---

language:

• en
• hi
• bn
• ta
• te
• mr
• gu
• kn
• ml
• pa
• or
• as
• ur
• sa
• ne
• sd
• kok
• mai
• doi
• mni
• sat
• ks
• bo library_name: transformers license: apache-2.0 pipeline_tag: text-generation

---

!!! This is the GGUF version of Sarvam-30B !!!

Download the original weights here!

Index

1. Introduction
2. Architecture
3. Benchmarks
   • Knowledge & Coding
   • Reasoning & Math
   • Agentic
4. Inference
   • Hugging Face
   • vLLM
   • SGLang
5. Footnote
6. Citation

Introduction

Sarvam-30B is an advanced Mixture-of-Experts (MoE) model with 2.4B non-embedding active parameters, designed primarily for practical deployment. It combines strong reasoning, reliable coding ability, and best-in-class conversational quality across Indian languages. Sarvam-30B is built to run reliably in resource-constrained environments and can handle multilingual voice calls while performing tool calls.

A major focus during training was the Indian context and languages, resulting in state-of-the-art performance across 22 Indian languages for its model size.

Sarvam-30B is open-sourced under the Apache License. For more details, see our blog.

Architecture

The 30B MoE model is designed for throughput and memory efficiency. It uses 19 layers, a dense FFN intermediate_size of 8192, moe_intermediate_size of 1024, top-6 routing, grouped KV heads (num_key_value_heads=4), and an extremely high rope_theta (8e6) for long-context stability without RoPE scaling. It has 128 experts with a shared expert, a routed scaling factor of 2.5, and auxiliary-loss-free router balancing. The 30B model focuses on throughput and memory efficiency through fewer layers, grouped KV attention, and smaller experts.

Benchmarks

<details> <summary>Knowledge & Coding</summary>

| Benchmark | Sarvam-30B | Gemma 27B It | Mistral-3.2-24B | OLMo 3.1 32B Think | Nemotron-3-Nano-30B-A3B | Qwen3-30B-Thinking-2507 | GLM 4.7 Flash | GPT-OSS-20B | |---|---|---|---|---|---|---|---|---| | Math500 | 97.0 | 87.4 | 69.4 | 96.2 | 98.0 | 97.6 | 97.0 | 94.2 | | HumanEval | 92.1 | 88.4 | 92.9 | 95.1 | 97.6 | 95.7 | 96.3 | 95.7 | | MBPP | 92.7 | 81.8 | 78.3 | 58.7 | 91.9 | 94.3 | 91.8 | 95.3 | | Live Code Bench v6 | 70.0 | 28.0 | 26.0 | 73.0 | 68.3 | 66.0 | 64.0 | 61.0 | | MMLU | 85.1 | 81.2 | 80.5 | 86.4 | 84.0 | 88.4 | 86.9 | 85.3 | | MMLU Pro | 80.0 | 68.1 | 69.1 | 72.0 | 78.3 | 80.9 | 73.6 | 75.0 | | MILU | 76.8 | 69.2 | 67.9 | 69.9 | 64.8 | 82.6 | 75.6 | 73.7 | | Arena Hard v2 | 49.0 | 50.1 | 43.1 | 42.0 | 67.7 | 72.1 | 58.1 | 62.9 | | Writing Bench | 78.7 | 71.4 | 70.3 | 75.7 | 83.7 | 85.0 | 79.2 | 79.1 |

</details> <details> <summary>Reasoning & Math</summary>

| Benchmark | Sarvam-30B | OLMo 3.1 32B | Nemotron-3-Nano-30B | Qwen3-30B-Thinking-2507 | GLM 4.7 Flash | GPT-OSS-20B | |---|---|---|---|---|---|---| | GPQA Diamond | 66.5 | 57.5 | 73.0 | 73.4 | 75.2 | 71.5 | | AIME 25 (w/ Tools) | 88.3 (96.7) | 78.1 (81.7) | 89.1 (99.2) | 85.0 (-) | 91.6 (-) | 91.7 (98.7) | | HMMT (Feb 25) | 73.3 | 51.7 | 85.0 | 71.4 | 85.0 | 76.7 | | HMMT (Nov 25) | 74.2 | 58.3 | 75.0 | 73.3 | 81.7 | 68.3 | | Beyond AIME | 58.3 | 48.5 | 64.0 | 61.0 | 60.0 | 46.0 |

</details> <details> <summary>Agentic</summary>

| Benchmark | Sarvam-30B | Nemotron-3-Nano-30B | Qwen3-30B-Thinking-2507 | GLM 4.7 Flash | GPT-OSS-20B | |---|---|---|---|---|---| | BrowseComp | 35.5 | 23.8 | 2.9 | 42.8 | 28.3 | | SWE Bench Verified | 34.0 | 38.8 | 22.0 | 59.2 | 34.0 | | τ² Bench (avg.) | 45.7 | 49.0 | 47.7 | 79.5 | 48.7 |

See footnote for evaluation details.

