In this guide, we will go over the numerous configuration points for Tensorflow Serving.
While most configurations relate to the Model Server, there are many ways to specify the behavior of Tensorflow Serving:
- Model Server Configuration: Specify model names, paths, version policy & labels, logging configuration and more
- Monitoring Configuration: Enable and configure Prometheus monitoring
- Batching Configuration: Enable batching and configure its parameters
- Misc. Flags: A number of misc. flags that can be provided to fine-tune the behavior of a Tensorflow Serving deployment
The easiest way to serve a model is to provide the --model_name
and
--model_base_path
flags (or setting the MODEL_NAME
environment variable if
using Docker). However, if you would like to serve multiple models, or configure
options like polling frequency for new versions, you may do so by writing a
Model Server config file.
You may provide this configuration file using the --model_config_file
flag and
instruct Tensorflow Serving to periodically poll for updated versions of this
configuration file at the specifed path by setting the
--model_config_file_poll_wait_seconds
flag.
Example using Docker:
docker run -t --rm -p 8501:8501 \
-v "$(pwd)/models/:/models/" tensorflow/serving \
--model_config_file=/models/models.config \
--model_config_file_poll_wait_seconds=60
There are two ways to reload the Model Server configuration:
-
By setting the
--model_config_file_poll_wait_seconds
flag to instruct the server to periodically check for a new config file at--model_config_file
filepath. -
By issuing HandleReloadConfigRequest RPC calls to the server and supplying a new Model Server config programmatically.
Please note that each time the server loads the new config file, it will act to realize the content of the new specified config and only the new specified config. This means if model A was present in the first config file, which is replaced with a file that contains only model B, the server will load model B and unload model A.
The Model Server configuration file provided must be an ASCII ModelServerConfig protocol buffer. Refer to the following to understand what an ASCII protocol buffer looks like.
For all but the most advanced use-cases, you'll want to use the ModelConfigList option, which is a list of ModelConfig protocol buffers. Here's a basic example, before we dive into advanced options below.
model_config_list {
config {
name: 'my_first_model'
base_path: '/tmp/my_first_model/'
}
config {
name: 'my_second_model'
base_path: '/tmp/my_second_model/'
}
}
Each ModelConfig specifies one model to be served, including its name and the path where the Model Server should look for versions of the model to serve, as seen in the above example. By default the server will serve the version with the largest version number. This default can be overridden by changing the model_version_policy field.
To serve a specific version of the model, rather than always transitioning to the one with the largest version number, set model_version_policy to "specific" and provide the version number you would like to serve. For example, to pin version 42 as the one to serve:
model_version_policy {
specific {
versions: 42
}
}
This option is useful for rolling back to a know good version, in the event a problem is discovered with the latest version(s).
To serve multiple versions of the model simultaneously, e.g. to enable canarying a tentative new version with a slice of traffic, set model_version_policy to "specific" and provide multiple version numbers. For example, to serve versions 42 and 43:
model_version_policy {
specific {
versions: 42
versions: 43
}
}
Sometimes it's helpful to add a level of indirection to model versions. Instead of letting all of your clients know that they should be querying version 42, you can assign an alias such as "stable" to whichever version is currently the one clients should query. If you want to redirect a slice of traffic to a tentative canary model version, you can use a second alias "canary".
You can configure these model version aliases, or labels, like so:
model_version_policy {
specific {
versions: 42
versions: 43
}
}
version_labels {
key: 'stable'
value: 42
}
version_labels {
key: 'canary'
value: 43
}
In the above example, you are serving versions 42 and 43, and associating the label "stable" with version 42 and the label "canary" with version 43. You can have your clients direct queries to one of "stable" or "canary" (perhaps based on hashing the user id) using the version_label field of the ModelSpec protocol buffer, and move forward the label on the server without notifying the clients. Once you are done canarying version 43 and are ready to promote it to stable, you can update the config to:
model_version_policy {
specific {
versions: 42
versions: 43
}
}
version_labels {
key: 'stable'
value: 43
}
version_labels {
key: 'canary'
value: 43
}
If you subsequently need to perform a rollback, you can revert to the old config that has version 42 as "stable". Otherwise, you can march forward by unloading version 42 and loading the new version 44 when it is ready, and then advancing the canary label to 44, and so on.
Please note that labels can only be assigned to model versions that are already loaded and available for serving. Once a model version is available, one may reload the model config on the fly to assign a label to it. This can be achieved using a HandleReloadConfigRequest RPC or if the server is set up to periodically poll the filesystem for the config file, as described above.
If you would like to assign a label to a version that is not yet loaded (for ex.
by supplying both the model version and the label at startup time) then you must
set the --allow_version_labels_for_unavailable_models
flag to true, which
allows new labels to be assigned to model versions that are not loaded yet.
Please note that this applies only to new version labels (i.e. ones not assigned to a version currently). This is to ensure that during version swaps, the server does not prematurely assign the label to the new version, thereby dropping all requests destined for that label while the new version is loading.
In order to comply with this safety check, if re-assigning an already in-use version label, you must assign it only to already-loaded versions. For example, if you would like to move a label from pointing to version N to version N+1, you may first submit a config containing version N and N+1, and then submit a config that contains version N+1, the label pointing to N+1 and no version N.
You may provide a monitoring configuration to the server by using the
--monitoring_config_file
flag to specify a file containing a
MonitoringConfig
protocol buffer. Here's an example:
prometheus_config {
enable: true,
path: "/monitoring/prometheus/metrics"
}
To read metrics from the above monitoring URL, you first need to enable the HTTP
server by setting the --rest_api_port
flag. You can then configure your
Prometheus Server to pull metrics from Model Server by passing it the values of
--rest_api_port
and path
.
Tensorflow Serving collects all metrics that are captured by Serving as well as core Tensorflow.
Model Server has the ability to batch requests in a variety of settings in order
to realize better throughput. The scheduling for this batching is done globally
for all models and model versions on the server to ensure the best possible
utilization of the underlying resources no matter how many models or model
versions are currently being served by the server
(more details).
You may enable this behavior by setting the --enable_batching
flag and control
it by passing a config to the --batching_parameters_file
flag.
Example batching parameters file:
max_batch_size { value: 128 }
batch_timeout_micros { value: 0 }
max_enqueued_batches { value: 1000000 }
num_batch_threads { value: 8 }
Please refer to the batching guide for an in-depth discussion and refer to the section on parameters to understand how to set the parameters.
In addition to the flags covered so far in the guide, here we list a few other notable ones. For a complete list, please refer to the source code.
--port
: Port to listen on for gRPC API--rest_api_port
: Port to listen on for HTTP/REST API--rest_api_timeout_in_ms
: Timeout for HTTP/REST API calls--file_system_poll_wait_seconds
: The period with which the server polls the filesystem for new model versions at each model's respective model_base_path--enable_model_warmup
: Enables model warmup using user-provided PredictionLogs in assets.extra/ directory