One of the easiest ways to get started using TensorFlow Serving is with Docker.
# Download the TensorFlow Serving Docker image and repodocker pull tensorflow/serving
git clone https://github.com/tensorflow/serving
# Location of demo modelsTESTDATA="$(pwd)/serving/tensorflow_serving/servables/tensorflow/testdata"
# Start TensorFlow Serving container and open the REST API portdocker run -t --rm -p 8501:8501 \ -v "$TESTDATA/saved_model_half_plus_two_cpu:/models/half_plus_two" \ -e MODEL_NAME=half_plus_two \ tensorflow/serving &
# Query the model using the predict APIcurl -d '{"instances": [1.0, 2.0, 5.0]}' \ -X POST http://localhost:8501/v1/models/half_plus_two:predict
# Returns => { "predictions": [2.5, 3.0, 4.5] }
For additional serving endpoints, see the Client REST API.
General installation instructions are on the Docker site, but we give some quick links here:
- Docker for macOS
- Docker for Windows for Windows 10 Pro or later
- Docker Toolbox for much older versions of macOS, or versions of Windows before Windows 10 Pro
Once you have Docker installed, you can pull the latest TensorFlow Serving docker image by running:
docker pull tensorflow/serving
This will pull down a minimal Docker image with TensorFlow Serving installed.
See the Docker Hub tensorflow/serving repo for other versions of images you can pull.
The serving images (both CPU and GPU) have the following properties:
- Port 8500 exposed for gRPC
- Port 8501 exposed for the REST API
- Optional environment variable
MODEL_NAME
(defaults tomodel
) - Optional environment variable
MODEL_BASE_PATH
(defaults to/models
)
When the serving image runs ModelServer, it runs it as follows:
tensorflow_model_server --port=8500 --rest_api_port=8501 \
--model_name=${MODEL_NAME} --model_base_path=${MODEL_BASE_PATH}/${MODEL_NAME}
To serve with Docker, you'll need:
- An open port on your host to serve on
- A SavedModel to serve
- A name for your model that your client will refer to
What you'll do is run the Docker container, publish the container's ports to your host's ports, and mounting your host's path to the SavedModel to where the container expects models.
Let's look at an example:
docker run -p 8501:8501 \
--mount type=bind,source=/path/to/my_model/,target=/models/my_model \
-e MODEL_NAME=my_model -t tensorflow/serving
In this case, we've started a Docker container, published the REST API port 8501
to our host's port 8501, and taken a model we named my_model
and bound it to
the default model base path (${MODEL_BASE_PATH}/${MODEL_NAME}
=
/models/my_model
). Finally, we've filled in the environment variable
MODEL_NAME
with my_model
, and left MODEL_BASE_PATH
to its default value.
This will run in the container:
tensorflow_model_server --port=8500 --rest_api_port=8501 \
--model_name=my_model --model_base_path=/models/my_model
If we wanted to publish the gRPC port, we would use -p 8500:8500
. You can have
both gRPC and REST API ports open at the same time, or choose to only open one
or the other.
tensorflow_model_server
supports many additional arguments that you could pass
to the serving docker containers. For example, if we wanted to pass a model
config file instead of specifying the model name, we could do the following:
docker run -p 8500:8500 -p 8501:8501 \
--mount type=bind,source=/path/to/my_model/,target=/models/my_model \
--mount type=bind,source=/path/to/my/models.config,target=/models/models.config \
-t tensorflow/serving --model_config_file=/models/models.config
This approach works for any of the other command line arguments that
tensorflow_model_server
supports.
If you want a serving image that has your model built into the container, you can create your own image.
First run a serving image as a daemon:
docker run -d --name serving_base tensorflow/serving
Next, copy your SavedModel to the container's model folder:
docker cp models/<my model> serving_base:/models/<my model>
Finally, commit the container that's serving your model by changing MODEL_NAME
to match your model's name `':
docker commit --change "ENV MODEL_NAME <my model>" serving_base <my container>
You can now stop serving_base
docker kill serving_base
This will leave you with a Docker image called <my container>
that you can
deploy and will load your model for serving on startup.
