_base_ = ['../_base_/default_runtime.py', '../_base_/datasets/ade20k.py'] custom_imports = dict(imports='mmdet.models', allow_failed_imports=False) crop_size = (512, 512) data_preprocessor = dict( type='SegDataPreProcessor', mean=[123.675, 116.28, 103.53], std=[58.395, 57.12, 57.375], bgr_to_rgb=True, pad_val=0, seg_pad_val=255, size=crop_size, test_cfg=dict(size_divisor=32)) num_classes = 150 model = dict( type='EncoderDecoder', data_preprocessor=data_preprocessor, backbone=dict( type='ResNet', depth=50, deep_stem=False, num_stages=4, out_indices=(0, 1, 2, 3), frozen_stages=-1, norm_cfg=dict(type='SyncBN', requires_grad=False), style='pytorch', init_cfg=dict(type='Pretrained', checkpoint='torchvision://resnet50')), decode_head=dict( type='Mask2FormerHead', in_channels=[256, 512, 1024, 2048], strides=[4, 8, 16, 32], feat_channels=256, out_channels=256, num_classes=num_classes, num_queries=100, num_transformer_feat_level=3, align_corners=False, pixel_decoder=dict( type='mmdet.MSDeformAttnPixelDecoder', num_outs=3, norm_cfg=dict(type='GN', num_groups=32), act_cfg=dict(type='ReLU'), encoder=dict( # DeformableDetrTransformerEncoder num_layers=6, layer_cfg=dict( # DeformableDetrTransformerEncoderLayer self_attn_cfg=dict( # MultiScaleDeformableAttention embed_dims=256, num_heads=8, num_levels=3, num_points=4, im2col_step=64, dropout=0.0, batch_first=True, norm_cfg=None, init_cfg=None), ffn_cfg=dict( embed_dims=256, feedforward_channels=1024, num_fcs=2, ffn_drop=0.0, act_cfg=dict(type='ReLU', inplace=True))), init_cfg=None), positional_encoding=dict( # SinePositionalEncoding num_feats=128, normalize=True), init_cfg=None), enforce_decoder_input_project=False, positional_encoding=dict( # SinePositionalEncoding num_feats=128, normalize=True), transformer_decoder=dict( # Mask2FormerTransformerDecoder return_intermediate=True, num_layers=9, layer_cfg=dict( # Mask2FormerTransformerDecoderLayer self_attn_cfg=dict( # MultiheadAttention embed_dims=256, num_heads=8, attn_drop=0.0, proj_drop=0.0, dropout_layer=None, batch_first=True), cross_attn_cfg=dict( # MultiheadAttention embed_dims=256, num_heads=8, attn_drop=0.0, proj_drop=0.0, dropout_layer=None, batch_first=True), ffn_cfg=dict( embed_dims=256, feedforward_channels=2048, num_fcs=2, act_cfg=dict(type='ReLU', inplace=True), ffn_drop=0.0, dropout_layer=None, add_identity=True)), init_cfg=None), loss_cls=dict( type='mmdet.CrossEntropyLoss', use_sigmoid=False, loss_weight=2.0, reduction='mean', class_weight=[1.0] * num_classes + [0.1]), loss_mask=dict( type='mmdet.CrossEntropyLoss', use_sigmoid=True, reduction='mean', loss_weight=5.0), loss_dice=dict( type='mmdet.DiceLoss', use_sigmoid=True, activate=True, reduction='mean', naive_dice=True, eps=1.0, loss_weight=5.0), train_cfg=dict( num_points=12544, oversample_ratio=3.0, importance_sample_ratio=0.75, assigner=dict( type='mmdet.HungarianAssigner', match_costs=[ dict(type='mmdet.ClassificationCost', weight=2.0), dict( type='mmdet.CrossEntropyLossCost', weight=5.0, use_sigmoid=True), dict( type='mmdet.DiceCost', weight=5.0, pred_act=True, eps=1.0) ]), sampler=dict(type='mmdet.MaskPseudoSampler'))), train_cfg=dict(), test_cfg=dict(mode='whole')) # dataset config train_pipeline = [ dict(type='LoadImageFromFile'), dict(type='LoadAnnotations', reduce_zero_label=True), dict( type='RandomChoiceResize', scales=[int(512 * x * 0.1) for x in range(5, 21)], resize_type='ResizeShortestEdge', max_size=2048), dict(type='RandomCrop', crop_size=crop_size, cat_max_ratio=0.75), dict(type='RandomFlip', prob=0.5), dict(type='PhotoMetricDistortion'), dict(type='PackSegInputs') ] train_dataloader = dict(batch_size=2, dataset=dict(pipeline=train_pipeline)) # optimizer embed_multi = dict(lr_mult=1.0, decay_mult=0.0) optimizer = dict( type='AdamW', lr=0.0001, weight_decay=0.05, eps=1e-8, betas=(0.9, 0.999)) optim_wrapper = dict( type='OptimWrapper', optimizer=optimizer, clip_grad=dict(max_norm=0.01, norm_type=2), paramwise_cfg=dict( custom_keys={ 'backbone': dict(lr_mult=0.1, decay_mult=1.0), 'query_embed': embed_multi, 'query_feat': embed_multi, 'level_embed': embed_multi, }, norm_decay_mult=0.0)) # learning policy param_scheduler = [ dict( type='PolyLR', eta_min=0, power=0.9, begin=0, end=160000, by_epoch=False) ] # training schedule for 160k train_cfg = dict( type='IterBasedTrainLoop', max_iters=160000, val_interval=5000) val_cfg = dict(type='ValLoop') test_cfg = dict(type='TestLoop') default_hooks = dict( timer=dict(type='IterTimerHook'), logger=dict(type='LoggerHook', interval=50, log_metric_by_epoch=False), param_scheduler=dict(type='ParamSchedulerHook'), checkpoint=dict( type='CheckpointHook', by_epoch=False, interval=5000, save_best='mIoU'), sampler_seed=dict(type='DistSamplerSeedHook'), visualization=dict(type='SegVisualizationHook')) # Default setting for scaling LR automatically # - `enable` means enable scaling LR automatically # or not by default. # - `base_batch_size` = (8 GPUs) x (2 samples per GPU). auto_scale_lr = dict(enable=False, base_batch_size=16)