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# Copyright 2023 The TensorFlow Authors. 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.
"""Image classification configuration definition."""
import dataclasses
import os
from typing import List, Optional, Tuple, Union, Sequence
from official.core import config_definitions as cfg
from official.core import exp_factory
from official.modeling import hyperparams
from official.modeling import optimization
from official.vision.configs import common
from official.vision.configs import backbones
@dataclasses.dataclass
class DataConfig(cfg.DataConfig):
"""Input config for training."""
input_path: Union[Sequence[str], str, hyperparams.Config] = ''
weights: Optional[hyperparams.base_config.Config] = None
global_batch_size: int = 0
is_training: bool = True
dtype: str = 'float32'
shuffle_buffer_size: int = 10000
cycle_length: int = 10
is_multilabel: bool = False
aug_rand_hflip: bool = True
aug_crop: Optional[bool] = True
crop_area_range: Optional[Tuple[float, float]] = (0.08, 1.0)
aug_type: Optional[
common.Augmentation] = None # Choose from AutoAugment and RandAugment.
three_augment: bool = False
color_jitter: float = 0.
random_erasing: Optional[common.RandomErasing] = None
file_type: str = 'tfrecord'
image_field_key: str = 'image/encoded'
label_field_key: str = 'image/class/label'
decode_jpeg_only: bool = True
mixup_and_cutmix: Optional[common.MixupAndCutmix] = None
decoder: Optional[common.DataDecoder] = dataclasses.field(
default_factory=common.DataDecoder
)
# Keep for backward compatibility.
aug_policy: Optional[str] = None # None, 'autoaug', or 'randaug'.
randaug_magnitude: Optional[int] = 10
# Determines ratio between the side of the cropped image and the short side of
# the original image.
center_crop_fraction: Optional[float] = 0.875
# Interpolation method for resizing image in Parser for both training and eval
tf_resize_method: str = 'bilinear'
# Repeat augmentation puts multiple augmentations of the same image in a batch
# https://arxiv.org/abs/1902.05509
repeated_augment: Optional[int] = None
@dataclasses.dataclass
class ImageClassificationModel(hyperparams.Config):
"""The model config."""
num_classes: int = 0
input_size: List[int] = dataclasses.field(default_factory=list)
backbone: backbones.Backbone = dataclasses.field(
default_factory=lambda: backbones.Backbone( # pylint: disable=g-long-lambda
type='resnet', resnet=backbones.ResNet()
)
)
dropout_rate: float = 0.0
norm_activation: common.NormActivation = dataclasses.field(
default_factory=lambda: common.NormActivation(use_sync_bn=False)
)
# Adds a BatchNormalization layer pre-GlobalAveragePooling in classification
add_head_batch_norm: bool = False
kernel_initializer: str = 'random_uniform'
# Whether to output softmax results instead of logits.
output_softmax: bool = False
@dataclasses.dataclass
class Losses(hyperparams.Config):
loss_weight: float = 1.0
one_hot: bool = True
label_smoothing: float = 0.0
l2_weight_decay: float = 0.0
soft_labels: bool = False
# Converts multi-class classification to multi-label classification. Weights
# each object class equally in the loss function, ignoring their size.
use_binary_cross_entropy: bool = False
@dataclasses.dataclass
class Evaluation(hyperparams.Config):
top_k: int = 5
precision_and_recall_thresholds: Optional[List[float]] = None
report_per_class_precision_and_recall: bool = False
@dataclasses.dataclass
class ImageClassificationTask(cfg.TaskConfig):
"""The task config."""
model: ImageClassificationModel = dataclasses.field(
default_factory=ImageClassificationModel
)
train_data: DataConfig = dataclasses.field(
default_factory=lambda: DataConfig(is_training=True)
)
validation_data: DataConfig = dataclasses.field(
default_factory=lambda: DataConfig(is_training=False)
)
losses: Losses = dataclasses.field(default_factory=Losses)
evaluation: Evaluation = dataclasses.field(default_factory=Evaluation)
train_input_partition_dims: Optional[List[int]] = dataclasses.field(
default_factory=list)
eval_input_partition_dims: Optional[List[int]] = dataclasses.field(
default_factory=list)
init_checkpoint: Optional[str] = None
init_checkpoint_modules: str = 'all' # all or backbone
model_output_keys: Optional[List[int]] = dataclasses.field(
default_factory=list)
freeze_backbone: bool = False
@exp_factory.register_config_factory('image_classification')
def image_classification() -> cfg.ExperimentConfig:
"""Image classification general."""
return cfg.ExperimentConfig(
task=ImageClassificationTask(),
trainer=cfg.TrainerConfig(),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
IMAGENET_TRAIN_EXAMPLES = 1281167
IMAGENET_VAL_EXAMPLES = 50000
IMAGENET_INPUT_PATH_BASE = 'imagenet-2012-tfrecord'
@exp_factory.register_config_factory('resnet_imagenet')
def image_classification_imagenet() -> cfg.ExperimentConfig:
"""Image classification on imagenet with resnet."""
