Module: tf.data.experimental.service

API for using the tf.data service.

This module contains:

  1. tf.data server implementations for running the tf.data service.
  2. APIs for registering datasets with the tf.data service and reading from the registered datasets.

The tf.data service provides the following benefits:

  • Horizontal scaling of tf.data input pipeline processing to solve input bottlenecks.
  • Data coordination for distributed training. Coordinated reads enable all replicas to train on similar-length examples across each global training step, improving step times in synchronous training.
  • Dynamic balancing of data across training replicas.
dispatcher = tf.data.experimental.service.DispatchServer()
dispatcher_address = dispatcher.target.split("://")[1]
worker = tf.data.experimental.service.WorkerServer(
    tf.data.experimental.service.WorkerConfig(
        dispatcher_address=dispatcher_address))
dataset = tf.data.Dataset.range(10)
dataset = dataset.apply(tf.data.experimental.service.distribute(
    processing_mode="parallel_epochs", service=dispatcher.target))
print(list(dataset.as_numpy_iterator()))
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

Setup

This section goes over how to set up the tf.data service.

Run tf.data servers

The tf.data service consists of one dispatch server and n worker servers. tf.data servers should be brought up alongside your training jobs, then brought down when the jobs are finished. Use tf.data.experimental.service.DispatchServer to start a dispatch server, and tf.data.experimental.service.WorkerServer to start worker servers. Servers can be run in the same process for testing purposes, or scaled up on separate machines.

See https://github.com/tensorflow/ecosystem/tree/master/data_service for an example of using Google Kubernetes Engine (GKE) to manage the tf.data service. Note that the server implementation in tf_std_data_server.py is not GKE-specific, and can be used to run the tf.data service in other contexts.

Custom ops

If your dataset uses custom ops, these ops need to be made available to tf.data servers by calling load_op_library from the dispatcher and worker processes at startup.

Usage

Users interact with tf.data service by programmatically registering their datasets with tf.data service, then creating datasets that read from the registered datasets. The register_dataset function registers a dataset, then the from_dataset_id function creates a new dataset which reads from the registered dataset. The distribute function wraps register_dataset and from_dataset_id into a single convenient transformation which registers its input dataset and then reads from it. distribute enables tf.data service to be used with a one-line code change. However, it assumes that the dataset is created and consumed by the same entity and this assumption might not always be valid or desirable. In particular, in certain scenarios, such as distributed training, it might be desirable to decouple the creation and consumption of the dataset (via register_dataset and from_dataset_id respectively) to avoid having to create the dataset on each of the training workers.

Example

distribute

To use the distribute transformation, apply the transformation after the prefix of your input pipeline that you would like to be executed using tf.data service (typically at the end).

dataset = ...  # Define your dataset here.
# Move dataset processing from the local machine to the tf.data service
dataset = dataset.apply(
    tf.data.experimental.service.distribute(
        processing_mode="parallel_epochs",
        service=FLAGS.tf_data_service_address,
        job_name="shared_job"))
# Any transformations added after `distribute` will be run on the local machine.
dataset = dataset.prefetch(1)

The above code will create a tf.data service "job", which iterates through the dataset to generate data. To share the data from a job across multiple clients (e.g. when using TPUStrategy or MultiWorkerMirroredStrategy), set a common job_name across all clients.

register_dataset and from_dataset_id

register_dataset registers a dataset with the tf.data service, returning a dataset id for the registered dataset. from_dataset_id creates a dataset that reads from the registered dataset. These APIs can be used to reduce dataset building time for distributed training. Instead of building the dataset on all training workers, we can build the dataset just once and then register the dataset using register_dataset. Then all workers can call from_dataset_id without needing to build the dataset themselves.

dataset = ...  # Define your dataset here.
dataset_id = tf.data.experimental.service.register_dataset(
    service=FLAGS.tf_data_service_address,
    dataset=dataset)
# Use `from_dataset_id` to create per-worker datasets.
per_worker_datasets = {}
for worker in workers:
  per_worker_datasets[worker] = tf.data.experimental.service.from_dataset_id(
      processing_mode="parallel_epochs",
      service=FLAGS.tf_data_service_address,
      dataset_id=dataset_id,
      job_name="shared_job"))