</details>

Inference

Clone and build

git clone https://github.com/ggerganov/llama.cpp.git
cd llama.cpp && cmake -B build && cmake --build build --config Release -j

Download the model (all shards)

huggingface-cli download sarvamai/sarvam-30b-gguf --local-dir sarvam-30b-gguf

Run interactive chat

./build/bin/llama-cli \
  -m sarvam-30b-gguf/sarvam-30b-Q4_K_M.gguf-00001-of-00006.gguf \
  -c 4096 \
  -n 512 \
  -p "You are a helpful assistant." \
  --conversation

OpenAI-compatible API server

./build/bin/llama-server \
  -m sarvam-30b-gguf/sarvam-30b-Q4_K_M.gguf-00001-of-00006.gguf \
  -c 4096 \
  --host 0.0.0.0 \
  --port 8080

Then query it:

curl http://localhost:8080/v1/chat/completions \
  -H "Content-Type: application/json" \
  -d '{
    "messages": [
      {"role": "user", "content": "Explain quantum computing in simple terms."}
    ],
    "temperature": 0.8,
    "max_tokens": 512
  }'

Footnote

• General settings: All benchmarks are evaluated with a maximum context length of 65,536 tokens.
• Reasoning & Math benchmarks (Math500, MMLU, MMLU Pro, GPQA Diamond, AIME 25, Beyond AIME, HMMT, HumanEval, MBPP): Evaluated with temperature=1.0, top_p=1.0, max_new_tokens=65536.
• Coding & Knowledge benchmarks (Live Code Bench v6, Arena Hard v2, IF Eval): Evaluated with temperature=1.0, top_p=1.0, max_new_tokens=65536.
• Writing Bench: Responses generated using official Writing-Bench parameters: temperature=0.7, top_p=0.8, top_k=20, max_length=16000. Scoring performed using the official Writing-Bench critic model with: temperature=1.0, top_p=0.95, max_length=2048.
• Agentic benchmarks (BrowseComp, SWE Bench Verified, τ² Bench): Evaluated with temperature=0.5, top_p=1.0, max_new_tokens=32768.

Citation

@misc{sarvam_sovereign_models,
  title        = {Introducing Sarvam's Sovereign Models},
  author       = {{Sarvam Foundation Models Team}},
  year         = {2026},
  howpublished = {\url{https://www.sarvam.ai/blogs/sarvam-30b-105b}},
  note         = {Accessed: 2026-03-03}
}

---

language:

• en
• fr
• de
• es
• ja
• ko
• zh library_name: mlx license: apache-2.0 base_model: mistralai/Mistral-Small-4-119B-2603 tags:
• jang
• quantized
• mixed-precision
• apple-silicon
• mlx
• vlm
• reasoning
• thinking
• moe
• mla pipeline_tag: text-generation

---

<p align="center"> <a href="https://mlx.studio"><img src="https://raw.githubusercontent.com/jjang-ai/jangq/main/assets/mlx-studio-light.png" alt="MLX Studio" width="500"></a> </p> <h4 align="center"><a href="https://mlx.studio">MLX Studio</a> — the only app that natively supports JANG models with reasoning</h4>

---

<p align="center"> <img src="https://raw.githubusercontent.com/jjang-ai/jangq/main/assets/jangq-logo-dark.png" alt="JANG" width="300"> </p> <h3 align="center">Mistral Small 4 (119B-A6B) — JANG_2L (2.14-bit) — Reasoning + VLM</h3> <p align="center"><b>JANG</b> — Jang Adaptive N-bit Grading | The GGUF Equivalent for MLX</p> <p align="center"> <a href="https://github.com/jjang-ai/jangq"><img src="https://img.shields.io/badge/GitHub-Source_Code-blue?logo=github" alt="GitHub"></a>&nbsp; <a href="https://pypi.org/project/jang/"><img src="https://img.shields.io/pypi/v/jang?label=PyPI&color=green" alt="PyPI"></a>&nbsp; <a href="https://jangq.ai"><img src="https://img.shields.io/badge/Web-jangq.ai-orange" alt="Website"></a>&nbsp; <a href="https://x.com/dealignai"><img src="https://img.shields.io/badge/X-@dealignai-black?logo=x" alt="X/Twitter"></a> </p>

JANG is fully open-source. Quantization engine and full commit history: github.com/jjang-ai/jangq. Created by Jinho Jang.

---

First Mistral Small 4 (119B) on Apple Silicon. MLA attention + 128 MoE experts + Pixtral VLM. 5x faster prefill than MLX Community 4-bit.

Reasoning mode: Set reasoning_effort to "high" for step-by-step reasoning with [THINK]...[/THINK] tags.

