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YOLO-World3 / third_party /mmyolo /configs /yolov7 /yolov7_l_syncbn_fast_8x16b-300e_coco.py

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	_base_ = ['../_base_/default_runtime.py', '../_base_/det_p5_tta.py']

	# ========================Frequently modified parameters======================
	# -----data related-----
	data_root = 'data/coco/' # Root path of data
	# Path of train annotation file
	train_ann_file = 'annotations/instances_train2017.json'
	train_data_prefix = 'train2017/' # Prefix of train image path
	# Path of val annotation file
	val_ann_file = 'annotations/instances_val2017.json'
	val_data_prefix = 'val2017/' # Prefix of val image path

	num_classes = 80 # Number of classes for classification
	# Batch size of a single GPU during training
	train_batch_size_per_gpu = 16
	# Worker to pre-fetch data for each single GPU during training
	train_num_workers = 8
	# persistent_workers must be False if num_workers is 0
	persistent_workers = True

	# -----model related-----
	# Basic size of multi-scale prior box
	anchors = [
	[(12, 16), (19, 36), (40, 28)], # P3/8
	[(36, 75), (76, 55), (72, 146)], # P4/16
	[(142, 110), (192, 243), (459, 401)] # P5/32
	]
	# -----train val related-----
	# Base learning rate for optim_wrapper. Corresponding to 8xb16=128 bs
	base_lr = 0.01
	max_epochs = 300 # Maximum training epochs

	num_epoch_stage2 = 30 # The last 30 epochs switch evaluation interval
	val_interval_stage2 = 1 # Evaluation interval

	model_test_cfg = dict(
	# The config of multi-label for multi-class prediction.
	multi_label=True,
	# The number of boxes before NMS.
	nms_pre=30000,
	score_thr=0.001, # Threshold to filter out boxes.
	nms=dict(type='nms', iou_threshold=0.65), # NMS type and threshold
	max_per_img=300) # Max number of detections of each image

	# ========================Possible modified parameters========================
	# -----data related-----
	img_scale = (640, 640) # width, height
	# Dataset type, this will be used to define the dataset
	dataset_type = 'YOLOv5CocoDataset'
	# Batch size of a single GPU during validation
	val_batch_size_per_gpu = 1
	# Worker to pre-fetch data for each single GPU during validation
	val_num_workers = 2

	# Config of batch shapes. Only on val.
	# It means not used if batch_shapes_cfg is None.
	batch_shapes_cfg = dict(
	type='BatchShapePolicy',
	batch_size=val_batch_size_per_gpu,
	img_size=img_scale[0],
	# The image scale of padding should be divided by pad_size_divisor
	size_divisor=32,
	# Additional paddings for pixel scale
	extra_pad_ratio=0.5)

	# -----model related-----
	strides = [8, 16, 32] # Strides of multi-scale prior box
	num_det_layers = 3 # The number of model output scales
	norm_cfg = dict(type='BN', momentum=0.03, eps=0.001)

	# Data augmentation
	max_translate_ratio = 0.2 # YOLOv5RandomAffine
	scaling_ratio_range = (0.1, 2.0) # YOLOv5RandomAffine
	mixup_prob = 0.15 # YOLOv5MixUp
	randchoice_mosaic_prob = [0.8, 0.2]
	mixup_alpha = 8.0 # YOLOv5MixUp
	mixup_beta = 8.0 # YOLOv5MixUp

	# -----train val related-----
	loss_cls_weight = 0.3
	loss_bbox_weight = 0.05
	loss_obj_weight = 0.7
	# BatchYOLOv7Assigner params
	simota_candidate_topk = 10
	simota_iou_weight = 3.0
	simota_cls_weight = 1.0
	prior_match_thr = 4. # Priori box matching threshold
	obj_level_weights = [4., 1.,
	0.4] # The obj loss weights of the three output layers

	lr_factor = 0.1 # Learning rate scaling factor
	weight_decay = 0.0005
	save_epoch_intervals = 1 # Save model checkpoint and validation intervals
	max_keep_ckpts = 3 # The maximum checkpoints to keep.

