tf.distribute.StrategyExtended
View source on GitHub |
Additional APIs for algorithms that need to be distribution-aware.
tf.distribute.StrategyExtended( container_strategy )
Note: For most usage of tf.distribute.Strategy
, there should be no need to call these methods, since TensorFlow libraries (such as optimizers) already call these methods when needed on your behalf.
Some common use cases of functions on this page:
- Locality
tf.distribute.DistributedValues
can have the same locality as a distributed variable, which leads to a mirrored value residing on the same devices as the variable (as opposed to the compute devices). Such values may be passed to a call to tf.distribute.StrategyExtended.update
to update the value of a variable. You may use tf.distribute.StrategyExtended.colocate_vars_with
to give a variable the same locality as another variable. You may convert a "PerReplica" value to a variable's locality by using tf.distribute.StrategyExtended.reduce_to
or tf.distribute.StrategyExtended.batch_reduce_to
.
- How to update a distributed variable
A distributed variable is variables created on multiple devices. As discussed in the glossary, mirrored variable and SyncOnRead variable are two examples. The standard pattern for updating distributed variables is to:
- In your function passed to
tf.distribute.Strategy.run
, compute a list of (update, variable) pairs. For example, the update might be a gradient of the loss with respect to the variable. - Switch to cross-replica mode by calling
tf.distribute.get_replica_context().merge_call()
with the updates and variables as arguments. - Call
tf.distribute.StrategyExtended.reduce_to(VariableAggregation.SUM, t, v)
(for one variable) ortf.distribute.StrategyExtended.batch_reduce_to
(for a list of variables) to sum the updates. - Call
tf.distribute.StrategyExtended.update(v)
for each variable to update its value.
Steps 2 through 4 are done automatically by class tf.keras.optimizers.Optimizer
if you call its tf.keras.optimizers.Optimizer.apply_gradients
method in a replica context.
In fact, a higher-level solution to update a distributed variable is by calling assign
on the variable as you would do to a regular tf.Variable
. You can call the method in both replica context and cross-replica context. For a mirrored variable, calling assign
in replica context requires you to specify the aggregation
type in the variable constructor. In that case, the context switching and sync described in steps 2 through 4 are handled for you. If you call assign
on mirrored variable in cross-replica context, you can only assign a single value or assign values from another mirrored variable or a mirrored tf.distribute.DistributedValues
. For a SyncOnRead variable, in replica context, you can simply call assign
on it and no aggregation happens under the hood. In cross-replica context, you can only assign a single value to a SyncOnRead variable. One example case is restoring from a checkpoint: if the aggregation
type of the variable is tf.VariableAggregation.SUM
, it is assumed that replica values were added before checkpointing, so at the time of restoring, the value is divided by the number of replicas and then assigned to each replica; if the aggregation
type is tf.VariableAggregation.MEAN
, the value is assigned to each replica directly.
Attributes | |
---|---|
experimental_require_static_shapes | Returns True if static shape is required; False otherwise. |
parameter_devices | Returns the tuple of all devices used to place variables. |
worker_devices | Returns the tuple of all devices used to for compute replica execution. |
Methods
batch_reduce_to
batch_reduce_to( reduce_op, value_destination_pairs, options=None )
Combine multiple reduce_to
calls into one for faster execution.
Similar to reduce_to
, but accepts a list of (value, destinations) pairs. It's more efficient than reduce each value separately.
This API currently can only be called in cross-replica context. Other variants to reduce values across replicas are:
-
tf.distribute.StrategyExtended.reduce_to
: the non-batch version of this API. -
tf.distribute.ReplicaContext.all_reduce
: the counterpart of this API in replica context. It supports both batched and non-batched all-reduce. -
tf.distribute.Strategy.reduce
: a more convenient method to reduce to the host in cross-replica context.
See reduce_to
for more information.
