ends). The headline isn't any single score; it's the **breadth** in one small model. |
|
|
| It's part of the **HobbyLM** family β a 500M sparse-MoE model (and its variants) built from scratch on a |
| hobby budget: FineWeb, a handful of Modal H100 hours, a lot of ablations, and a from-scratch Rust engine |
| ([`hobby-rs`](https://github.com/harishsg993010/HobbyLM)) to run it on a laptop CPU. |
|
|
| ## Intended use |
|
|
| Vision-language and audio-language tasks: captioning, visual QA, OCR, sound/speech understanding, spoken-question answering, and tool calling. Image/audio/speech features are projected and spliced at the `[IMAGE]`/`[AUDIO]`/`[SPEECH]` sentinel tokens (ids 50257β50262). |
|
|
| ## Architecture |
|
|
| Every HobbyLM variant shares one core: a **sparse Mixture-of-Experts (MoE)** decoder in the modern |
| small-MoE style (DeepSeek-V3 / OLMoE lineage), where each design choice was picked by ablation rather |
| than by guesswork. |
|
|
| | Component | Value | |
| |---|---| |
| | Total parameters | ~500M (only a fraction is active per token) | |
| | Hidden size / layers | 768 / 16 (first FFN dense, the rest MoE) | |
| | Routed experts / active | 36 / top-6 (+ 1 always-on shared expert) | |
| | Attention | GQA, 12 query / 3 KV heads, decoupled head-dim 128, per-head QK-norm | |
| | Router | sigmoid gating, DeepSeek-V3 aux-loss-free load balancing, no top-k renorm | |
| | Positional | RoPE (ΞΈ up to 1e6 for the 8k-context checkpoints) | |
| | Tokenizer | GPT-2 byte-level BPE (50,304 vocab, sentinel-padded) | |
| | Optimizer | Muon on the 2-D + per-expert matrices, AdamW on everything else | |
|
|
| The full ablation log (QK-norm is the single biggest lever; aux-loss-free beats classic aux-loss; |
| β₯32 experts and top-6 help; embedding-scaling hurt) lives in the project's architecture notes. |
|
|
| ## Multimodal use |
|
|
| This repo also ships the projector weights β `vision_projector.safetensors` (SigLIP2 β LLM) and `speech_projector.safetensors` (Whisper-mel β LLM), plus `melfilters.bytes`. The frozen front-ends encode the raw image/audio, the projectors map those features into the LLM embedding space, and they're spliced in at the modality sentinel tokens. |
|
|
| ## Benchmarks |
|
|
| Visual QA is scored with **containment** (the model is chat-trained and answers in full sentences, so strict |
| single-word exact-match badly under-scores it): |
|
|
| | Task | Score | |
| |---|---| |
| | VQAv2 (val) | 47.0 | |
| | GQA | 39.2 | |
| | POPE β accuracy / F1 | 50.0 / 66.7 | |
| | Tool calling β Needle (JSON-parse / Name-F1 / param-halluc) | 93.8 / 77.7 / 0.0 | |
| | BFCL (forced-call: simple / multiple) | 21.7 / 18.3 | |
| | Text β lm-eval 9-task avg | 0.432 | |
|
|
| POPE at 50/66.7 is a **real** ceiling β object-presence hallucination ("yes" to everything) is the known |
| small-VLM weakness, quantified. On function calling, Omni *can* call as well as the dedicated tool model |
| (forced-call simple 21.7 β the specialist's 22.7); left to itself it prefers to abstain (irrelevance 86.7), |
| a safer agent failure mode. Speech does spoken-QA and commands rather than verbatim transcription. |
|
|
| > **How these were measured.** All language-model scores are **0-shot** through our own port of |
| > EleutherAI's `lm-evaluation-harness` (a custom `MoELMWrapper` that runs log-likelihood scoring over the |
| > HobbyLM MoE + GPT-2 tokenizer). Reference models in the comparison table were run through the **identical |
| > harness and task set**, so the numbers are apples-to-apples with ours β they are *not* copied from other |