	# Single-scale training is recommended to
	# be turned on, which can speed up training.
	env_cfg = dict(cudnn_benchmark=True)

	# ===============================Unmodified in most cases====================
	model = dict(
	type='YOLODetector',
	data_preprocessor=dict(
	type='YOLOv5DetDataPreprocessor',
	mean=[0., 0., 0.],
	std=[255., 255., 255.],
	bgr_to_rgb=True),
	backbone=dict(
	type='YOLOv7Backbone',
	arch='L',
	norm_cfg=norm_cfg,
	act_cfg=dict(type='SiLU', inplace=True)),
	neck=dict(
	type='YOLOv7PAFPN',
	block_cfg=dict(
	type='ELANBlock',
	middle_ratio=0.5,
	block_ratio=0.25,
	num_blocks=4,
	num_convs_in_block=1),
	upsample_feats_cat_first=False,
	in_channels=[512, 1024, 1024],
	# The real output channel will be multiplied by 2
	out_channels=[128, 256, 512],
	norm_cfg=norm_cfg,
	act_cfg=dict(type='SiLU', inplace=True)),
	bbox_head=dict(
	type='YOLOv7Head',
	head_module=dict(
	type='YOLOv7HeadModule',
	num_classes=num_classes,
	in_channels=[256, 512, 1024],
	featmap_strides=strides,
	num_base_priors=3),
	prior_generator=dict(
	type='mmdet.YOLOAnchorGenerator',
	base_sizes=anchors,
	strides=strides),
	# scaled based on number of detection layers
	loss_cls=dict(
	type='mmdet.CrossEntropyLoss',
	use_sigmoid=True,
	reduction='mean',
	loss_weight=loss_cls_weight *
	(num_classes / 80 * 3 / num_det_layers)),
	loss_bbox=dict(
	type='IoULoss',
	iou_mode='ciou',
	bbox_format='xywh',
	reduction='mean',
	loss_weight=loss_bbox_weight * (3 / num_det_layers),
	return_iou=True),
	loss_obj=dict(
	type='mmdet.CrossEntropyLoss',
	use_sigmoid=True,
	reduction='mean',
	loss_weight=loss_obj_weight *
	((img_scale[0] / 640)*2 3 / num_det_layers)),
	prior_match_thr=prior_match_thr,
	obj_level_weights=obj_level_weights,
	# BatchYOLOv7Assigner params
	simota_candidate_topk=simota_candidate_topk,
	simota_iou_weight=simota_iou_weight,
	simota_cls_weight=simota_cls_weight),
	test_cfg=model_test_cfg)

	pre_transform = [
	dict(type='LoadImageFromFile', backend_args=_base_.backend_args),
	dict(type='LoadAnnotations', with_bbox=True)
	]

	mosiac4_pipeline = [
	dict(
	type='Mosaic',
	img_scale=img_scale,
	pad_val=114.0,
	pre_transform=pre_transform),
	dict(
	type='YOLOv5RandomAffine',
	max_rotate_degree=0.0,
	max_shear_degree=0.0,
	max_translate_ratio=max_translate_ratio, # note
	scaling_ratio_range=scaling_ratio_range, # note
	# img_scale is (width, height)
	border=(-img_scale[0] // 2, -img_scale[1] // 2),
	border_val=(114, 114, 114)),
	]

	mosiac9_pipeline = [
	dict(
	type='Mosaic9',
	img_scale=img_scale,
	pad_val=114.0,
	pre_transform=pre_transform),
	dict(
	type='YOLOv5RandomAffine',
	max_rotate_degree=0.0,
	max_shear_degree=0.0,
	max_translate_ratio=max_translate_ratio, # note
	scaling_ratio_range=scaling_ratio_range, # note
	# img_scale is (width, height)
	border=(-img_scale[0] // 2, -img_scale[1] // 2),
	border_val=(114, 114, 114)),
	]

	randchoice_mosaic_pipeline = dict(
	type='RandomChoice',
	transforms=[mosiac4_pipeline, mosiac9_pipeline],
	prob=randchoice_mosaic_prob)