@tf.function def step_fn(var): def merge_fn(strategy, value, var): # All-reduce the value. Note that `value` here is a # `tf.distribute.DistributedValues`. reduced = strategy.extended.batch_reduce_to( tf.distribute.ReduceOp.SUM, [(value, var)])[0] strategy.extended.update(var, lambda var, value: var.assign(value), args=(reduced,)) value = tf.identity(1.) tf.distribute.get_replica_context().merge_call(merge_fn, args=(value, var)) def run(strategy): with strategy.scope(): v = tf.Variable(0.) strategy.run(step_fn, args=(v,)) return v run(tf.distribute.MirroredStrategy(["GPU:0", "GPU:1"])) MirroredVariable:{ 0: <tf.Variable 'Variable:0' shape=() dtype=float32, numpy=2.0>, 1: <tf.Variable 'Variable/replica_1:0' shape=() dtype=float32, numpy=2.0> } run(tf.distribute.experimental.CentralStorageStrategy( compute_devices=["GPU:0", "GPU:1"], parameter_device="CPU:0")) <tf.Variable 'Variable:0' shape=() dtype=float32, numpy=2.0> run(tf.distribute.OneDeviceStrategy("GPU:0")) <tf.Variable 'Variable:0' shape=() dtype=float32, numpy=1.0>
Args | |
---|---|
reduce_op | a tf.distribute.ReduceOp value specifying how values should be combined. Allows using string representation of the enum such as "SUM", "MEAN". |
value_destination_pairs | a sequence of (value, destinations) pairs. See tf.distribute.Strategy.reduce_to for descriptions. |
options | a tf.distribute.experimental.CommunicationOptions . Options to perform collective operations. This overrides the default options if the tf.distribute.Strategy takes one in the constructor. See tf.distribute.experimental.CommunicationOptions for details of the options. |
Returns | |
---|---|
A list of reduced values, one per pair in value_destination_pairs . |
colocate_vars_with
colocate_vars_with( colocate_with_variable )
Scope that controls which devices variables will be created on.
No operations should be added to the graph inside this scope, it should only be used when creating variables (some implementations work by changing variable creation, others work by using a tf.compat.v1.colocate_with() scope).
This may only be used inside self.scope()
.
Example usage:
with strategy.scope(): var1 = tf.Variable(...) with strategy.extended.colocate_vars_with(var1): # var2 and var3 will be created on the same device(s) as var1 var2 = tf.Variable(...) var3 = tf.Variable(...) def fn(v1, v2, v3): # operates on v1 from var1, v2 from var2, and v3 from var3 # `fn` runs on every device `var1` is on, `var2` and `var3` will be there # too. strategy.extended.update(var1, fn, args=(var2, var3))
Args | |
---|---|
colocate_with_variable | A variable created in this strategy's scope() . Variables created while in the returned context manager will be on the same set of devices as colocate_with_variable . |
Returns | |
---|---|
A context manager. |
reduce_to
reduce_to( reduce_op, value, destinations, options=None )
Combine (via e.g. sum or mean) values across replicas.
reduce_to
aggregates tf.distribute.DistributedValues
and distributed variables. It supports both dense values and tf.IndexedSlices
.
This API currently can only be called in cross-replica context. Other variants to reduce values across replicas are:
-
tf.distribute.StrategyExtended.batch_reduce_to
: the batch version of this API. -
tf.distribute.ReplicaContext.all_reduce
: the counterpart of this API in replica context. It supports both batched and non-batched all-reduce. -
tf.distribute.Strategy.reduce
: a more convenient method to reduce to the host in cross-replica context.
destinations
specifies where to reduce the value to, e.g. "GPU:0". You can also pass in a Tensor
, and the destinations will be the device of that tensor. For all-reduce, pass the same to value
and destinations
.
It can be used in tf.distribute.ReplicaContext.merge_call
to write code that works for all tf.distribute.Strategy
.
