Prithvi-100M-burn-scar / burn_scars_Prithvi_100M.py

Pretrained in EncoderDecoder

d8c0ec4 8 months ago

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	import os
	custom_imports = dict(imports=['geospatial_fm'])

	dist_params = dict(backend='nccl')
	log_level = 'INFO'
	load_from = None
	resume_from = None
	cudnn_benchmark = True

	dataset_type = 'GeospatialDataset'

	# TO BE DEFINED BY USER: data directory
	data_root = '<path to data root>'

	num_frames = 1
	img_size = 224
	num_workers = 4
	samples_per_gpu = 4
	img_norm_cfg = dict(
	means=[
	0.033349706741586264, 0.05701185520536176, 0.05889748132001316,
	0.2323245113436119, 0.1972854853760658, 0.11944914225186566
	],
	stds=[
	0.02269135568823774, 0.026807560223070237, 0.04004109844362779,
	0.07791732423672691, 0.08708738838140137, 0.07241979477437814
	])
	bands = [0, 1, 2, 3, 4, 5]
	tile_size = 224
	orig_nsize = 512
	crop_size = (tile_size, tile_size)
	img_suffix = '_merged.tif'
	seg_map_suffix = '.mask.tif'
	ignore_index = -1
	image_nodata = -9999
	image_nodata_replace = 0
	image_to_float32 = True

	# model
	# TO BE DEFINED BY USER: model path
	pretrained_weights_path = '<path to pretrained weights>'
	num_layers = 12
	patch_size = 16
	embed_dim = 768
	num_heads = 12
	tubelet_size = 1
	output_embed_dim = num_frames*embed_dim
	max_intervals=10000
	evaluation_interval=1000

	# TO BE DEFINED BY USER: model path
	experiment = '<experiment name>'
	project_dir = '<project directory name>'
	work_dir = os.path.join(project_dir, experiment)
	save_path = work_dir

	save_path = work_dir
	train_pipeline = [
	dict(type='LoadGeospatialImageFromFile', to_float32=image_to_float32),
	dict(type='LoadGeospatialAnnotations', reduce_zero_label=False),
	dict(type='BandsExtract', bands=bands),
	dict(type='RandomFlip', prob=0.5),
	dict(type='ToTensor', keys=['img', 'gt_semantic_seg']),
	# to channels first
	dict(type="TorchPermute", keys=["img"], order=(2, 0, 1)),
	dict(type='TorchNormalize', **img_norm_cfg),
	dict(type='TorchRandomCrop', crop_size=(tile_size, tile_size)),
	dict(type='Reshape', keys=['img'], new_shape=(len(bands), num_frames, tile_size, tile_size)),
	dict(type='Reshape', keys=['gt_semantic_seg'], new_shape=(1, tile_size, tile_size)),
	dict(
	type='CastTensor',
	keys=['gt_semantic_seg'],
	new_type='torch.LongTensor'),
	dict(type='Collect', keys=['img', 'gt_semantic_seg'])
	]
	test_pipeline = [
	dict(type='LoadGeospatialImageFromFile', to_float32=image_to_float32),
	dict(type='BandsExtract', bands=bands),
	dict(type='ToTensor', keys=['img']),
	# to channels first
	dict(type="TorchPermute", keys=["img"], order=(2, 0, 1)),
	dict(type='TorchNormalize', **img_norm_cfg),
	dict(
	type='Reshape',
	keys=['img'],
	new_shape=(len(bands), num_frames, -1, -1),
	look_up=dict({
	'2': 1,
	'3': 2
	})),
	dict(type='CastTensor', keys=['img'], new_type='torch.FloatTensor'),
	dict(
	type='CollectTestList',
	keys=['img'],
	meta_keys=[
	'img_info', 'seg_fields', 'img_prefix', 'seg_prefix', 'filename',
	'ori_filename', 'img', 'img_shape', 'ori_shape', 'pad_shape',
	'scale_factor', 'img_norm_cfg'
	])
	]

