MMOCR / docs /en /model_serving.md
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# Model Serving
`MMOCR` provides some utilities that facilitate the model serving process.
Here is a quick walkthrough of necessary steps that let the models to serve through an API.
## Install TorchServe
You can follow the steps on the [official website](https://github.com/pytorch/serve#install-torchserve-and-torch-model-archiver) to install `TorchServe` and
`torch-model-archiver`.
## Convert model from MMOCR to TorchServe
We provide a handy tool to convert any `.pth` model into `.mar` model
for TorchServe.
```shell
python tools/deployment/mmocr2torchserve.py ${CONFIG_FILE} ${CHECKPOINT_FILE} \
--output-folder ${MODEL_STORE} \
--model-name ${MODEL_NAME}
```
:::{note}
${MODEL_STORE} needs to be an absolute path to a folder.
:::
For example:
```shell
python tools/deployment/mmocr2torchserve.py \
configs/textdet/dbnet/dbnet_r18_fpnc_1200e_icdar2015.py \
checkpoints/dbnet_r18_fpnc_1200e_icdar2015.pth \
--output-folder ./checkpoints \
--model-name dbnet
```
## Start Serving
### From your Local Machine
Getting your models prepared, the next step is to start the service with a one-line command:
```bash
# To load all the models in ./checkpoints
torchserve --start --model-store ./checkpoints --models all
# Or, if you only want one model to serve, say dbnet
torchserve --start --model-store ./checkpoints --models dbnet=dbnet.mar
```
Then you can access inference, management and metrics services
through TorchServe's REST API.
You can find their usages in [TorchServe REST API](https://github.com/pytorch/serve/blob/master/docs/rest_api.md).
| Service | Address |
| ------------------- | ----------------------- |
| Inference | `http://127.0.0.1:8080` |
| Management | `http://127.0.0.1:8081` |
| Metrics | `http://127.0.0.1:8082` |
:::{note}
By default, TorchServe binds port number `8080`, `8081` and `8082` to its services.
You can change such behavior by modifying and saving the contents below to `config.properties`, and running TorchServe with option `--ts-config config.preperties`.
```bash
inference_address=http://0.0.0.0:8080
management_address=http://0.0.0.0:8081
metrics_address=http://0.0.0.0:8082
number_of_netty_threads=32
job_queue_size=1000
model_store=/home/model-server/model-store
```
:::
### From Docker
A better alternative to serve your models is through Docker. We provide a Dockerfile
that frees you from those tedious and error-prone environmental setup steps.
#### Build `mmocr-serve` Docker image
```shell
docker build -t mmocr-serve:latest docker/serve/
```
#### Run `mmocr-serve` with Docker
In order to run Docker in GPU, you need to install [nvidia-docker](https://docs.nvidia.com/datacenter/cloud-native/container-toolkit/install-guide.html); or you can omit the `--gpus` argument for a CPU-only session.
The command below will run `mmocr-serve` with a gpu, bind the ports of `8080` (inference),
`8081` (management) and `8082` (metrics) from container to `127.0.0.1`, and mount
the checkpoint folder `./checkpoints` from the host machine to `/home/model-server/model-store`
of the container. For more information, please check the official docs for [running TorchServe with docker](https://github.com/pytorch/serve/blob/master/docker/README.md#running-torchserve-in-a-production-docker-environment).
```shell
docker run --rm \
--cpus 8 \
--gpus device=0 \
-p8080:8080 -p8081:8081 -p8082:8082 \
--mount type=bind,source=`realpath ./checkpoints`,target=/home/model-server/model-store \
mmocr-serve:latest
```
:::{note}
`realpath ./checkpoints` points to the absolute path of "./checkpoints", and you can replace it with the absolute path where you store torchserve models.
:::
Upon running the docker, you can access inference, management and metrics services
through TorchServe's REST API.
You can find their usages in [TorchServe REST API](https://github.com/pytorch/serve/blob/master/docs/rest_api.md).
| Service | Address |
| ------------------- | ----------------------- |
| Inference | `http://127.0.0.1:8080` |
| Management | `http://127.0.0.1:8081` |
| Metrics | `http://127.0.0.1:8082` |
## 4. Test deployment
Inference API allows user to post an image to a model and returns the prediction result.
```shell
curl http://127.0.0.1:8080/predictions/${MODEL_NAME} -T demo/demo_text_det.jpg
```
For example,
```shell
curl http://127.0.0.1:8080/predictions/dbnet -T demo/demo_text_det.jpg
```
For detection models, you should obtain a json with an object named `boundary_result`. Each array inside has float numbers representing x, y
coordinates of boundary vertices in clockwise order, and the last float number as the
confidence score.
```json
{
"boundary_result": [
[
221.18990004062653,
226.875,
221.18990004062653,
212.625,
244.05868631601334,
212.625,
244.05868631601334,
226.875,
0.80883354575186
]
]
}
```
For recognition models, the response should look like:
```json
{
"text": "sier",
"score": 0.5247521847486496
}
```
And you can use `test_torchserve.py` to compare result of TorchServe and PyTorch by visualizing them.
```shell
python tools/deployment/test_torchserve.py ${IMAGE_FILE} ${CONFIG_FILE} ${CHECKPOINT_FILE} ${MODEL_NAME}
[--inference-addr ${INFERENCE_ADDR}] [--device ${DEVICE}]
```
Example:
```shell
python tools/deployment/test_torchserve.py \
demo/demo_text_det.jpg \
configs/textdet/dbnet/dbnet_r18_fpnc_1200e_icdar2015.py \
checkpoints/dbnet_r18_fpnc_1200e_icdar2015.pth \
dbnet
```