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A distribution strategy for synchronous training on multiple workers.
tf.compat.v1.distribute.experimental.MultiWorkerMirroredStrategy( communication=tf.distribute.experimental.CollectiveCommunication.AUTO, cluster_resolver=None )
This strategy implements synchronous distributed training across multiple
workers, each with potentially multiple GPUs. Similar to
tf.distribute.MirroredStrategy, it creates copies of all variables in the
model on each device across all workers.
It uses CollectiveOps's implementation of multi-worker all-reduce to to keep variables in sync. A collective op is a single op in the TensorFlow graph which can automatically choose an all-reduce algorithm in the TensorFlow runtime according to hardware, network topology and tensor sizes.
By default it uses all local GPUs or CPU for single-worker training.
When 'TF_CONFIG' environment variable is set, it parses cluster_spec, task_type and task_id from 'TF_CONFIG' and turns into a multi-worker strategy which mirrored models on GPUs of all machines in a cluster. In the current implementation, it uses all GPUs in a cluster and it assumes all workers have the same number of GPUs.
You can also pass a
when instantiating the strategy. The task_type, task_id etc. will be parsed
from the resolver instance instead of from the
TF_CONFIG env var.
It supports both eager mode and graph mode. However, for eager mode, it has to set up the eager context in its constructor and therefore all ops in eager mode have to run after the strategy object is created.
Returns the cluster resolver associated with this strategy.
In general, when using a multi-worker
Strategies that intend to have an associated
Single-worker strategies usually do not have a
For more information, please see
||Returns number of replicas over which gradients are aggregated.|
experimental_distribute_dataset( dataset, options=None )
The following is an example:
strategy = tf.distribute.MirroredStrategy() # Create a dataset dataset = dataset_ops.Dataset.TFRecordDataset([ "/a/1.tfr", "/a/2.tfr", "/a/3.tfr", "/a/4.tfr"]) # Distribute that dataset dist_dataset = strategy.experimental_distribute_dataset(dataset) # Iterate over the `tf.distribute.DistributedDataset` for x in dist_dataset: # process dataset elements strategy.run(replica_fn, args=(x,))
In the code snippet above, the
dist_dataset is batched by
GLOBAL_BATCH_SIZE, and we iterate through it
for x in dist_dataset.
containing data for all replicas, which aggregates to a batch of
tf.distribute.Strategy.run will take care of feeding
the right per-replica data in
x to the right
replica_fn executed on each
What's under the hood of this method, when we say the
dataset - gets distributed? It depends on how you set the
tf.data.experimental.DistributeOptions. By default, it is set to
tf.data.experimental.AutoShardPolicy.AUTO. In a multi-worker setting, we
will first attempt to distribute
dataset by detecting whether
being created out of reader datasets (e.g.
tf.data.TextLineDataset, etc.) and if so, try to shard the input files.
Note that there has to be at least one input file per worker. If you have
less than one input file per worker, we suggest that you disable dataset
sharding across workers, by setting the
tf.data.experimental.DistributeOptions.auto_shard_policy to be
If the attempt to shard by file is unsuccessful (i.e. the dataset is not
read from files), we will shard the dataset evenly at the end by
.shard operation to the end of the processing pipeline. This
will cause the entire preprocessing pipeline for all the data to be run on
every worker, and each worker will do redundant work. We will print a
warning if this route is selected.
As mentioned before, within each worker, we will also split the data among all the worker devices (if more than one a present). This will happen even if multi-worker sharding is disabled.
If the above batch splitting and dataset sharding logic is undesirable,
instead, which does not do any automatic splitting or sharding.
You can also use the
element_spec property of the
tf.distribute.DistributedDataset instance returned by this API to query
tf.TypeSpec of the elements returned
by the iterator. This can be used to set the
strategy = tf.distribute.MirroredStrategy() # Create a dataset dataset = dataset_ops.Dataset.TFRecordDataset([ "/a/1.tfr", "/a/2.tfr", "/a/3.tfr", "/a/4.tfr"]) # Distribute that dataset dist_dataset = strategy.experimental_distribute_dataset(dataset) @tf.function(input_signature=[dist_dataset.element_spec]) def train_step(inputs): # train model with inputs return # Iterate over the `tf.distribute.DistributedDataset` for x in dist_dataset: # process dataset elements strategy.run(train_step, args=(x,))