TensorFlow Models

In addition to the standard Python Handler, Cortex also supports another handler called the TensorFlow handler, which can be used to deploy TensorFlow models exported as SavedModel models.

Interface

Uses TensorFlow version 2.3.0 by default

class Handler:
    def __init__(self, config, tensorflow_client, metrics_client):
        """(Required) Called once before the API becomes available. Performs
        setup such as downloading/initializing a vocabulary.

        Args:
            config (required): Dictionary passed from API configuration (if
                specified).
            tensorflow_client (required): TensorFlow client which is used to
                make predictions. This should be saved for use in handle_async().
            metrics_client (optional): The cortex metrics client, which allows
                you to push custom metrics in order to build custom dashboards
                in grafana.
        """
        self.client = tensorflow_client
        # Additional initialization may be done here

    def handle_async(self, payload, request_id):
        """(Required) Called once per request. Preprocesses the request payload
        (if necessary), runs inference (e.g. by calling
        self.client.predict(model_input)), and postprocesses the inference
        output (if necessary).

        Args:
            payload (optional): The request payload (see below for the possible
                payload types).
            request_id (optional): The request id string that identifies a workload

        Returns:
            Prediction or a batch of predictions.
        """
        pass

Cortex provides a tensorflow_client to your handler's constructor. tensorflow_client is an instance of TensorFlowClient that manages a connection to a TensorFlow Serving container to make predictions using your model. It should be saved as an instance variable in your handler class, and your handle_async() function should call tensorflow_client.predict() to make an inference with your exported TensorFlow model. Preprocessing of the JSON payload and postprocessing of predictions can be implemented in your handle_async() function as well.

When multiple models are defined using the Handler's models field, the tensorflow_client.predict() method expects a second argument model_name which must hold the name of the model that you want to use for inference (for example: self.client.predict(payload, "text-generator")). There is also an optional third argument to specify the model version.

If you need to share files between your handler implementation and the TensorFlow Serving container, you can create a new directory within /mnt (e.g. /mnt/user) and write files to it. The entire /mnt directory is shared between containers, but do not write to any of the directories in /mnt that already exist (they are used internally by Cortex).

predict method

Inference is performed by using the predict method of the tensorflow_client that's passed to the handler's constructor:

def predict(model_input, model_name, model_version) -> dict:
    """
    Run prediction.

    Args:
        model_input: Input to the model.
        model_name (optional): Name of the model to retrieve (when multiple models are deployed in an API).
            When handler.models.paths is specified, model_name should be the name of one of the models listed in the API config.
            When handler.models.dir is specified, model_name should be the name of a top-level directory in the models dir.
        model_version (string, optional): Version of the model to retrieve. Can be omitted or set to "latest" to select the highest version.

    Returns:
        dict: TensorFlow Serving response converted to a dictionary.
    """

Specifying models

Whenever a model path is specified in an API configuration file, it should be a path to an S3 prefix which contains your exported model. Directories may include a single model, or multiple folders each with a single model (note that a "single model" need not be a single file; there can be multiple files for a single model). When multiple folders are used, the folder names must be integer values, and will be interpreted as the model version. Model versions can be any integer, but are typically integer timestamps. It is always assumed that the highest version number is the latest version of your model.

API spec

Single model

The most common pattern is to serve a single model per API. The path to the model is specified in the path field in the handler.models configuration. For example:

# cortex.yaml

- name: iris-classifier
  kind: AsyncAPI
  handler:
    # ...
    type: tensorflow
    models:
      path: s3://my-bucket/models/text-generator/

Multiple models

It is possible to serve multiple models from a single API. The paths to the models are specified in the api configuration, either via the models.paths or models.dir field in the handler configuration. For example:

# cortex.yaml

- name: iris-classifier
  kind: AsyncAPI
  handler:
    # ...
    type: tensorflow
    models:
      paths:
        - name: iris-classifier
          path: s3://my-bucket/models/text-generator/
        # ...

or:

# cortex.yaml

- name: iris-classifier
  kind: AsyncAPI
  handler:
    # ...
    type: tensorflow
    models:
      dir: s3://my-bucket/models/

When using the models.paths field, each path must be a valid model directory (see above for valid model directory structures).

When using the models.dir field, the directory provided may contain multiple subdirectories, each of which is a valid model directory. For example:

  s3://my-bucket/models/
  ├── text-generator
  |   └── * (model files)
  └── sentiment-analyzer
      ├── 24753823/
      |   └── * (model files)
      └── 26234288/
          └── * (model files)

In this case, there are two models in the directory, one of which is named "text-generator", and the other is named "sentiment-analyzer".

Structure

On CPU/GPU

The model path must be a SavedModel export:

  s3://my-bucket/models/text-generator/
  ├── saved_model.pb
  └── variables/
      ├── variables.index
      ├── variables.data-00000-of-00003
      ├── variables.data-00001-of-00003
      └── variables.data-00002-of-...

or for a versioned model:

  s3://my-bucket/models/text-generator/
  ├── 1523423423/  (version number, usually a timestamp)
  |   ├── saved_model.pb
  |   └── variables/
  |       ├── variables.index
  |       ├── variables.data-00000-of-00003
  |       ├── variables.data-00001-of-00003
  |       └── variables.data-00002-of-...
  └── 2434389194/  (version number, usually a timestamp)
      ├── saved_model.pb
      └── variables/
          ├── variables.index
          ├── variables.data-00000-of-00003
          ├── variables.data-00001-of-00003
          └── variables.data-00002-of-...

On Inferentia

When Inferentia models are used, the directory structure is slightly different:

  s3://my-bucket/models/text-generator/
  └── saved_model.pb

or for a versioned model:

  s3://my-bucket/models/text-generator/
  ├── 1523423423/  (version number, usually a timestamp)
  |   └── saved_model.pb
  └── 2434389194/  (version number, usually a timestamp)
      └── saved_model.pb

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