New 2.0 version of our Dynamic GGUF + Quants. Dynamic 2.0 achieves superior accuracy & SOTA quantization performance. โข 105 items โข Updated โข 716
Read our How to Run MiniMax M3 Guide!
See Unsloth Dynamic 2.0 GGUFs for our quantization benchmarks.
- EXPERIMENTAL GGUF / support for MiniMax-M3
- Jun 12 Update: You can now run MiniMax M3 in Unsloth Studio. See our Guide.
- Example of MiniMax M3 (5-bit GGUF) running in Unsloth Studio:
EXPERIMENTAL GGUF / support for MiniMax-M3 in llama.cpp:
MiniMax-M3 support in llama.cpp is preliminary and not yet in a released build. To run these GGUFs, build llama.cpp from PR #24523:
git clone https://github.com/ggml-org/llama.cpp
cd llama.cpp
git fetch origin pull/24523/head:minimax-m3
git checkout minimax-m3
cmake -B build -DGGML_CUDA=ON
cmake --build build --config Release -j --target llama-cli llama-server
Then run a quant. The model is large (~428B params), so offload across GPUs with -ngl 99 or keep the weights in CPU RAM:
./build/bin/llama-cli -hf unsloth/MiniMax-M3-GGUF:UD-IQ1_M
Note: MiniMax Sparse Attention is not supported yet, so inference falls back to dense attention.
MiniMax-M3
Highlights:
- Native Multimodality: M3 undergoes mixed-modality training from the very first step, enabling deeper semantic fusion across text, image, and video.
- Context Scaling via Sparse Attention: M3 introduces MiniMax Sparse Attention (MSA) to improve long context efficiency. M3 delivers 9ร prefill and 15ร decode speedups compared to M2 at 1M context, reducing per-token compute to 1/20.
- Coding & Cowork Capability: M3 achieves frontier-level performance across long-horizon agentic benchmarks, excelling in both coding and cowork.
Model Details
| Architecture | MoE + MSA (MiniMax Sparse Attention) |
| Total Parameters | ~428B |
| Activated Parameters | ~23B |
| Experts | 128 (4 active per token) |
| Layers | 60 |
| Context Length | 1M tokens |
| Modalities | Text, Image, Video |
| Precision | bfloat16 |
| Transformers | โฅ 4.52.4 (trust_remote_code=True) |
| License | MiniMax Community License |
How to Use
M3 supports two reasoning modes:
- thinking โ for complex reasoning, agentic tasks, and long-horizon collaboration.
- non-thinking โ for latency-sensitive scenarios such as chat and code completion.
Local Deployment
Download the model:
hf download MiniMaxAI/MiniMax-M3 --local-dir MiniMax-M3
You can also get model weights from ModelScope.
Inference Parameters
We recommend the following parameters for best performance: temperature=1.0, top_p=0.95, top_k=40. Default system prompt:
You are a helpful assistant. Your name is MiniMax-M3 and was built by MiniMax.
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