def graph_fn(global_step):
learning_rate_base = 1.0
total_steps = 100
warmup_learning_rate = 0.1
warmup_steps = 9
learning_rate = learning_schedules.cosine_decay_with_warmup(
global_step, learning_rate_base, total_steps,
warmup_learning_rate, warmup_steps)
return (learning_rate, )
def _create_learning_rate(learning_rate_config):
"""Create optimizer learning rate based on config.
Args:
learning_rate_config: A LearningRate proto message.
Returns:
A learning rate.
Raises:
ValueError: when using an unsupported input data type.
"""
learning_rate = None
learning_rate_type = learning_rate_config.WhichOneof('learning_rate')
if learning_rate_type == 'constant_learning_rate':
config = learning_rate_config.constant_learning_rate
learning_rate = tf.constant(config.learning_rate, dtype=tf.float32,
name='learning_rate')
if learning_rate_type == 'exponential_decay_learning_rate':
config = learning_rate_config.exponential_decay_learning_rate
learning_rate = learning_schedules.exponential_decay_with_burnin(
tf.train.get_or_create_global_step(),
config.initial_learning_rate,
config.decay_steps,
config.decay_factor,
burnin_learning_rate=config.burnin_learning_rate,
burnin_steps=config.burnin_steps,
min_learning_rate=config.min_learning_rate,
staircase=config.staircase)
if learning_rate_type == 'manual_step_learning_rate':
config = learning_rate_config.manual_step_learning_rate
if not config.schedule:
raise ValueError('Empty learning rate schedule.')
learning_rate_step_boundaries = [x.step for x in config.schedule]
learning_rate_sequence = [config.initial_learning_rate]
learning_rate_sequence += [x.learning_rate for x in config.schedule]
learning_rate = learning_schedules.manual_stepping(
tf.train.get_or_create_global_step(), learning_rate_step_boundaries,
learning_rate_sequence, config.warmup)
if learning_rate_type == 'cosine_decay_learning_rate':
config = learning_rate_config.cosine_decay_learning_rate
learning_rate = learning_schedules.cosine_decay_with_warmup(
tf.train.get_or_create_global_step(),
config.learning_rate_base,
config.total_steps,
config.warmup_learning_rate,
config.warmup_steps,
config.hold_base_rate_steps)
if learning_rate is None:
raise ValueError('Learning_rate %s not supported.' % learning_rate_type)
return learning_rate
def graph_fn(global_step):
learning_rate_base = 1.0
total_steps = 120
warmup_learning_rate = 0.1
warmup_steps = 9
hold_base_rate_steps = 20
learning_rate = learning_schedules.cosine_decay_with_warmup(
global_step, learning_rate_base, total_steps,
warmup_learning_rate, warmup_steps, hold_base_rate_steps)
assert learning_rate.op.name.endswith('learning_rate')
return (learning_rate, )