yuyan-10b / megatron /microbatches.py

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	# coding=utf-8
	# Copyright (c) 2020, NVIDIA CORPORATION. All rights reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	"""Megatron number of micro-batches calculators."""

	from abc import ABC
	from abc import abstractmethod


	def build_num_microbatches_calculator(args):

	# Constant num micro-batches.
	if args.rampup_batch_size is None:
	num_microbatches_calculator = ConstantNumMicroBatches(
	args.global_batch_size, args.micro_batch_size,
	args.data_parallel_size)
	if args.rank == 0:
	print('setting number of micro-batches to constant {}'.format(
	num_microbatches_calculator.get()), flush=True)

	else:
	assert len(args.rampup_batch_size) == 3, 'expected the following ' \
	'format: --rampup-batch-size <start batch size> ' \
	'<batch size incerement> <ramp-up samples>'
	start_batch_size = int(args.rampup_batch_size[0])
	batch_size_increment = int(args.rampup_batch_size[1])
	ramup_samples = int(args.rampup_batch_size[2])
	if args.rank == 0:
	print('will use batch size rampup starting from global batch '
	'size {} to global batch size {} with batch size increments '
	'{} over {} samples.'.format(start_batch_size,
	args.global_batch_size,
	batch_size_increment,
	ramup_samples), flush=True)
	num_microbatches_calculator = RampupBatchsizeNumMicroBatches(
	start_batch_size, batch_size_increment, ramup_samples,
	args.global_batch_size, args.micro_batch_size,
	args.data_parallel_size)

	return num_microbatches_calculator


	class NumMicroBatchesCalculator(ABC):

	def __init__(self):
	self.num_micro_batches = None
	self.current_global_batch_size = None

	def get(self):
	return self.num_micro_batches

	def get_current_global_batch_size(self):
	return self.current_global_batch_size

	@abstractmethod
	def update(self, consumed_samples, consistency_check):
	pass


	class ConstantNumMicroBatches(NumMicroBatchesCalculator):

	def __init__(self, global_batch_size, micro_batch_size, data_parallel_size):
	micro_batch_times_data_parallel = micro_batch_size * \
	data_parallel_size
	assert global_batch_size % micro_batch_times_data_parallel == 0, \
	'global batch size ({}) is not divisible by micro batch size ({})' \
	' times data parallel size ({})'.format(global_batch_size,
	micro_batch_size,
	data_parallel_size)
	self.num_micro_batches = global_batch_size // \
	micro_batch_times_data_parallel
	assert self.num_micro_batches >= 1
	self.current_global_batch_size = global_batch_size

	def update(self, consumed_samples, consistency_check):
	pass


	class RampupBatchsizeNumMicroBatches(NumMicroBatchesCalculator):

	def __init__(self, start_batch_size, batch_size_increment, ramup_samples,
	global_batch_size, micro_batch_size, data_parallel_size):
	"""Batch size ramp up.
	Over
	steps = (global-batch-size - start-batch-size) / batch_size_increment
	increment batch size from start-batch-size to global-batch-size using
	rampup-samples / steps
	samples.
	Arguments:
	start_batch_size: global batch size to start with
	batch_size_increment: global batch size increments
	ramup_samples: number of samples to use ramp up global
	batch size from `start_batch_size` to `global_batch_size`
	global_batch_size: global batch size post rampup
	micro_batch_size: micro batch size
	data_parallel_size: data parallel size.
	"""

	self.micro_batch_size = micro_batch_size
	self.data_parallel_size = data_parallel_size
	self.micro_batch_times_data_parallel_size = self.micro_batch_size * \
	self.data_parallel_size
	assert self.micro_batch_times_data_parallel_size > 0

	assert start_batch_size > 0
	self.start_batch_size = start_batch_size

	assert global_batch_size > 0
	self.global_batch_size = global_batch_size
	diff_batch_size = self.global_batch_size - self.start_batch_size
	assert diff_batch_size >= 0
	assert batch_size_increment > 0
	self.batch_size_increment = batch_size_increment
	assert diff_batch_size % batch_size_increment == 0, 'expected ' \
	'global batch size interval ({}) to be divisible by global batch ' \
	'size increment ({})'.format(diff_batch_size, batch_size_increment)

	num_increments = diff_batch_size // self.batch_size_increment
	self.ramup_samples = ramup_samples
	assert self.ramup_samples >= 0
	self.rampup_samples_per_increment = self.ramup_samples / num_increments

	# Initialize number of microbatches.
	self.update(0, False)


	def update(self, consumed_samples, consistency_check):

	if consumed_samples > self.ramup_samples:
	self.current_global_batch_size = self.global_batch_size
	else:
	steps = int(consumed_samples / self.rampup_samples_per_increment)
	self.current_global_batch_size = self.start_batch_size + \
	steps * self.batch_size_increment
	assert self.current_global_batch_size <= self.global_batch_size

	if consistency_check:
	assert self.current_global_batch_size % \
	self.micro_batch_times_data_parallel_size == 0, 'current global ' \
	'batch size ({}) is not divisible by micro-batch-size ({}) times' \
	'data parallel size ({})'.format(self.current_global_batch_size,
	self.micro_batch_size,
	self.data_parallel_size)
	self.num_micro_batches = self.current_global_batch_size // \
	self.micro_batch_times_data_parallel_size