Super fast and high accuracy lightweight anchor-free object detection model. Real-time on mobile devices.
⚡ Super lightweight: Model file is only 980KB(INT8) or 1.8MB(FP16).⚡ Super fast: 97fps(10.23ms) on mobile ARM CPU.👍 High accuracy: Up to 34.3 mAPval@0.5:0.95 and still realtime on CPU.🤗 Training friendly: Much lower GPU memory cost than other models. Batch-size=80 is available on GTX1060 6G.😎 Easy to deploy: Support various backends including ncnn, MNN and OpenVINO. Also provide Android demo based on ncnn inference framework.
NanoDet is a FCOS-style one-stage anchor-free object detection model which using Generalized Focal Loss as classification and regression loss.
In NanoDet-Plus, we propose a novel label assignment strategy with a simple assign guidance module (AGM) and a dynamic soft label assigner (DSLA) to solve the optimal label assignment problem in lightweight model training. We also introduce a light feature pyramid called Ghost-PAN to enhance multi-layer feature fusion. These improvements boost previous NanoDet's detection accuracy by 7 mAP on COCO dataset.
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Benchmarks
Model | Resolution | mAPval 0.5:0.95 |
CPU Latency (i7-8700) |
ARM Latency (4xA76) |
FLOPS | Params | Model Size |
---|---|---|---|---|---|---|---|
NanoDet-m | 320*320 | 20.6 | 4.98ms | 10.23ms | 0.72G | 0.95M | 1.8MB(FP16) | 980KB(INT8) |
NanoDet-Plus-m | 320*320 | 27.0 | 5.25ms | 11.97ms | 0.9G | 1.17M | 2.3MB(FP16) | 1.2MB(INT8) |
NanoDet-Plus-m | 416*416 | 30.4 | 8.32ms | 19.77ms | 1.52G | 1.17M | 2.3MB(FP16) | 1.2MB(INT8) |
NanoDet-Plus-m-1.5x | 320*320 | 29.9 | 7.21ms | 15.90ms | 1.75G | 2.44M | 4.7MB(FP16) | 2.3MB(INT8) |
NanoDet-Plus-m-1.5x | 416*416 | 34.1 | 11.50ms | 25.49ms | 2.97G | 2.44M | 4.7MB(FP16) | 2.3MB(INT8) |
YOLOv3-Tiny | 416*416 | 16.6 | - | 37.6ms | 5.62G | 8.86M | 33.7MB |
YOLOv4-Tiny | 416*416 | 21.7 | - | 32.81ms | 6.96G | 6.06M | 23.0MB |
YOLOX-Nano | 416*416 | 25.8 | - | 23.08ms | 1.08G | 0.91M | 1.8MB(FP16) |
YOLOv5-n | 640*640 | 28.4 | - | 44.39ms | 4.5G | 1.9M | 3.8MB(FP16) |
FBNetV5 | 320*640 | 30.4 | - | - | 1.8G | - | - |
MobileDet | 320*320 | 25.6 | - | - | 0.9G | - | - |
Download pre-trained models and find more models in Model Zoo or in Release Files
Notes (click to expand)
-
ARM Performance is measured on Kirin 980(4xA76+4xA55) ARM CPU based on ncnn. You can test latency on your phone with ncnn_android_benchmark.
-
Intel CPU Performance is measured Intel Core-i7-8700 based on OpenVINO.
-
NanoDet mAP(0.5:0.95) is validated on COCO val2017 dataset with no testing time augmentation.
-
YOLOv3&YOLOv4 mAP refers from Scaled-YOLOv4: Scaling Cross Stage Partial Network.
NEWS!!!
- [2021.12.25] NanoDet-Plus release! Adding AGM(Assign Guidance Module) & DSLA(Dynamic Soft Label Assigner) to improve 7 mAP with only a little cost.
Find more update notes in Update notes.
Demo
Android demo
Android demo project is in demo_android_ncnn folder. Please refer to Android demo guide.
Here is a better implementation
NCNN C++ demo
C++ demo based on ncnn is in demo_ncnn folder. Please refer to Cpp demo guide.
MNN demo
Inference using Alibaba's MNN framework is in demo_mnn folder. Please refer to MNN demo guide.
OpenVINO demo
Inference using OpenVINO is in demo_openvino folder. Please refer to OpenVINO demo guide.
Web browser demo
https://nihui.github.io/ncnn-webassembly-nanodet/
Pytorch demo
First, install requirements and setup NanoDet following installation guide. Then download COCO pretrain weight from here
The pre-trained weight was trained by the config config/nanodet-plus-m_416.yml
.
- Inference images
python demo/demo.py image --config CONFIG_PATH --model MODEL_PATH --path IMAGE_PATH
- Inference video
python demo/demo.py video --config CONFIG_PATH --model MODEL_PATH --path VIDEO_PATH
- Inference webcam
python demo/demo.py webcam --config CONFIG_PATH --model MODEL_PATH --camid YOUR_CAMERA_ID
Besides, We provide a notebook here to demonstrate how to make it work with PyTorch.
