checkpoint = 'https://download.openmmlab.com/mmsegmentation/v0.5/pretrain/segformer/mit_b5_20220624-658746d9.pth' crop_size = ( 512, 512, ) data_preprocessor = dict( bgr_to_rgb=True, mean=[ 123.675, 116.28, 103.53, ], pad_val=0, seg_pad_val=255, size=( 512, 512, ), std=[ 58.395, 57.12, 57.375, ], type='SegDataPreProcessor') data_root = 'PanicleDataset/' dataset_type = 'TzyDataset' default_hooks = dict( checkpoint=dict( by_epoch=False, interval=2500, max_keep_ckpts=1, save_best='mIoU', type='CheckpointHook'), logger=dict(interval=100, log_metric_by_epoch=False, type='LoggerHook'), param_scheduler=dict(type='ParamSchedulerHook'), sampler_seed=dict(type='DistSamplerSeedHook'), timer=dict(type='IterTimerHook'), visualization=dict(type='SegVisualizationHook')) default_scope = 'mmseg' env_cfg = dict( cudnn_benchmark=True, dist_cfg=dict(backend='nccl'), mp_cfg=dict(mp_start_method='fork', opencv_num_threads=0)) img_ratios = [ 0.5, 0.75, 1.0, 1.25, 1.5, 1.75, ] load_from = None log_level = 'INFO' log_processor = dict(by_epoch=False) model = dict( backbone=dict( attn_drop_rate=0.0, drop_path_rate=0.1, drop_rate=0.0, embed_dims=64, in_channels=3, init_cfg=dict( checkpoint= 'https://download.openmmlab.com/mmsegmentation/v0.5/pretrain/segformer/mit_b5_20220624-658746d9.pth', type='Pretrained'), mlp_ratio=4, num_heads=[ 1, 2, 5, 8, ], num_layers=[ 3, 6, 40, 3, ], num_stages=4, out_indices=( 0, 1, 2, 3, ), patch_sizes=[ 7, 3, 3, 3, ], qkv_bias=True, sr_ratios=[ 8, 4, 2, 1, ], type='MixVisionTransformer'), data_preprocessor=dict( bgr_to_rgb=True, mean=[ 123.675, 116.28, 103.53, ], pad_val=0, seg_pad_val=255, size=( 512, 512, ), std=[ 58.395, 57.12, 57.375, ], type='SegDataPreProcessor'), decode_head=dict( align_corners=False, channels=256, dropout_ratio=0.1, in_channels=[ 64, 128, 320, 512, ], in_index=[ 0, 1, 2, 3, ], loss_decode=dict( loss_weight=1.0, type='CrossEntropyLoss', use_sigmoid=False), norm_cfg=dict(requires_grad=True, type='BN'), num_classes=2, type='SegformerHead'), pretrained=None, test_cfg=dict(mode='whole'), train_cfg=dict(), type='EncoderDecoder') norm_cfg = dict(requires_grad=True, type='BN') optim_wrapper = dict( optimizer=dict( betas=( 0.9, 0.999, ), lr=6e-05, type='AdamW', weight_decay=0.01), paramwise_cfg=dict( custom_keys=dict( head=dict(lr_mult=10.0), norm=dict(decay_mult=0.0), pos_block=dict(decay_mult=0.0))), type='OptimWrapper') optimizer = dict(lr=0.01, momentum=0.9, type='SGD', weight_decay=0.0005) param_scheduler = [ dict( begin=0, by_epoch=False, end=1500, start_factor=1e-06, type='LinearLR'), dict( begin=1500, by_epoch=False, end=160000, eta_min=0.0, power=1.0, type='PolyLR'), ] randomness = dict(seed=0) resume = False test_cfg = dict(type='TestLoop') test_dataloader = dict( batch_size=1, dataset=dict( data_prefix=dict(img_path='img_dir/val', seg_map_path='ann_dir/val'), data_root='PanicleDataset/', pipeline=[ dict(type='LoadImageFromFile'), dict(keep_ratio=True, scale=( 2048, 