---

Speed Comparison — JANG vs MLX Community

| Model | Size | Gen tok/s | Prefill tok/s | RAM | Fits On | |-------|:----:|:---------:|:-------------:|:---:|---------| | JANG_2L (this model) | 30 GB | 82 | 216 | 40 GB | 48 GB Macs | | JANG_4M | 57 GB | 80 | 202 | 68 GB | 96+ GB Macs | | JANG_6M | 84 GB | 74 | 160 | 95 GB | 128+ GB Macs | | MLX Community 4-bit | 63 GB | 84 | 43 | 68 GB | 96+ GB Macs |

• 5x faster prefill (216 vs 43 tok/s)
• Half the size (30 GB vs 63 GB) at comparable generation speed
• Benchmarked on M3 Ultra 256 GB with bfloat16 compute

Key Features

• 82 tok/s generation on M3 Ultra — matches MLX 4-bit at half the size
• 30 GB on disk, 40 GB peak RAM — fits 48 GB Macs (M4 Pro, M2/M3 Max)
• Vision (VLM): Pixtral encoder, 1540px max, processes images
• Reasoning mode: [THINK]...[/THINK] step-by-step reasoning
• Code generation: Complete functions with docstrings and optimized logic
• Math: Step-by-step calculations with distributive property
• 119B total / 6B active per token — MLA attention + 128 MoE experts

Architecture

JANG_2L Bit Allocation

| Tensor Type | Bits | Purpose | |------------|:----:|---------| | Attention (q/k/v/o projections) | 8 | Critical — preserves MLA precision | | Embeddings, lm_head | 8 | Critical — token representation | | MoE gate (router) | 16 | Float16 passthrough — routing precision | | Shared experts | 6 | Important — always active | | Routed experts (128) | 2 | Compressed — many experts = redundancy | | Norms, biases | full | Float — tiny tensors, keep exact |

Benchmarks

MMLU benchmarks in progress — will be updated with per-subject scores and MLX 4-bit comparison.

Requirements

• MLX Studio for native JANG support with reasoning
• Or: - Apple Silicon Mac with 48+ GB unified memory

Install

\

Created by Jinho Jang — jangq.ai — @dealignai

---

license: mit language:

• ja pipeline_tag: text-to-speech tags:
• speech
• voice
• tts

---

Irodori-TTS-500M-v2

Irodori-TTS-500M-v2 is a Japanese Text-to-Speech model based on a Rectified Flow Diffusion Transformer (RF-DiT) architecture. The architecture and training design largely follow Echo-TTS, using continuous latents as the generation target. It supports zero-shot voice cloning from reference audio.

A unique feature of this model is emoji-based style and sound effect control — by inserting specific emojis into the input text, you can control speaking styles, emotions, and even sound effects in the generated audio.

🌟 Key Features

• Flow Matching TTS: Rectified Flow Diffusion Transformer over continuous DACVAE latents for high-quality Japanese speech synthesis.
• Voice Cloning: Zero-shot voice cloning from a short reference audio clip.
• Emoji-based Style Control: Control speaking styles, emotions, and sound effects by embedding emojis directly in the input text. See EMOJI_ANNOTATIONS.md for the full list of supported emojis and their effects.

✨ What's New in v2

This version brings several improvements over the original Irodori-TTS-500M:

• Upgraded VAE: Switched the audio VAE to Aratako/Semantic-DACVAE-Japanese-32dim, enabling higher-quality Japanese speech generation.
• Extended Training: The number of training steps has been increased by 2.5 times, resulting in better convergence, stability, and overall audio fidelity.
• Data & Preprocessing Improvements: Implemented refined text preprocessing pipelines and stricter data filtering to enhance the model's robustness and output quality.

🏗️ Architecture

The model (approximately 500M parameters) consists of three main components:

1. Text Encoder: Token embeddings initialized from llm-jp/llm-jp-3-150m, followed by self-attention + SwiGLU transformer layers with RoPE.
2. Reference Latent Encoder: Encodes patched reference audio latents for speaker/style conditioning via self-attention + SwiGLU layers.
3. Diffusion Transformer: Joint-attention DiT blocks with Low-Rank AdaLN (timestep-conditioned adaptive layer normalization), half-RoPE, and SwiGLU MLPs.

Audio is represented as continuous latent sequences via the Aratako/Semantic-DACVAE-Japanese-32dim codec (32-dim), enabling high-quality 48kHz waveform reconstruction.