	CLASSES = ('Unburnt land', 'Burn scar')

	data = dict(
	samples_per_gpu=samples_per_gpu,
	workers_per_gpu=num_workers,
	train=dict(
	type=dataset_type,
	CLASSES=CLASSES,
	data_root=data_root,
	img_dir='training',
	ann_dir='training',
	img_suffix=img_suffix,
	seg_map_suffix=seg_map_suffix,
	pipeline=train_pipeline,
	ignore_index=-1),
	val=dict(
	type=dataset_type,
	CLASSES=CLASSES,
	data_root=data_root,
	img_dir='validation',
	ann_dir='validation',
	img_suffix=img_suffix,
	seg_map_suffix=seg_map_suffix,
	pipeline=test_pipeline,
	ignore_index=-1),
	test=dict(
	type=dataset_type,
	CLASSES=CLASSES,
	data_root=data_root,
	img_dir='validation',
	ann_dir='validation',
	img_suffix=img_suffix,
	seg_map_suffix=seg_map_suffix,
	pipeline=test_pipeline,
	ignore_index=-1))

	optimizer = dict(type='Adam', lr=1.3e-05, betas=(0.9, 0.999))
	optimizer_config = dict(grad_clip=None)
	lr_config = dict(
	policy='poly',
	warmup='linear',
	warmup_iters=1500,
	warmup_ratio=1e-06,
	power=1.0,
	min_lr=0.0,
	by_epoch=False)
	log_config = dict(
	interval=20,
	hooks=[
	dict(type='TextLoggerHook', by_epoch=False),
	dict(type='TensorboardLoggerHook', by_epoch=False)
	])
	checkpoint_config = dict(
	by_epoch=True,
	interval=10,
	out_dir=save_path
	)
	evaluation = dict(
	interval=evaluation_interval,
	metric='mIoU',
	pre_eval=True,
	save_best='mIoU',
	by_epoch=False)

	loss_func=dict(
	type='DiceLoss', use_sigmoid=False, loss_weight=1,
	ignore_index=-1)

	runner = dict(type='IterBasedRunner', max_iters=max_intervals)
	workflow = [('train', 1)]
	norm_cfg = dict(type='BN', requires_grad=True)
	model = dict(
	type='TemporalEncoderDecoder',
	frozen_backbone=False,
	pretrained=pretrained_weights_path,
	backbone=dict(
	type='TemporalViTEncoder',
	img_size=img_size,
	patch_size=patch_size,
	num_frames=num_frames,
	tubelet_size=tubelet_size,
	in_chans=len(bands),
	embed_dim=embed_dim,
	depth=12,
	num_heads=num_heads,
	mlp_ratio=4.0,
	norm_pix_loss=False),
	neck=dict(
	type='ConvTransformerTokensToEmbeddingNeck',
	embed_dim=embed_dim*num_frames,
	output_embed_dim=output_embed_dim,
	drop_cls_token=True,
	Hp=14,
	Wp=14),
	decode_head=dict(
	num_classes=len(CLASSES),
	in_channels=output_embed_dim,
	type='FCNHead',
	in_index=-1,
	channels=256,
	num_convs=1,
	concat_input=False,
	dropout_ratio=0.1,
	norm_cfg=dict(type='BN', requires_grad=True),
	align_corners=False,
	loss_decode=loss_func),
	auxiliary_head=dict(
	num_classes=len(CLASSES),
	in_channels=output_embed_dim,
	type='FCNHead',
	in_index=-1,
	channels=256,
	num_convs=2,
	concat_input=False,
	dropout_ratio=0.1,
	norm_cfg=dict(type='BN', requires_grad=True),
	align_corners=False,
	loss_decode=loss_func),
	train_cfg=dict(),
	test_cfg=dict(mode='slide', stride=(int(tile_size/2), int(tile_size/2)), crop_size=(tile_size, tile_size)))
	gpu_ids = range(0, 1)
	auto_resume = False