1024, ), type='Resize'), dict(type='LoadAnnotations'), dict(type='PackSegInputs'), ], type='TzyDataset'), num_workers=4, persistent_workers=True, sampler=dict(shuffle=False, type='DefaultSampler')) test_evaluator = dict( iou_metrics=[ 'mIoU', 'mDice', 'mFscore', ], type='IoUMetric') test_pipeline = [ dict(type='LoadImageFromFile'), dict(keep_ratio=True, scale=( 2048, 1024, ), type='Resize'), dict(type='LoadAnnotations'), dict(type='PackSegInputs'), ] train_cfg = dict(max_iters=20000, type='IterBasedTrainLoop', val_interval=500) train_dataloader = dict( batch_size=2, dataset=dict( data_prefix=dict( img_path='img_dir/train', seg_map_path='ann_dir/train'), data_root='PanicleDataset/', pipeline=[ dict(type='LoadImageFromFile'), dict(type='LoadAnnotations'), dict( keep_ratio=True, ratio_range=( 0.5, 2.0, ), scale=( 2048, 1024, ), type='RandomResize'), dict( cat_max_ratio=0.75, crop_size=( 512, 512, ), type='RandomCrop'), dict(prob=0.5, type='RandomFlip'), dict(type='PhotoMetricDistortion'), dict(type='PackSegInputs'), ], type='TzyDataset'), num_workers=2, persistent_workers=True, sampler=dict(shuffle=True, type='InfiniteSampler')) train_pipeline = [ dict(type='LoadImageFromFile'), dict(type='LoadAnnotations'), dict( keep_ratio=True, ratio_range=( 0.5, 2.0, ), scale=( 2048, 1024, ), type='RandomResize'), dict(cat_max_ratio=0.75, crop_size=( 512, 512, ), type='RandomCrop'), dict(prob=0.5, type='RandomFlip'), dict(type='PhotoMetricDistortion'), dict(type='PackSegInputs'), ] tta_model = dict(type='SegTTAModel') tta_pipeline = [ dict(file_client_args=dict(backend='disk'), type='LoadImageFromFile'), dict( transforms=[ [ dict(keep_ratio=True, scale_factor=0.5, type='Resize'), dict(keep_ratio=True, scale_factor=0.75, type='Resize'), dict(keep_ratio=True, scale_factor=1.0, type='Resize'), dict(keep_ratio=True, scale_factor=1.25, type='Resize'), dict(keep_ratio=True, scale_factor=1.5, type='Resize'), dict(keep_ratio=True, scale_factor=1.75, type='Resize'), ], [ dict(direction='horizontal', prob=0.0, type='RandomFlip'), dict(direction='horizontal', prob=1.0, type='RandomFlip'), ], [ dict(type='LoadAnnotations'), ], [ dict(type='PackSegInputs'), ], ], type='TestTimeAug'), ] val_cfg = dict(type='ValLoop') val_dataloader = dict( batch_size=1, dataset=dict( data_prefix=dict(img_path='img_dir/val', seg_map_path='ann_dir/val'), data_root='PanicleDataset/', pipeline=[ dict(type='LoadImageFromFile'), dict(keep_ratio=True, scale=( 2048, 1024, ), type='Resize'), dict(type='LoadAnnotations'), dict(type='PackSegInputs'), ], type='TzyDataset'), num_workers=4, persistent_workers=True, sampler=dict(shuffle=False, type='DefaultSampler')) val_evaluator = dict( iou_metrics=[ 'mIoU', 'mDice', 'mFscore', ], type='IoUMetric') vis_backends = [ dict(type='LocalVisBackend'), ] visualizer = dict( name='visualizer', type='SegLocalVisualizer', vis_backends=[ dict(type='LocalVisBackend'), ]) work_dir = './work_dirs/TzyDataset-Segformer-0721'