@tf.function def step_fn(var): def merge_fn(strategy, value, var): # All-reduce the value. Note that `value` here is a # `tf.distribute.DistributedValues`. reduced = strategy.extended.reduce_to(tf.distribute.ReduceOp.SUM, value, destinations=var) strategy.extended.update(var, lambda var, value: var.assign(value), args=(reduced,)) value = tf.identity(1.) tf.distribute.get_replica_context().merge_call(merge_fn, args=(value, var)) def run(strategy): with strategy.scope(): v = tf.Variable(0.) strategy.run(step_fn, args=(v,)) return v run(tf.distribute.MirroredStrategy(["GPU:0", "GPU:1"])) MirroredVariable:{ 0: <tf.Variable 'Variable:0' shape=() dtype=float32, numpy=2.0>, 1: <tf.Variable 'Variable/replica_1:0' shape=() dtype=float32, numpy=2.0> } run(tf.distribute.experimental.CentralStorageStrategy( compute_devices=["GPU:0", "GPU:1"], parameter_device="CPU:0")) <tf.Variable 'Variable:0' shape=() dtype=float32, numpy=2.0> run(tf.distribute.OneDeviceStrategy("GPU:0")) <tf.Variable 'Variable:0' shape=() dtype=float32, numpy=1.0>
Args | |
---|---|
reduce_op | a tf.distribute.ReduceOp value specifying how values should be combined. Allows using string representation of the enum such as "SUM", "MEAN". |
value | a tf.distribute.DistributedValues , or a tf.Tensor like object. |
destinations | a tf.distribute.DistributedValues , a tf.Variable , a tf.Tensor alike object, or a device string. It specifies the devices to reduce to. To perform an all-reduce, pass the same to value and destinations . Note that if it's a tf.Variable , the value is reduced to the devices of that variable, and this method doesn't update the variable. |
options | a tf.distribute.experimental.CommunicationOptions . Options to perform collective operations. This overrides the default options if the tf.distribute.Strategy takes one in the constructor. See tf.distribute.experimental.CommunicationOptions for details of the options. |
Returns | |
---|---|
A tensor or value reduced to destinations . |
update
update( var, fn, args=(), kwargs=None, group=True )
Run fn
to update var
using inputs mirrored to the same devices.
tf.distribute.StrategyExtended.update
takes a distributed variable var
to be updated, an update function fn
, and args
and kwargs
for fn
. It applies fn
to each component variable of var
and passes corresponding values from args
and kwargs
. Neither args
nor kwargs
may contain per-replica values. If they contain mirrored values, they will be unwrapped before calling fn
. For example, fn
can be assign_add
and args
can be a mirrored DistributedValues where each component contains the value to be added to this mirrored variable var
. Calling update
will call assign_add
on each component variable of var
with the corresponding tensor value on that device.
Example usage:
strategy = tf.distribute.MirroredStrategy(['GPU:0', 'GPU:1']) # With 2 devices with strategy.scope(): v = tf.Variable(5.0, aggregation=tf.VariableAggregation.SUM) def update_fn(v): return v.assign(1.0) result = strategy.extended.update(v, update_fn) # result is # Mirrored:{ # 0: tf.Tensor(1.0, shape=(), dtype=float32), # 1: tf.Tensor(1.0, shape=(), dtype=float32) # }
If var
is mirrored across multiple devices, then this method implements logic as following:
results = {} for device, v in var: with tf.device(device): # args and kwargs will be unwrapped if they are mirrored. results[device] = fn(v, *args, **kwargs) return merged(results)
Otherwise, this method returns fn(var, *args, **kwargs)
colocated with var
.
Args | |
---|---|
var | Variable, possibly mirrored to multiple devices, to operate on. |
fn | Function to call. Should take the variable as the first argument. |
args | Tuple or list. Additional positional arguments to pass to fn() . |
kwargs | Dict with keyword arguments to pass to fn() . |
group | Boolean. Defaults to True. If False, the return value will be unwrapped. |
Returns | |
---|---|
By default, the merged return value of fn across all replicas. The merged result has dependencies to make sure that if it is evaluated at all, the side effects (updates) will happen on every replica. If instead "group=False" is specified, this function will return a nest of lists where each list has an element per replica, and the caller is responsible for ensuring all elements are executed. |
value_container
value_container( value )
Returns the container that this per-replica value
belongs to.
Args | |
---|---|
value | A value returned by run() or a variable created in scope() . |
Returns | |
---|---|
A container that value belongs to. If value does not belong to any container (including the case of container having been destroyed), returns the value itself. value in experimental_local_results(value_container(value)) will always be true. |
variable_created_in_scope
variable_created_in_scope( v )
Tests whether v
was created while this strategy scope was active.
Variables created inside the strategy scope are "owned" by it:
strategy = tf.distribute.MirroredStrategy() with strategy.scope(): v = tf.Variable(1.) strategy.extended.variable_created_in_scope(v) True
Variables created outside the strategy are not owned by it:
strategy = tf.distribute.MirroredStrategy() v = tf.Variable(1.) strategy.extended.variable_created_in_scope(v) False
Args | |
---|---|
v | A tf.Variable instance. |
Returns | |
---|---|
True if v was created inside the scope, False if not. |
© 2020 The TensorFlow Authors. All rights reserved.
Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/versions/r2.4/api_docs/python/tf/distribute/StrategyExtended