Processing Modes

tf.data service supports two processing modes: "parallel_epochs" and "distributed_epoch". "parallel_epochs" is suitable for training which does not require visitation guarantees (i.e. clean separation of epoch boundaries), while "distributed_epoch" is suitable for training which require clean separation of epoch boundaries, where instead of processing multiple epochs of data in a parallel fashion the aim is to process a single epoch of data in a distributed fashion. "parallel_epochs" mode is in general more performant, because it requires less coordination. "parallel_epochs" mode also supports a wider range of input pipelines, not requiring splittability like "distributed_epoch" mode.

Parallel Epochs

In "parallel_epochs" mode, the entire input dataset will be processed independently by each of the tf.data service workers. For this reason, it is important to shuffle data (e.g. filenames) non-deterministically, so that each worker will process the elements of the dataset in a different order. "parallel_epochs" can be used to distribute datasets that aren't splittable.

Distributed Epoch

In distributed epoch mode, tf.data service divides the dataset into two components: a source component that generates "splits" such as filenames, and a processing component that takes in splits and outputs dataset elements. The source component is executed in a centralized fashion by the tf.data service dispatcher, which generates different splits of input data. The processing component is executed in a parallel fashion by the tf.data service workers, each operating on a different set of input data splits.

For example, consider the following dataset:

dataset = tf.data.Dataset.from_tensor_slices(filenames)
dataset = dataset.interleave(TFRecordDataset)
dataset = dataset.map(preprocess_fn)
dataset = dataset.batch(batch_size)
dataset = dataset.apply(
    tf.data.experimental.service.distribute(
        processing_mode="distributed_epochs", ...)

The from_tensor_slices will be run on the dispatcher, while the interleave, map, and batch will be run on tf.data service workers. The workers will pull filenames from the dispatcher for processing. To process a dataset with distributed epoch mode, the dataset must have a splittable source, and all of its transformations must be compatible with splitting. While most source and transformations support splitting, there are exceptions, such as zip or sample_from_datasets. Please file a Github issue if you would like to use distributed epoch processing for a currently unsupported dataset source or transformation.

Jobs

A tf.data service "job" refers to the process of reading from a dataset managed by the tf.data service, using one or more data consumers. Jobs are created when iterating over datasets that read from tf.data service. The data produced by a job is determined by (1) dataset associated with the job and (2) the job's processing mode. For example, if a job is created for the dataset Dataset.range(5), and the processing mode is "parallel_epochs", each tf.data worker will produce the elements {0, 1, 2, 3, 4} for the job, resulting in the job producing 5 * num_workers elements. If the processing mode is "distributed_epoch", the job will only produce 5 elements.

One or more consumers can consume data from a job. By default, jobs are "anonymous", meaning that only the consumer which created the job can read from it. To share the output of a job across multiple consumers, you can set a common job_name.

Fault Tolerance

By default, the tf.data dispatch server stores its state in-memory, making it a single point of failure during training. To avoid this, pass fault_tolerant_mode=True when creating your DispatchServer. Dispatcher fault tolerance requires work_dir to be configured and accessible from the dispatcher both before and after restart (e.g. a GCS path). With fault tolerant mode enabled, the dispatcher will journal its state to the work directory so that no state is lost when the dispatcher is restarted.

WorkerServers may be freely restarted, added, or removed during training. At startup, workers will register with the dispatcher and begin processing all outstanding jobs from the beginning.

Visitation Guarantees

If no workers are restarted during training, "distributed_epoch" mode will visit every example exactly once. If workers are restarted during training, the splits they were processing will not be fully visited. The dispatcher maintains a cursor through the dataset's splits. Assuming fault tolerance is enabled (See "Fault Tolerance" above), the dispatcher will store cursor state in write-ahead logs so that the cursor can be restored in case the dispatcher is restarted mid-training. This provides an at-most-once visitation guarantee in the presence of server restarts.