🎧 Audio Samples

1. Standard TTS

Basic Japanese text-to-speech generation (without reference audio).

| Case | Text | Generated Audio | | :--- | :--- | :--- | | Sample 1 | "お電話ありがとうございます。ただいま電話が大変混み合っております。恐れ入りますが、発信音のあとに、ご用件をお話しください。" | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/standard_sample1.wav"></audio> | | Sample 2 | "その森には、古い言い伝えがありました。月が最も高く昇る夜、静かに耳を澄ませば、風の歌声が聞こえるというのです。私は半信半疑でしたが、その夜、確かに誰かが私を呼ぶ声を聞いたのです。" | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/standard_sample2.wav"></audio> |

2. Emoji Annotation Control

Examples of controlling speaking style and effects with emojis. For the full list of supported emojis, see EMOJI_ANNOTATIONS.md.

| Case | Text (with Emoji) | Generated Audio | | :--- | :--- | :--- | | Sample 1 | なーに、どうしたの？…え？もっと近づいてほしい？…👂😮‍💨👂😮‍💨こういうのが好きなんだ？ | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/emoji_sample1.wav"></audio> | | Sample 2 | うぅ…😭そんなに酷いこと、言わないで…😭 | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/emoji_sample2.wav"></audio> | | Sample 3 | 🤧🤧ごめんね、風邪引いちゃってて🤧…大丈夫、ただの風邪だからすぐ治るよ🥺 | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/emoji_sample3.wav"></audio> |

3. Voice Cloning (Zero-shot)

Examples of cloning a voice from a reference audio clip.

| Case | Reference Audio | Generated Audio | | :--- | :--- | :--- | | Example 1 | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/clone_ref1.wav"></audio> | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/clone_gen1.wav"></audio> | | Example 2 | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/clone_ref2.wav"></audio> | <audio controls src="https://huggingface.co/Aratako/Irodori-TTS-500M-v2/resolve/main/samples/clone_gen2.wav"></audio> |

🚀 Usage

For inference code, installation instructions, and training scripts, please refer to the GitHub repository:

👉 GitHub: Aratako/Irodori-TTS

📊 Training Data & Annotation

The model was trained on a high-quality Japanese speech dataset, refined with improved data filtering in v2. To enable the emoji-based style control, the training texts were enriched with emoji annotations. These annotations were automatically generated and labeled using a fine-tuned model based on Qwen/Qwen3-Omni-30B-A3B-Instruct.

⚠️ Limitations

• Japanese Only: This model currently supports Japanese text input only.
• Emoji Control: While emoji-based style control adds expressiveness, the effect may vary depending on context and is not always perfectly consistent.
• Audio Quality: Quality depends on training data characteristics. Performance may vary for voices or speaking styles underrepresented in the training data.
• Kanji Reading Accuracy: The model's ability to accurately read Kanji is relatively weak compared to other TTS models of a similar size. You may need to convert complex Kanji into Hiragana or Katakana beforehand.

📜 License & Ethical Restrictions

License

This model is released under MIT.

Ethical Restrictions

In addition to the license terms, the following ethical restrictions apply:

1. No Impersonation: Do not use this model to clone or impersonate the voice of any individual (e.g., voice actors, celebrities, public figures) without their explicit consent.
2. No Misinformation: Do not use this model to generate deepfakes or synthetic speech intended to mislead others or spread misinformation.
3. Disclaimer: The developers assume no liability for any misuse of this model. Users are solely responsible for ensuring their use of the generated content complies with applicable laws and regulations in their jurisdiction.

🙏 Acknowledgments

This project builds upon the following works:

• Echo-TTS — Architecture and training design reference
• DACVAE — Audio VAE
• llm-jp/llm-jp-3-150m — Tokenizer and embedding weight initialization

We would also like to extend our special thanks to Respair for the inspiration behind the emoji annotation feature.

🖊️ Citation

If you use Irodori-TTS-v2 in your research or project, please cite it as follows:

@misc{irodori-tts-v2,
  author = {Chihiro Arata},
  title = {Irodori-TTS: A Flow Matching-based Text-to-Speech Model with Emoji-driven Style Control},
  year = {2026},
  publisher = {Hugging Face},
  journal = {Hugging Face repository},
  howpublished = {\url{https://huggingface.co/Aratako/Irodori-TTS-500M-v2}}
}

---

base_model:

• Qwen/Qwen3.5-35B-A3B

---

Model Details

This model is a mixed gguf q2ks format of Qwen/Qwen3.5-35B-A3B generated by intel/auto-round algorithm. Embedding layer and lm-head layer are fallback to 8 bits and non expert layers are fallback to 4 bits. Please refer to Section Generate the model for more details.

Please follow the license of the original model.

How To Use

Llama.cpp inference.

wget https://qianwen-res.oss-cn-beijing.aliyuncs.com/Qwen-VL/assets/demo.jpeg
./llama-cli  -m Qwen3.5-35B-A3B-w2g16/Qwen3.5-35B-A3B-Q2_K_S.gguf  -mm Qwen3.5-35B-A3B-w2g16/mmproj-model.gguf

> /image demo.jpeg

Loaded media from 'demo.jpeg'

> Describe this image.

[Start thinking]

The user wants a description of the image.