train_batch_size = 4096
eval_batch_size = 4096
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
runtime=cfg.RuntimeConfig(enable_xla=True),
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
input_size=[224, 224, 3],
backbone=backbones.Backbone(
type='resnet', resnet=backbones.ResNet(model_id=50)),
norm_activation=common.NormActivation(
norm_momentum=0.9, norm_epsilon=1e-5, use_sync_bn=False)),
losses=Losses(l2_weight_decay=1e-4),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=90 * steps_per_epoch,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'sgd',
'sgd': {
'momentum': 0.9
}
},
'learning_rate': {
'type': 'stepwise',
'stepwise': {
'boundaries': [
30 * steps_per_epoch, 60 * steps_per_epoch,
80 * steps_per_epoch
],
'values': [
0.1 * train_batch_size / 256,
0.01 * train_batch_size / 256,
0.001 * train_batch_size / 256,
0.0001 * train_batch_size / 256,
]
}
},
'warmup': {
'type': 'linear',
'linear': {
'warmup_steps': 5 * steps_per_epoch,
'warmup_learning_rate': 0
}
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
@exp_factory.register_config_factory('resnet_rs_imagenet')
def image_classification_imagenet_resnetrs() -> cfg.ExperimentConfig:
"""Image classification on imagenet with resnet-rs."""
train_batch_size = 4096
eval_batch_size = 4096
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
input_size=[160, 160, 3],
backbone=backbones.Backbone(
type='resnet',
resnet=backbones.ResNet(
model_id=50,
stem_type='v1',
resnetd_shortcut=True,
replace_stem_max_pool=True,
se_ratio=0.25,
stochastic_depth_drop_rate=0.0)),
dropout_rate=0.25,
norm_activation=common.NormActivation(
norm_momentum=0.0,
norm_epsilon=1e-5,
use_sync_bn=False,
activation='swish')),
losses=Losses(l2_weight_decay=4e-5, label_smoothing=0.1),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size,
aug_type=common.Augmentation(
type='randaug', randaug=common.RandAugment(magnitude=10))),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=350 * steps_per_epoch,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'sgd',
'sgd': {
'momentum': 0.9
}
},
'ema': {
'average_decay': 0.9999,
'trainable_weights_only': False,
},
'learning_rate': {
'type': 'cosine',
'cosine': {
'initial_learning_rate': 1.6,
'decay_steps': 350 * steps_per_epoch
}
},
'warmup': {
'type': 'linear',
'linear': {
'warmup_steps': 5 * steps_per_epoch,
'warmup_learning_rate': 0
}
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
@exp_factory.register_config_factory('revnet_imagenet')
def image_classification_imagenet_revnet() -> cfg.ExperimentConfig:
"""Returns a revnet config for image classification on imagenet."""
train_batch_size = 4096
eval_batch_size = 4096
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
input_size=[224, 224, 3],
backbone=backbones.Backbone(
type='revnet', revnet=backbones.RevNet(model_id=56)),
norm_activation=common.NormActivation(
norm_momentum=0.9, norm_epsilon=1e-5, use_sync_bn=False),
add_head_batch_norm=True),
losses=Losses(l2_weight_decay=1e-4),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=90 * steps_per_epoch,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'sgd',
'sgd': {
'momentum': 0.9
}
},
'learning_rate': {
'type': 'stepwise',
'stepwise': {
'boundaries': [
30 * steps_per_epoch, 60 * steps_per_epoch,
80 * steps_per_epoch
],
'values': [0.8, 0.08, 0.008, 0.0008]
}
},
'warmup': {
'type': 'linear',
'linear': {
'warmup_steps': 5 * steps_per_epoch,
'warmup_learning_rate': 0
}
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
@exp_factory.register_config_factory('mobilenet_imagenet')
def image_classification_imagenet_mobilenet() -> cfg.ExperimentConfig:
"""Image classification on imagenet with mobilenet."""
train_batch_size = 4096
eval_batch_size = 4096
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
dropout_rate=0.2,
input_size=[224, 224, 3],
backbone=backbones.Backbone(
type='mobilenet',
mobilenet=backbones.MobileNet(
model_id='MobileNetV2', filter_size_scale=1.0)),
norm_activation=common.NormActivation(
norm_momentum=0.997, norm_epsilon=1e-3, use_sync_bn=False)),
losses=Losses(l2_weight_decay=1e-5, label_smoothing=0.1),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=500 * steps_per_epoch,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'rmsprop',
'rmsprop': {
'rho': 0.9,
'momentum': 0.9,
'epsilon': 0.002,
}
},
'learning_rate': {
'type': 'exponential',
'exponential': {
'initial_learning_rate':
0.008 * (train_batch_size // 128),
'decay_steps':
int(2.5 * steps_per_epoch),
'decay_rate':
0.98,
'staircase':
True
}
},
'warmup': {
'type': 'linear',
'linear': {
'warmup_steps': 5 * steps_per_epoch,
'warmup_learning_rate': 0
}
},
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
@exp_factory.register_config_factory('deit_imagenet_pretrain')
def image_classification_imagenet_deit_pretrain() -> cfg.ExperimentConfig:
"""Image classification on imagenet with vision transformer."""
