data | ||
dataset/dataset | ||
hef | ||
.gitignore | ||
image_publisher.py | ||
inference.py | ||
README.md | ||
requirements.txt | ||
ros_inference.py | ||
Uebergabe.md |
Introduction
These installation and setup instructions are aimed for yolov5 deployment on a PCIe connected Hailo device. If you want to deploy a different network, check the [other networks](Other Networks) section.
Preemptive Note
The Hailo pipeline is constantly updating and changing, so it might not be ideal to follow these instructions as they are not updated regularly. I would recommend following the hailo tutorials from the hailo model zoo and go through the docs on hailo.ai. guide
Requirements
For deployment
- access to hailo.ai developer zone
- Hailo PCIe Device
- Ubuntu 18.04 or 20.4
For training
- GPU enabled device (recommended)
- hailo.ai developer account
- docker
- nvidia docker
Installation Tutorial
This is split into the 'deploy device' (which has your Hailo PCIe Device connected) and the 'training device' which you'll use for network training and network to hailo quantization. Skip this if you already have a .har
file
you would like to deploy.
For your (GPU enabled) training Device
You'll need a way to train your network (yielding a .pb file from it) and the hailo software suite to generate the Hailo File from that.
- always download the newest version of the hailo software suite from the hailo.ai software download zone which are getting monthly updates at the time of writing. This of course means that these notes are rapidly aging into inaccuracy.
- clone the hailo model zoo, which has some convenient yolov5 Docker containers.
- unzip the
hailo software suite
and run inside./hailo_sw_suite_docker_run.sh
. If this is your fist time running, the container will set up. Otherwise, you'll have to either--resume
or--override
For your Device with a Hailo Chip attached
- downloads the newest hailo rt from the hailo.ai software download zone
- extract the file and run the installer. Once you're done, reboot.
- Source the virtual environment under
/path/to/hailo_rt/Installer/hailo_platform_venv/bin/activate
- test virtual environment by running
hailo
Setup Example for a custom Yolov5m
Here you'll train, quantize, compile (on a gpu if possible) and infer (on the hailo chip)
Train your own Yolov5m
- For yolov5 we'll be using hailo Docker containers, which are based on the ultralytics yolov5 containers
- hailo model zoo now has a guide how to train yolov5 for hailo follow that one. Some notes:
- You'll need to create your own dataset structure for the training process. This guide explains well on how to create that.
- There's a minimal example dataset in this repository under
/dataset
- To mount this, use eg.:
docker run -it --gpus all -ipc=host -v /path/to/dataset/:/dataset yolov5:v0
python train.py --img 640 --batch 16 --epochs 3 --data /dataset/dataset/dataset.yaml --weights yolov5m.pt --cfg models/yolov5m.yaml
- For training, make sure you target the correct
--model
and use the correct--weights
(which are now conveniently already in the hailo docker) - once you've saved the best.pb onnx file, you can exit this docker container
- once you are done with the steps 'training and exporting to ONNX', move on to the next step.
Create Hailo representation (hef)
- in
hailo_sw_suite_docker_run.sh
add a volume so you can access your best.pb onnx file, for example in theDOCKER_ARGS
you could add -v /home/user/files:/files - run
./hailo_sw_suite_docker_run.sh --resume
to get into the docker container cd hailo_model_zoo
and continue the tutorial.
Further Notes and Examples:
- Another example to compile the model is to run:
python hailo_model_zoo/main.py compile yolov5m --ckpt /files/my_dataset/best.onnx --calib-path /files/watt_dataset/dataset/dataset/images/ --yaml ./hailo_model_zoo/cfg/networks/yolov5m.yaml
- note that here you're quantizing and compiling to HEF file. If you just want to quantize into a har file, run
python hailo_model_zoo/main.py quantize yolov5m --ckpt /files/my_dataset/best.onnx --calib-path /files/my_dataset/dataset/dataset/images/ --yaml ./hailo_model_zoo/cfg/networks/yolov5m.yaml
, which yields the .har representation of the file- You have to provide a list of images for quantization (--calib-path)
- also provide a quantization scheme (--yaml), where hailo_model_zoo provides a variety
- There's no real reason to not use compile directly from what I know.
- Note that the file locations in these examples are different to Hailos. These worked, while Hailo's didn't.
- follow the getting started guide from hailo model zoo / GETTING STARTED, specifically the optimizing and compile steps if you want more information on quantization parameters and how to go on from there.
run inference
- this git repository includes a inference.py file, which which loads a specified .hef file. Change that to your .hef file location.
- If you have anything other than yolov5m, you will have to change the pre/post-processing steps. Otherwise it won't work. Check out the Hailo Handler Class and go from there.
Other Networks
- For yolov5m, Hailo provides a configuration yaml which defines the quantization levels for the various networks. If you have a custom network you will have to define your custom yaml file. I liked using netron to visualize the network for that.
- Anything the hailo_model_zoo provides a configuration file for (under
hailo_model_zoo/cfg/networks/
) can be easily trained and deployed using the process described above. - Also check out the Hailo Tappas which supply a variety of pre-trained .hef files, which you can run without having to compile anything.