	train_pipeline = [
	*pre_transform,
	randchoice_mosaic_pipeline,
	dict(
	type='YOLOv5MixUp',
	alpha=mixup_alpha, # note
	beta=mixup_beta, # note
	prob=mixup_prob,
	pre_transform=[*pre_transform, randchoice_mosaic_pipeline]),
	dict(type='YOLOv5HSVRandomAug'),
	dict(type='mmdet.RandomFlip', prob=0.5),
	dict(
	type='mmdet.PackDetInputs',
	meta_keys=('img_id', 'img_path', 'ori_shape', 'img_shape', 'flip',
	'flip_direction'))
	]

	train_dataloader = dict(
	batch_size=train_batch_size_per_gpu,
	num_workers=train_num_workers,
	persistent_workers=persistent_workers,
	pin_memory=True,
	sampler=dict(type='DefaultSampler', shuffle=True),
	collate_fn=dict(type='yolov5_collate'), # FASTER
	dataset=dict(
	type=dataset_type,
	data_root=data_root,
	ann_file=train_ann_file,
	data_prefix=dict(img=train_data_prefix),
	filter_cfg=dict(filter_empty_gt=False, min_size=32),
	pipeline=train_pipeline))

	test_pipeline = [
	dict(type='LoadImageFromFile', backend_args=_base_.backend_args),
	dict(type='YOLOv5KeepRatioResize', scale=img_scale),
	dict(
	type='LetterResize',
	scale=img_scale,
	allow_scale_up=False,
	pad_val=dict(img=114)),
	dict(type='LoadAnnotations', with_bbox=True, _scope_='mmdet'),
	dict(
	type='mmdet.PackDetInputs',
	meta_keys=('img_id', 'img_path', 'ori_shape', 'img_shape',
	'scale_factor', 'pad_param'))
	]

	val_dataloader = dict(
	batch_size=val_batch_size_per_gpu,
	num_workers=val_num_workers,
	persistent_workers=persistent_workers,
	pin_memory=True,
	drop_last=False,
	sampler=dict(type='DefaultSampler', shuffle=False),
	dataset=dict(
	type=dataset_type,
	data_root=data_root,
	test_mode=True,
	data_prefix=dict(img=val_data_prefix),
	ann_file=val_ann_file,
	pipeline=test_pipeline,
	batch_shapes_cfg=batch_shapes_cfg))

	test_dataloader = val_dataloader

	param_scheduler = None
	optim_wrapper = dict(
	type='OptimWrapper',
	optimizer=dict(
	type='SGD',
	lr=base_lr,
	momentum=0.937,
	weight_decay=weight_decay,
	nesterov=True,
	batch_size_per_gpu=train_batch_size_per_gpu),
	constructor='YOLOv7OptimWrapperConstructor')

	default_hooks = dict(
	param_scheduler=dict(
	type='YOLOv5ParamSchedulerHook',
	scheduler_type='cosine',
	lr_factor=lr_factor, # note
	max_epochs=max_epochs),
	checkpoint=dict(
	type='CheckpointHook',
	save_param_scheduler=False,
	interval=save_epoch_intervals,
	save_best='auto',
	max_keep_ckpts=max_keep_ckpts))

	custom_hooks = [
	dict(
	type='EMAHook',
	ema_type='ExpMomentumEMA',
	momentum=0.0001,
	update_buffers=True,
	strict_load=False,
	priority=49)
	]

	val_evaluator = dict(
	type='mmdet.CocoMetric',
	proposal_nums=(100, 1, 10), # Can be accelerated
	ann_file=data_root + val_ann_file,
	metric='bbox')
	test_evaluator = val_evaluator

	train_cfg = dict(
	type='EpochBasedTrainLoop',
	max_epochs=max_epochs,
	val_interval=save_epoch_intervals,
	dynamic_intervals=[(max_epochs - num_epoch_stage2, val_interval_stage2)])
	val_cfg = dict(type='ValLoop')
	test_cfg = dict(type='TestLoop')