| > model cards. We validated the harness against published cards (e.g. TinyLlama 52.75 vs card 52.99). These |
| > are small research models: read the numbers in context, not as leaderboard claims. |
|
|
| ## Usage |
|
|
| ### Python (PyTorch reference implementation) |
|
|
| HobbyLM is a custom sparse-MoE architecture β there's no `transformers` `AutoModel` for it, so load it with |
| the small reference implementation from the [GitHub repo](https://github.com/harishsg993010/HobbyLM): |
|
|
| ```python |
| # HobbyLM is a CUSTOM sparse-MoE architecture, so load it with the reference implementation β |
| # NOT transformers.AutoModelForCausalLM (there is no AutoModel mapping for this arch). |
| # pip install torch safetensors tiktoken huggingface_hub |
| # git clone https://github.com/harishsg993010/HobbyLM && cd HobbyLM |
| |
| import json, torch, tiktoken |
| from huggingface_hub import hf_hub_download |
| from safetensors.torch import load_file |
| from hobbylm.config import ModelConfig |
| from hobbylm.model import MoETransformer |
| from hobbylm.generate import generate |
| |
| repo = "rootxhacker/HobbyLM-Omni" |
| cfg = ModelConfig(**{k: v for k, v in json.load(open(hf_hub_download(repo, "config.json"))).items() if k != "preset"}) |
| device = torch.device("cuda" if torch.cuda.is_available() else "cpu") |
| cfg.expert_backend = "grouped" if device.type == "cuda" else "bmm" |
| |
| model = MoETransformer(cfg).to(device).eval() |
| model.load_state_dict(load_file(hf_hub_download(repo, "model.safetensors"))) |
| |
| enc = tiktoken.get_encoding("gpt2") |
| prompt = "USER: Explain a mixture-of-experts model in one sentence.\nASSISTANT:" |
| ids = torch.tensor([enc.encode_ordinary(prompt)], device=device) |
| out = generate(model, ids, max_new_tokens=64, temperature=0.7, top_k=0, device=device, |
| repetition_penalty=1.3) # temperature=0.0 for greedy |
| print(enc.decode(out[0].tolist())) |
| ``` |
|
|
| > The snippet above is the **text** path. For image / audio / speech, encode the input with the (frozen) SigLIP2 / Whisper / CLAP front-end, project it with the bundled projectors, and splice it at the modality sentinel token β see `hobbylm/multimodal.py`, or just pass `--image` / `--speech` to `hobby-rs`. |
|
|
| ### GGUF + hobby-rs (CPU) |
|
|
| GGUF builds (architecture `hobbylm`) live in [`rootxhacker/HobbyLM-gguf`](https://huggingface.co/rootxhacker/HobbyLM-gguf). They load |
| directly in the from-scratch `hobby-rs` CPU engine β **stock llama.cpp won't load them** without registering |
| the `hobbylm` architecture first. |
|
|
| ```bash |
| hobby-rs --model HobbyLM-Omni.gguf --prompt "..." --n 64 |
| ``` |
|
|
| ## Training |
|
|
| Built in stages on the context-extended (8k, ΞΈ 1e6) backbone with a 512px SigLIP2 vision tower: projector alignment β multimodal SFT β a joint 18-path co-training cycle (image / video / audio / speech / text / tools / OCR / UI-grounding) that keeps every modality from drifting. |
|
|
| ## Limitations |
|
|
| - Breadth over depth: strong **in-distribution** (VQA, JSON tool calls with 0 hallucination, OCR, grounding) but below specialist sub-1B models on hard text reasoning (GSM8K, multi-hop QA). |
| - Object-presence hallucination on POPE-style probes. |
| - Verbose by default β ask for short answers explicitly, or score with containment, not exact-match. |
|
|
| ## License |
|
|
| Apache-2.0. Weights aren't a substitute for judgement β this is a research / hobby model at the 500M scale, |
| not a production system. |
|
|