--- license: other license_name: tencent-hunyuan-community license_link: https://huggingface.co/Tencent-Hunyuan/HunyuanDiT/blob/main/LICENSE.txt language: - en --- # HunyuanDiT TensorRT Acceleration Language: **English** | [**δΈ­ζ–‡**](https://huggingface.co/Tencent-Hunyuan/TensorRT-libs/blob/main/README_zh.md) We provide a TensorRT version of [HunyuanDiT](https://github.com/Tencent/HunyuanDiT) for inference acceleration (faster than flash attention). One can convert the torch model to TensorRT model using the following steps based on **TensorRT-10.1.0.27** and **cuda (11.7 or 11.8)**. > ⚠️ Important Reminder (Suggestion for testing the TensorRT acceleration version): > We recommend users to test the TensorRT version on NVIDIA GPUs with Compute Capability >= 8.0,(For example, RTX4090, > RTX3090, H800, A10/A100/A800, etc.) you can query the Compute Capability corresponding to your GPU from > [here](https://developer.nvidia.com/cuda-gpus#compute). For NVIDIA GPUs with Compute Capability < 8.0, if you want to > try the TensorRT version, you may encounter errors that the TensorRT Engine file cannot be generated or the inference > performance is poor, the main reason is that TensorRT does not support fused mha kernel on this architecture. ## πŸ›  Instructions ### 1. Download dependencies from huggingface. ```shell cd HunyuanDiT # Use the huggingface-cli tool to download the model. huggingface-cli download Tencent-Hunyuan/TensorRT-libs --local-dir ./ckpts/t2i/model_trt ``` ### 2. Install the TensorRT dependencies. ```shell # Extract and install the TensorRT dependencies. sh trt/install.sh # Set the TensorRT build environment variables. We provide a script to set up the environment. source trt/activate.sh ``` ### 3. Build the TensorRT engine. #### Method 1: Build your own engine (Recommend) If you are using a different GPU, you can build the engine using the following command. ##### Hunyuan-DiT v1.2 ```shell # Build the TensorRT engine. By default, it will read the `ckpts` folder in the current directory. sh trt/build_engine.sh ``` ##### Using Previous versions, Hunyuan-DiT <= v1.1 ```shell # v1.1 sh trt/build_engine.sh 1.1 # v1.0 sh trt/build_engine.sh 1.0 ``` Finally, if you see the output like `&&&& PASSED TensorRT.trtexec [TensorRT v10100]`, the engine is built successfully. #### Method 2: Use the prebuilt engine (only for v1.x) We provide some prebuilt [TensorRT Engines](https://huggingface.co/Tencent-Hunyuan/TensorRT-engine), which need to be downloaded from Huggingface. | Supported GPU | Remote Path | |:----------------:|:---------------------------------:| | GeForce RTX 3090 | `engines/RTX3090/model_onnx.plan` | | GeForce RTX 4090 | `engines/RTX4090/model_onnx.plan` | | A100 | `engines/A100/model_onnx.plan` | Use the following command to download and place the engine in the specified location. *Note: Please replace `` with the corresponding remote path in the table above.* ```shell export REMOTE_PATH= huggingface-cli download Tencent-Hunyuan/TensorRT-engine ${REMOTE_PATH} ./ckpts/t2i/model_trt/engine/ ln -s ${REMOTE_PATH} ./ckpts/t2i/model_trt/engine/model_onnx.plan ``` ### 4. Run the inference using the TensorRT model. ```shell # Important: If you have not activated the environment, please run the following command. source trt/activate.sh # Run the inference using the prompt-enhanced model + HunyuanDiT TensorRT model. python sample_t2i.py --prompt "ζΈ”θˆŸε”±ζ™š" --infer-mode trt # Close prompt enhancement. (save GPU memory) python sample_t2i.py --prompt "ζΈ”θˆŸε”±ζ™š" --infer-mode trt --no-enhance ``` ### 5. Notice The TensorRT engine is designed to support following shapes of input for performance reasons. In the future, we will verify and try to support arbitrary shapes. ```python STANDARD_SHAPE = [ [(1024, 1024), (1280, 1280)], # 1:1 [(1280, 960)], # 4:3 [(960, 1280)], # 3:4 [(1280, 768)], # 16:9 [(768, 1280)], # 9:16 ] ``` ## ❓ Q&A Please refer to the [Q&A](./QA.md) for more questions and answers about building the TensorRT Engine.