config = { 'system': { # Disable accelerator 'disable_acc': False, # GPU(s) used in training or testing if available 'CUDA_VISIBLE_DEVICES': '0', # Directory used in training or testing for temporary storage 'save_dir': 'runs', # Recorde disentangled image or not 'image_log_on': False }, # Dataset settings 'dataset': { # Name of dataset (CASIA-B or FVG) 'name': 'CASIA-B', # Path to dataset root (required) 'root_dir': 'data/CASIA-B-MRCNN-V2/SEG', # The number of subjects for training 'train_size': 74, # Number of sampled frames per sequence (Training only) 'num_sampled_frames': 30, # Truncate clips longer than `truncate_threshold` 'truncate_threshold': 40, # Discard clips shorter than `discard_threshold` 'discard_threshold': 15, # Number of input channels of model 'num_input_channels': 3, # Resolution after resize, can be divided 16 'frame_size': (64, 48), # Cache dataset or not 'cache_on': False, }, # Dataloader settings 'dataloader': { # Batch size (pr, k) # `pr` denotes number of persons # `k` denotes number of sequences per person 'batch_size': (4, 8), # Number of workers of Dataloader 'num_workers': 4, # Faster data transfer from RAM to GPU if enabled 'pin_memory': True, }, # Hyperparameter tuning 'hyperparameter': { 'model': { # Auto-encoder feature channels coefficient 'ae_feature_channels': 64, # Appearance, canonical and pose feature dimensions 'f_a_c_p_dims': (192, 192, 96), # Use 1x1 convolution in dimensionality reduction 'hpm_use_1x1conv': False, # HPM pyramid scales, of which sum is number of parts 'hpm_scales': (1, 2, 4), # Global pooling method 'hpm_use_avg_pool': True, 'hpm_use_max_pool': True, # Attention squeeze ratio 'tfa_squeeze_ratio': 4, # Number of parts after Part Net 'tfa_num_parts': 16, # Embedding dimension for each part 'embedding_dims': 256, # Triplet loss margins for HPM and PartNet 'triplet_margins': (0.2, 0.2), }, 'optimizer': { # Global parameters # Iteration start to optimize non-disentangling parts # 'start_iter': 0, # Initial learning rate of Adam Optimizer 'lr': 1e-4, # Coefficients used for computing running averages of # gradient and its square # 'betas': (0.9, 0.999), # Term added to the denominator # 'eps': 1e-8, # Weight decay (L2 penalty) # 'weight_decay': 0, # Use AMSGrad or not # 'amsgrad': False, # Local parameters (override global ones) 'auto_encoder': { 'weight_decay': 0.001 }, }, 'scheduler': { # Period of learning rate decay 'step_size': 500, # Multiplicative factor of decay 'gamma': 0.9, } }, # Model metadata 'model': { # Model name, used for naming checkpoint 'name': 'RGB-GaitPart', # Restoration iteration from checkpoint (single model) # 'restore_iter': 0, # Total iteration for training (single model) # 'total_iter': 80000, # Restoration iteration (multiple models, e.g. nm, bg and cl) 'restore_iters': (0, 0, 0), # Total iteration for training (multiple models) 'total_iters': (80_000, 80_000, 80_000), }, }