Install
Requirements
- Linux or MacOS
- CUDA >= 10.0
- Python >= 3.6
- Pytorch >= 1.7
- experimental support Windows (Notice: Windows not support distributed training before pytorch1.7)
Step
- Create a conda virtual environment and then activate it.
conda create -n nanodet python=3.8 -y conda activate nanodet
- Install pytorch
conda install pytorch torchvision cudatoolkit=11.1 -c pytorch -c conda-forge
- Clone this repository
git clone https://github.com/RangiLyu/nanodet.git
cd nanodet
- Install requirements
pip install -r requirements.txt
- Setup NanoDet
Model Zoo
NanoDet supports variety of backbones. Go to the config folder to see the sample training config files.
Model | Backbone | Resolution | COCO mAP | FLOPS | Params | Pre-train weight |
---|---|---|---|---|---|---|
NanoDet-m | ShuffleNetV2 1.0x | 320*320 | 20.6 | 0.72G | 0.95M | Download |
NanoDet-Plus-m-320 (NEW) | ShuffleNetV2 1.0x | 320*320 | 27.0 | 0.9G | 1.17M | Weight | Checkpoint |
NanoDet-Plus-m-416 (NEW) | ShuffleNetV2 1.0x | 416*416 | 30.4 | 1.52G | 1.17M | Weight | Checkpoint |
NanoDet-Plus-m-1.5x-320 (NEW) | ShuffleNetV2 1.5x | 320*320 | 29.9 | 1.75G | 2.44M | Weight | Checkpoint |
NanoDet-Plus-m-1.5x-416 (NEW) | ShuffleNetV2 1.5x | 416*416 | 34.1 | 2.97G | 2.44M | Weight | Checkpoint |
Notice: The difference between Weight
and Checkpoint
is the weight only provide params in inference time, but the checkpoint contains training time params.
Legacy Model Zoo
Model | Backbone | Resolution | COCO mAP | FLOPS | Params | Pre-train weight |
---|---|---|---|---|---|---|
NanoDet-m-416 | ShuffleNetV2 1.0x | 416*416 | 23.5 | 1.2G | 0.95M | Download |
NanoDet-m-1.5x | ShuffleNetV2 1.5x | 320*320 | 23.5 | 1.44G | 2.08M | Download |
NanoDet-m-1.5x-416 | ShuffleNetV2 1.5x | 416*416 | 26.8 | 2.42G | 2.08M | Download |
NanoDet-m-0.5x | ShuffleNetV2 0.5x | 320*320 | 13.5 | 0.3G | 0.28M | Download |
NanoDet-t | ShuffleNetV2 1.0x | 320*320 | 21.7 | 0.96G | 1.36M | Download |
NanoDet-g | Custom CSP Net | 416*416 | 22.9 | 4.2G | 3.81M | Download |
NanoDet-EfficientLite | EfficientNet-Lite0 | 320*320 | 24.7 | 1.72G | 3.11M | Download |
NanoDet-EfficientLite | EfficientNet-Lite1 | 416*416 | 30.3 | 4.06G | 4.01M | Download |
NanoDet-EfficientLite | EfficientNet-Lite2 | 512*512 | 32.6 | 7.12G | 4.71M | Download |
NanoDet-RepVGG | RepVGG-A0 | 416*416 | 27.8 | 11.3G | 6.75M | Download |
How to Train
-
Prepare dataset
If your dataset annotations are pascal voc xml format, refer to config/nanodet_custom_xml_dataset.yml
Or convert your dataset annotations to MS COCO format(COCO annotation format details).
-
Prepare config file
Copy and modify an example yml config file in config/ folder.
Change save_path to where you want to save model.
Change num_classes in model->arch->head.
Change image path and annotation path in both data->train and data->val.
Set gpu ids, num workers and batch size in device to fit your device.
Set total_epochs, lr and lr_schedule according to your dataset and batchsize.
If you want to modify network, data augmentation or other things, please refer to Config File Detail
-
Start training
NanoDet is now using pytorch lightning for training.
For both single-GPU or multiple-GPUs, run:
python tools/train.py CONFIG_FILE_PATH
-
Visualize Logs
TensorBoard logs are saved in
save_dir
which you set in config file.To visualize tensorboard logs, run:
cd <YOUR_SAVE_DIR> tensorboard --logdir ./
How to Deploy
NanoDet provide multi-backend C++ demo including ncnn, OpenVINO and MNN. There is also an Android demo based on ncnn library.
Export model to ONNX
To convert NanoDet pytorch model to ncnn, you can choose this way: pytorch->onnx->ncnn
To export onnx model, run tools/export_onnx.py
.
python tools/export_onnx.py --cfg_path ${CONFIG_PATH} --model_path ${PYTORCH_MODEL_PATH}
Run NanoDet in C++ with inference libraries
ncnn
Please refer to demo_ncnn.
OpenVINO
Please refer to demo_openvino.
MNN
Please refer to demo_mnn.
Run NanoDet on Android
Please refer to android_demo.
Citation
If you find this project useful in your research, please consider cite:
@misc{=nanodet, title={NanoDet-Plus: Super fast and high accuracy lightweight anchor-free object detection model.}, author={RangiLyu}, howpublished = {\url{https://github.com/RangiLyu/nanodet}}, year={2021} }
Thanks
https://github.com/Tencent/ncnn
https://github.com/open-mmlab/mmdetection
https://github.com/implus/GFocal