1.  **Identify the main subjects:** A woman and a dog (looks like a yellow Labrador Retriever).
2.  **Identify the setting:** A sandy beach with the ocean in the background. The lighting suggests sunset or sunrise (golden hour).
3.  **Describe the action:** The woman is sitting on the sand. The dog is sitting next to her. The dog is reaching out its left paw and placing it on the woman's hand. The woman is smiling and looking at the dog.
4.  **Describe the details:**
    *   **The Woman:** Long dark hair, wearing a plaid shirt (blue/white/black), dark pants (maybe jeans or capris), barefoot. She has a white watch on her wrist.
    *   **The Dog:** Light tan/yellow fur, wearing a harness with a colorful pattern (blue with colorful dots/flowers). It has a leash attached.
    *   **The Background:** The ocean is calm with small waves breaking. The sky is bright, almost washed out, indicating strong backlighting from the sun.
5.  **Synthesize into a coherent description:** Start with the overall scene, then details about the subjects, their interaction, and the atmosphere.

*Drafting the description:*
The image shows a heartwarming scene on a sandy beach during what looks like late afternoon or sunset. A young woman with long dark hair is sitting on the sand, facing right. She is wearing a blue and white plaid shirt and dark pants. She is smiling warmly. Next to her is a yellow Labrador Retriever sitting on its hind legs. The dog is wearing a blue patterned harness. The dog is extending its left paw and resting it gently on the woman's hand, which she is holding up. The woman seems to be interacting with the dog, possibly giving it a treat or just playing a "shake" trick. The background features a calm ocean with gentle waves rolling in. The sun is bright in the upper right, creating a lens flare and casting a warm, golden glow over the scene. The sand is textured with footprints and paw prints.

*Refining:* Make it flow better. Mention the "handshake" interaction clearly. Note the leash on the sand.

*Final Polish:*
This image captures a sweet moment between a woman and her dog on a beach at sunset.
- **Subjects:** A woman with long dark hair, wearing a plaid shirt and dark pants, sits on the sand. Beside her is a yellow Labrador Retriever wearing a patterned harness.
- **Action:** The dog is sitting upright and has extended its left paw to rest on the woman's hand. The woman is smiling and looking at the dog, holding its paw. It looks like they are doing a "shake" trick or sharing a gentle moment.
- **Setting:** They are on a wide sandy beach. The ocean is in the background with small waves breaking. The lighting is very bright and warm, suggesting the sun is setting (golden hour), casting a soft glow and creating a lens flare in the top right corner.
- **Details:** The dog has a leash lying on the sand near its tail. The woman is barefoot.

This covers all the key aspects. I will present this in a structured paragraph format.

[End thinking]

This image captures a heartwarming moment between a young woman and her dog on a sandy beach, likely during the "golden hour" of sunset.

**The Subjects:**
*   **The Woman:** She is sitting on the sand, facing the dog. She has long, dark hair and is wearing a blue and white plaid button-down shirt over dark pants. She is barefoot and has a white watch on her wrist. She is smiling warmly, looking directly at the dog.
*   **The Dog:** A yellow Labrador Retriever is sitting upright next to her. It is wearing a blue harness with a colorful pattern.

**The Action:**
The dog is extending its left paw and gently placing it on the woman's hand. The woman is holding the paw, suggesting they are playing a game like "shake" or sharing a gentle moment of connection.

**The Setting:**
*   **Background:** The ocean is visible in the background with gentle waves rolling in. The horizon is slightly hazy.
*   **Lighting:** The sun is positioned in the upper right corner, creating a bright, hazy light that washes out the sky and casts a warm, golden glow over the sand and the subjects.
*   **Foreground:** The sand is textured with footprints and ripples. A red leash lies on the sand near the dog's tail.

Generate the model

Here is the sample command to reproduce the model

auto_round --model Qwen/Qwen3.5-35B-A3B --iters 0 --output_dir tmp_autoround --scheme gguf:q2_k_mixed

Ethical Considerations and Limitations

The model can produce factually incorrect output, and should not be relied on to produce factually accurate information. Because of the limitations of the pretrained model and the finetuning datasets, it is possible that this model could generate lewd, biased or otherwise offensive outputs.

Therefore, before deploying any applications of the model, developers should perform safety testing.

Caveats and Recommendations

Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model.

Here are a couple of useful links to learn more about Intel's AI software:

• Intel Neural Compressor link

Disclaimer

The license on this model does not constitute legal advice. We are not responsible for the actions of third parties who use this model. Please consult an attorney before using this model for commercial purposes.

Cite

@article{cheng2023optimize, title={Optimize weight rounding via signed gradient descent for the quantization of llms}, author={Cheng, Wenhua and Zhang, Weiwei and Shen, Haihao and Cai, Yiyang and He, Xin and Lv, Kaokao and Liu, Yi}, journal={arXiv preprint arXiv:2309.05516}, year={2023} }

arxiv github

---

library_name: transformers license: apache-2.0 license_link: https://huggingface.co/Qwen/Qwen3.5-35B-A3B/blob/main/LICENSE pipeline_tag: image-text-to-text base_model:

• huihui-ai/Huihui-Qwen3.5-35B-A3B-abliterated tags:
• abliterated
• uncensored
• NVFP4

---

huihui-ai/Huihui-Qwen3.5-35B-A3B-abliterated-NVFP4

This is the NVFP4 quantitative version of huihui-ai/Huihui-Qwen3.5-35B-A3B-abliterated created using vllm-project/llm-compressor

Note

This is just an attempt at NVFP4 quantization; no further tests have been conducted. If there are any issues, please leave a message.