Let's run through a full example where we load a SavedModel and call it using the REST API. First pull the serving image:
docker pull tensorflow/serving
This will pull the latest TensorFlow Serving image with ModelServer installed.
Next, we will use a toy model called Half Plus Two
, which generates 0.5 * x + 2
for the values of x
we provide for prediction.
To get this model, first clone the TensorFlow Serving repo.
mkdir -p /tmp/tfserving
cd /tmp/tfserving
git clone https://github.com/tensorflow/serving
Next, run the TensorFlow Serving container pointing it to this model and opening the REST API port (8501):
docker run -p 8501:8501 \
--mount type=bind,\
source=/tmp/tfserving/serving/tensorflow_serving/servables/tensorflow/testdata/saved_model_half_plus_two_cpu,\
target=/models/half_plus_two \
-e MODEL_NAME=half_plus_two -t tensorflow/serving &
This will run the docker container and launch the TensorFlow Serving Model Server, bind the REST API port 8501, and map our desired model from our host to where models are expected in the container. We also pass the name of the model as an environment variable, which will be important when we query the model.
To query the model using the predict API, you can run
curl -d '{"instances": [1.0, 2.0, 5.0]}' \
-X POST http://localhost:8501/v1/models/half_plus_two:predict
NOTE: Older versions of Windows and other systems without curl can download it here.
This should return a set of values:
{ "predictions": [2.5, 3.0, 4.5] }
More information on using the RESTful API can be found here.
Before serving with a GPU, in addition to installing Docker, you will need:
- Up-to-date NVIDIA drivers for your system
nvidia-docker
: You can follow the installation instructions here
Running a GPU serving image is identical to running a CPU image. For more details, see running a serving image.
Let's run through a full example where we load a model with GPU-bound ops and call it using the REST API.
First install nvidia-docker
. Next you can pull the
latest TensorFlow Serving GPU docker image by running:
docker pull tensorflow/serving:latest-gpu
This will pull down an minimal Docker image with ModelServer built for running on GPUs installed.
Next, we will use a toy model called Half Plus Two
, which generates 0.5 * x + 2
for the values of x
we provide for prediction. This model will have ops
bound to the GPU device, and will not run on the CPU.
To get this model, first clone the TensorFlow Serving repo.
mkdir -p /tmp/tfserving
cd /tmp/tfserving
git clone https://github.com/tensorflow/serving
Next, run the TensorFlow Serving container pointing it to this model and opening the REST API port (8501):
docker run --gpus all -p 8501:8501 \
--mount type=bind,\
source=/tmp/tfserving/serving/tensorflow_serving/servables/tensorflow/testdata/saved_model_half_plus_two_gpu,\
target=/models/half_plus_two \
-e MODEL_NAME=half_plus_two -t tensorflow/serving:latest-gpu &
This will run the docker container, launch the TensorFlow Serving Model Server, bind the REST API port 8501, and map our desired model from our host to where models are expected in the container. We also pass the name of the model as an environment variable, which will be important when we query the model.
TIP: Before querying the model, be sure to wait till you see a message like the following, indicating that the server is ready to receive requests:
2018-07-27 00:07:20.773693: I tensorflow_serving/model_servers/main.cc:333]
Exporting HTTP/REST API at:localhost:8501 ...
To query the model using the predict API, you can run
curl -d '{"instances": [1.0, 2.0, 5.0]}' \
-X POST http://localhost:8501/v1/models/half_plus_two:predict
NOTE: Older versions of Windows and other systems without curl can download it here.
This should return a set of values:
{ "predictions": [2.5, 3.0, 4.5] }
TIP: Trying to run the GPU model on a machine without a GPU or without a working GPU build of TensorFlow Model Server will result in an error that looks like:
Cannot assign a device for operation 'a': Operation was explicitly assigned to /device:GPU:0
More information on using the RESTful API can be found here.
For instructions on how to build and develop Tensorflow Serving, please refer to Developing with Docker guide.