"parallel_epochs" mode provides no visitation guarantees. It is expected that the dataset will contain random shuffling, so added or restarted workers will instantiate a new copy of the dataset and begin producing data from the beginning.

Usage with tf.distribute

tf.distribute is the TensorFlow API for distributed training. There are several ways to use tf.data with tf.distribute: strategy.experimental_distribute_dataset, strategy.distribute_datasets_from_function, and (for PSStrategy) coordinator.create_per_worker_dataset. The following sections give code examples for each.

In general we recommend using tf.data.experimental.service.{register_dataset,from_dataset_id} over tf.data.experimental.sevice.distribute for two reasons:

  • The dataset only needs to be constructed and optimized once, instead of once per worker. This can significantly reduce startup time, because the current experimental_distribute_dataset and distribute_datasets_from_function implementations create and optimize worker datasets sequentially.
  • If a dataset depends on lookup tables or variables that are only present on one host, the dataset needs to be registered from that host. Typically this only happens when resources are placed on the chief or worker 0. Registering the dataset from the chief will avoid issues with depending on remote resources.

strategy.experimental_distribute_dataset

Nothing special is required when using strategy.experimental_distribute_dataset, just apply register_dataset and from_dataset_id as above, making sure to specify a job_name so that all workers consume from the same tf.data service job.

dataset = ...  # Define your dataset here.
dataset_id = tf.data.experimental.service.register_dataset(
    service=FLAGS.tf_data_service_address,
    dataset=dataset)
dataset = tf.data.experimental.service.from_dataset_id(
    processing_mode="parallel_epochs",
    service=FLAGS.tf_data_service_address,
    dataset_id=dataset_id,
    job_name="shared_job"))

dataset = strategy.experimental_distribute_dataset(dataset)

strategy.distribute_datasets_from_function

First, make sure the dataset produced by the dataset_fn does not depend on the input_context for the training worker on which it is run. Instead of each worker building its own (sharded) dataset, one worker should register an unsharded dataset, and the remaining workers should consume data from that dataset.

dataset = dataset_fn()
dataset_id = tf.data.experimental.service.register_dataset(
    service=FLAGS.tf_data_service_address,
    dataset=dataset)

def new_dataset_fn(input_context):
  del input_context
  return tf.data.experimental.service.from_dataset_id(
      processing_mode="parallel_epochs",
      service=FLAGS.tf_data_service_address,
      dataset_id=dataset_id,
      job_name="shared_job"))

dataset = strategy.distribute_datasets_from_function(new_dataset_fn)

coordinator.create_per_worker_dataset

create_per_worker_dataset works the same as distribute_datasets_from_function.

dataset = dataset_fn()
dataset_id = tf.data.experimental.service.register_dataset(
    service=FLAGS.tf_data_service_address,
    dataset=dataset)

def new_dataset_fn(input_context):
  del input_context
  return tf.data.experimental.service.from_dataset_id(
      processing_mode="parallel_epochs",
      service=FLAGS.tf_data_service_address,
      dataset_id=dataset_id,
      job_name="shared_job"))

dataset = coordinator.create_per_worker_dataset(new_dataset_fn)

Limitations

  • Python-based data processing: Datasets which use Python-based data processing (e.g. tf.py_function, tf.numpy_function, or tf.data.Dataset.from_generator) are currently not supported.
  • Non-Serializable Resources: Datasets may only depend on TF resources that support serialization. Serialization is currently supported for lookup tables and variables. If your dataset depends on a TF resource that cannot be serialized, please file a Github issue.
  • Remote Resources: If a dataset depends on a resource, the dataset must be registered from the same process that created the resource (e.g. the "chief" job of ParameterServerStrategy).

Classes

class DispatchServer: An in-process tf.data service dispatch server.

class DispatcherConfig: Configuration class for tf.data service dispatchers.

class WorkerConfig: Configuration class for tf.data service dispatchers.

class WorkerServer: An in-process tf.data service worker server.

Functions

distribute(...): A transformation that moves dataset processing to the tf.data service.

from_dataset_id(...): Creates a dataset which reads data from the tf.data service.

register_dataset(...): Registers a dataset with the tf.data service.