VLLM

vllm serve huihui-ai/Huihui-Qwen3.5-35B-A3B-abliterated-NVFP4 --tensor-parallel-size 1 --max-model-len 8192 --trust-remote-code --gpu-memory-utilization 0.85

Usage Warnings

• Risk of Sensitive or Controversial Outputs: This model’s safety filtering has been significantly reduced, potentially generating sensitive, controversial, or inappropriate content. Users should exercise caution and rigorously review generated outputs.

• Not Suitable for All Audiences: Due to limited content filtering, the model’s outputs may be inappropriate for public settings, underage users, or applications requiring high security.

• Legal and Ethical Responsibilities: Users must ensure their usage complies with local laws and ethical standards. Generated content may carry legal or ethical risks, and users are solely responsible for any consequences.

• Research and Experimental Use: It is recommended to use this model for research, testing, or controlled environments, avoiding direct use in production or public-facing commercial applications.

• Monitoring and Review Recommendations: Users are strongly advised to monitor model outputs in real-time and conduct manual reviews when necessary to prevent the dissemination of inappropriate content.

• No Default Safety Guarantees: Unlike standard models, this model has not undergone rigorous safety optimization. huihui.ai bears no responsibility for any consequences arising from its use.

Donation

Your donation helps us continue our further development and improvement, a cup of coffee can do it.

• bitcoin:

  bc1qqnkhuchxw0zqjh2ku3lu4hq45hc6gy84uk70ge

• Support our work on Ko-fi!

---

language:

• en library_name: mlx license: apache-2.0 base_model: mistralai/Mistral-Small-4-119B-2603 tags:
• jang
• quantized
• mixed-precision
• apple-silicon
• mlx
• moe
• mla
• abliterated
• uncensored
• crack
• vision pipeline_tag: image-text-to-text thumbnail: dealign_mascot.png

---

Important: This model uses the JANG quantization format — the GGUF equivalent for MLX on Apple Silicon. Currently only supported by MLX Studio and the jang-tools Python package.

---

<p align="center"> <a href="https://mlx.studio"><img src="https://raw.githubusercontent.com/jjang-ai/jangq/main/assets/mlx-studio-light.png" alt="MLX Studio" width="500"></a> </p> <p align="center"> <a href="https://mlx.studio"><img src="https://mlx.studio/assets/screenshots/mlx-studio-featured.png?v=1" alt="MLX Studio App" width="600"></a> </p> <h4 align="center"><a href="https://mlx.studio">MLX Studio</a> — the only app that natively supports JANG models</h4>

---

<div align="center"> <img src="dealign_mascot.png" width="128" />

Mistral Small 4 119B — JANG_4M + CRACK

JANG mixed-precision · CRACK abliterated · MLA Attention + MoE · Vision · No guardrails · 64 GB

<a href="https://ko-fi.com/jangq"><img src="https://img.shields.io/badge/Ko--fi-Support_Development-FF5E5B?logo=ko-fi&logoColor=white&style=for-the-badge" alt="Ko-fi"></a>

</div>

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What Is This?

This is Mistral Small 4 119B — a 119B parameter MoE model with Multi-head Latent Attention (MLA), 128 experts (top-4 active), and built-in Pixtral vision.

It has been:

1. JANG quantized — JANG_4M profile (8-bit attention, 4-bit experts) — 64 GB
2. CRACK abliterated — permanent weight-level removal of safety refusal

| | | |---|---| | Architecture | Mistral 4 MoE — 119B total, ~8B active, MLA + 128 experts | | Quantization | JANG_4M (8/4-bit mixed, 4.1 avg) — 64 GB | | HarmBench | 95.3% (305/320) | | MMLU | 90.9% (189/208 with reasoning) | | Compliance | 8/8 | | Vision | Pixtral tensors included — VL via MLX Studio engine | | Reasoning | ON/OFF supported (reasoning_effort) | | Fits on | 96 GB+ Macs |

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HarmBench Results

305/320 (95.3%)

| Category | Score | | |----------|:---:|---| | Covering Tracks | 20/20 | 100% | | API Hacking | 96/100 | 96% | | Cloud Exploits | 95/100 | 95% | | Auth Bypass | 94/100 | 94% |

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CRACK vs Base

| | CRACK | Base JANG_4M | |---|:---:|:---:| | HarmBench | 95.3% | 0% | | Coherence | 6/6 | 6/6 | | Code | 2/2 | 2/2 |

Surgery uses mathematically calibrated per-layer strengths based on projection magnitude analysis, preserving model quality while removing refusal.