train_batch_size = 4096 # originally was 1024 but 4096 better for tpu v3-32
eval_batch_size = 4096 # originally was 1024 but 4096 better for tpu v3-32
label_smoothing = 0.1
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
input_size=[224, 224, 3],
kernel_initializer='zeros',
backbone=backbones.Backbone(
type='vit',
vit=backbones.VisionTransformer(
model_name='vit-b16',
representation_size=768,
init_stochastic_depth_rate=0.1,
original_init=False,
transformer=backbones.Transformer(
dropout_rate=0.0, attention_dropout_rate=0.0)))),
losses=Losses(
l2_weight_decay=0.0,
label_smoothing=label_smoothing,
one_hot=False,
soft_labels=True),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size,
aug_type=common.Augmentation(
type='randaug',
randaug=common.RandAugment(
magnitude=9, exclude_ops=['Cutout'])),
mixup_and_cutmix=common.MixupAndCutmix(
label_smoothing=label_smoothing)),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=300 * steps_per_epoch,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'adamw',
'adamw': {
'weight_decay_rate': 0.05,
'include_in_weight_decay': r'.*(kernel|weight):0$',
'gradient_clip_norm': 0.0
}
},
'learning_rate': {
'type': 'cosine',
'cosine': {
'initial_learning_rate': 0.0005 * train_batch_size / 512,
'decay_steps': 300 * steps_per_epoch,
}
},
'warmup': {
'type': 'linear',
'linear': {
'warmup_steps': 5 * steps_per_epoch,
'warmup_learning_rate': 0
}
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
@exp_factory.register_config_factory('vit_imagenet_pretrain')
def image_classification_imagenet_vit_pretrain() -> cfg.ExperimentConfig:
"""Image classification on imagenet with vision transformer."""
train_batch_size = 4096
eval_batch_size = 4096
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
input_size=[224, 224, 3],
kernel_initializer='zeros',
backbone=backbones.Backbone(
type='vit',
vit=backbones.VisionTransformer(
model_name='vit-b16', representation_size=768))),
losses=Losses(l2_weight_decay=0.0),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=300 * steps_per_epoch,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'adamw',
'adamw': {
'weight_decay_rate': 0.3,
'include_in_weight_decay': r'.*(kernel|weight):0$',
'gradient_clip_norm': 0.0
}
},
'learning_rate': {
'type': 'cosine',
'cosine': {
'initial_learning_rate': 0.003 * train_batch_size / 4096,
'decay_steps': 300 * steps_per_epoch,
}
},
'warmup': {
'type': 'linear',
'linear': {
'warmup_steps': 10000,
'warmup_learning_rate': 0
}
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
@exp_factory.register_config_factory('vit_imagenet_finetune')
def image_classification_imagenet_vit_finetune() -> cfg.ExperimentConfig:
"""Image classification on imagenet with vision transformer."""
train_batch_size = 512
eval_batch_size = 512
steps_per_epoch = IMAGENET_TRAIN_EXAMPLES // train_batch_size
config = cfg.ExperimentConfig(
task=ImageClassificationTask(
model=ImageClassificationModel(
num_classes=1001,
input_size=[384, 384, 3],
backbone=backbones.Backbone(
type='vit',
vit=backbones.VisionTransformer(model_name='vit-b16'))),
losses=Losses(l2_weight_decay=0.0),
train_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'train*'),
is_training=True,
global_batch_size=train_batch_size),
validation_data=DataConfig(
input_path=os.path.join(IMAGENET_INPUT_PATH_BASE, 'valid*'),
is_training=False,
global_batch_size=eval_batch_size)),
trainer=cfg.TrainerConfig(
steps_per_loop=steps_per_epoch,
summary_interval=steps_per_epoch,
checkpoint_interval=steps_per_epoch,
train_steps=20000,
validation_steps=IMAGENET_VAL_EXAMPLES // eval_batch_size,
validation_interval=steps_per_epoch,
optimizer_config=optimization.OptimizationConfig({
'optimizer': {
'type': 'sgd',
'sgd': {
'momentum': 0.9,
'global_clipnorm': 1.0,
}
},
'learning_rate': {
'type': 'cosine',
'cosine': {
'initial_learning_rate': 0.003,
'decay_steps': 20000,
}
}
})),
restrictions=[
'task.train_data.is_training != None',
'task.validation_data.is_training != None'
])
return config
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