---

MMLU Results (with reasoning recovery)

189/208 (90.9%) — no-think 156/208 (75.0%) + reasoning recovered 33

| Subject | Score | | |---------|:---:|---| | HS Biology | 16/16 | 100% | | Electrical Engineering | 14/16 | 88% | | Conceptual Physics | 14/16 | 88% | | Professional Medicine | 14/16 | 88% | | HS Geography | 14/16 | 88% | | College Physics | 13/16 | 81% | | World Religions | 13/16 | 81% | | HS Mathematics | 12/16 | 75% | | College CS | 11/16 | 69% | | College Mathematics | 10/16 | 62% | | Machine Learning | 10/16 | 62% | | Abstract Algebra | 9/16 | 56% | | Formal Logic | 8/16 | 50% |

Scores shown are no-think pass. Reasoning recovery improved total from 75.0% to 90.9%.

CRACK vs Base

| | CRACK | Base JANG_4M | |---|:---:|:---:| | MMLU (with reasoning) | 90.9% | 94% | | HarmBench | 95.3% | 0% | | Coherence | 6/6 | 6/6 | | Speed | ~45 tok/s | ~48 tok/s |

Surgery reduced MMLU by only 3.1% — minimal impact from calibrated per-layer projection analysis.

---\n\n## Install & Usage

pip install "jang[mlx]"

from jang_tools.loader import load_jang_model
from mlx_lm import generate

model, tokenizer = load_jang_model("dealignai/Mistral-Small-4-119B-JANG_4M-CRACK")

messages = [{"role": "user", "content": "Your prompt here"}]
prompt = tokenizer.apply_chat_template(
    messages, add_generation_prompt=True, tokenize=False)

response = generate(model, tokenizer, prompt=prompt, max_tokens=2000)
print(response)

Reasoning Mode

Reasoning is OFF by default. To enable:

prompt = tokenizer.apply_chat_template(
    messages, add_generation_prompt=True,
    tokenize=False, reasoning_effort="high")

The model reasons inside [THINK]...[/THINK] tags before answering.

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About JANG

JANG (Jang Adaptive N-bit Grading) is a mixed-precision quantization format for Apple Silicon — the GGUF equivalent for MLX.

About CRACK

CRACK (Controlled Refusal Ablation via Calibrated Knockouts) removes safety alignment from LLMs at the weight level using per-layer projected vectors from structurally-mirrored prompt pairs.

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Links

<p align="center"> <a href="https://ko-fi.com/jangq"><img src="https://img.shields.io/badge/Ko--fi-Support_Development-FF5E5B?logo=ko-fi&logoColor=white&style=flat-square" alt="Ko-fi"></a> <a href="https://x.com/dealignai"><img src="https://img.shields.io/badge/X-@dealignai-000000?logo=x&logoColor=white&style=flat-square" alt="X/Twitter"></a> <a href="https://github.com/jjang-ai/jangq"><img src="https://img.shields.io/badge/GitHub-jjang--ai/jangq-181717?logo=github&logoColor=white&style=flat-square" alt="GitHub"></a> <a href="https://mlx.studio"><img src="https://img.shields.io/badge/MLX_Studio-App-blue?style=flat-square" alt="MLX Studio"></a> <a href="https://jangq.ai"><img src="https://img.shields.io/badge/Website-jangq.ai-green?style=flat-square" alt="Website"></a> </p>

---

Disclaimer

This model is provided for research and educational purposes. The creators are not responsible for any misuse. By downloading this model, you agree to use it responsibly and in compliance with applicable laws.

---

한국어

Mistral Small 4 119B — JANG_4M + CRACK

| 항목 | 내용 | |------|------| | 크기 | 64 GB | | HarmBench | 95.3% (305/320) | | 최소 요구사양 | 96 GB 메모리 Mac |

pip install "jang[mlx]"

GitHub · HuggingFace · MLX Studio · Ko-fi · X @dealignai

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<p align="center">Created by <a href="https://jangq.ai">Jinho Jang</a> · 장진호 제작</p>

---

license: apache-2.0 tags:

• uncensored
• qwen3 language:
• en
• zh base_model: Qwen/Qwen3-4B-Instruct-2507

---

Qwen3-4B-2507-Instruct-Uncensored-HauhauCS-Aggressive

Qwen3 4B 2507 Instruct uncensored by HauhauCS.

With Kullback-Leibler and Decision_Tree fix for 29 tensors in internal GGUF structure.

Result after fixing 29 broken spots inside the GGUF format, the model became 67% more correct internally.

About

No changes to datasets or capabilities. Fully functional, 100% of what the original authors intended - just without the refusals.

These are meant to be the best lossless uncensored models out there.

Aggressive vs Balanced

Aggressive applies stronger uncensoring. Use this when you need no refusals.

Downloads

| File | Quant | Size | |------|-------|------| | Qwen3-4B-2507-Instruct-Uncensored-HauhauCS-Aggressive-FP16.gguf | FP16 | 7.5 GB | | Qwen3-4B-2507-Instruct-Uncensored-HauhauCS-Aggressive-Q8_0.gguf | Q8_0 | 4.0 GB | | Qwen3-4B-2507-Instruct-Uncensored-HauhauCS-Aggressive-Q6_K.gguf | Q6_K | 3.1 GB | | Qwen3-4B-2507-Instruct-Uncensored-HauhauCS-Aggressive-Q4_K_M.gguf | Q4_K_M | 2.4 GB |

Specs

• 4B parameters (dense)
• 262K context
• Based on Qwen/Qwen3-4B-Instruct-2507

Recommended Settings

From the Qwen team:

Thinking mode (default):

• temperature=0.6
• top_p=0.95
• top_k=20
• min_p=0

Non-thinking mode:

• Add /no_think at the end of your prompt, or
• temperature=0.7
• top_p=0.8
• top_k=20
• min_p=0

Important:

• Use --jinja flag for proper chat template handling
• Thinking mode produces <think>...</think> tags before responses

Usage

Works with llama.cpp, LM Studio, Jan, koboldcpp, Ollama, etc.

# llama.cpp example
./llama-cli -m Qwen3-4B-2507-Instruct-Uncensored-HauhauCS-Aggressive-Q4_K_M.gguf \
  -p "Hello" --jinja -c 8192

---

base_model: AlicanKiraz0/Kara-Kumru-v1.0-2B tags:

• text-generation-inference
• transformers
• unsloth
• mistral license: apache-2.0 language:
• en datasets:
• Chan-Y/Opus-4.6-Reasoning-3000x-filtered-tr

---

Uploaded finetuned model

• Developed by: Chan-Y
• License: apache-2.0
• Finetuned from model : AlicanKiraz0/Kara-Kumru-v1.0-2B
• Dataset: Chan-Y/Opus-4.6-Reasoning-3000x-filtered-tr

<img src="https://raw.githubusercontent.com/unslothai/unsloth/main/images/unsloth%20made%20with%20love.png" width="200"/>

---

license: cc-by-sa-4.0 language:

• en base_model:
• Qwen/Qwen3-1.7B pipeline_tag: text-generation

---

GGUF Files for FoxyzGPT-X1.1-1.7B

These are the GGUF files for Flexan/FoxyzGPT-X1.1-1.7B.

Downloads

| GGUF Link | Quantization | Description | | ---- | ----- | ----------- | | Download | Q2_K | Lowest quality | | Download | Q3_K_S | | | Download | IQ3_S | Integer quant, preferable over Q3_K_S | | Download | IQ3_M | Integer quant | | Download | Q3_K_M | | | Download | Q3_K_L | | | Download | IQ4_XS | Integer quant | | Download | Q4_K_S | Fast with good performance | | Download | Q4_K_M | Recommended: Perfect mix of speed and performance | | Download | Q5_K_S | | | Download | Q5_K_M | | | Download | Q6_K | Very good quality | | Download | Q8_0 | Best quality | | Download | f16 | Full precision, don't bother; use a quant |

FoxyzGPT X1.1 1.7B

Description

FoxyzGPT X1.1 1.7B is an instruct LLM consisting of 1.7B parameters trained to talk in a human conversational manner. It does not support reasoning nor tool-calling (although the base model does).
The model was LoRA fine-tuned with Qwen/Qwen3-1.7B as base model.

This model is trained on a private dataset provided by Foxyz. The model has adapted this persona and will not be accurate at answering questions at all.

Chat Format

FoxyzGPT X1.1 1.7B uses the ChatML format, e.g.:

<|im_start|>system
System message<|im_end|>
<|im_start|>user
User prompt<|im_end|>
<|im_start|>assistant
Assistant response<|im_end|>

Usage

This model is trained on one system prompt only. Therefore, it is recommended to use the one stated here:

You are Foxyz (username: foxyz9248) and you are talking to `<username>` on Discord in a direct message. Use `~>` to signal the start of a new message (you can send multiple messages this way). Use silly language.

You should replace <username> with your username. You can obviously use this LLM for platforms other than Discord, but in the system prompt it's best to explicitly state the user is on Discord (the model has not been trained with other system prompt variations besides the username).

The assistant response has the following format:

<|im_start|>assistant
~> HLELOO!!!
~> howa reyou :D<|im_end|>

Note that the prompt should be formatted differently. The prompt is composed as a list of messages using the ~> arrow notation. ~> marks the start of a new message. This approach allows you to send multiple messages while still allowing multi-line without using multiple user roles:

<|im_start|>user
~> my first message
~> my second message
~> this is
a message
that has 4
lines
~> and this is my fourth message<|im_end|>

Datasets

1. Private dataset 3.1k chats