class TrainTaskConfig(object): use_gpu = False # the epoch number to train. pass_num = 2 # the number of sequences contained in a mini-batch. batch_size = 64 # the hyper parameters for Adam optimizer. learning_rate = 0.001 beta1 = 0.9 beta2 = 0.98 eps = 1e-9 # the parameters for learning rate scheduling. warmup_steps = 4000 # the flag indicating to use average loss or sum loss when training. use_avg_cost = False # the directory for saving trained models. model_dir = "trained_models" class InferTaskConfig(object): use_gpu = False # the number of examples in one run for sequence generation. # currently the batch size can only be set to 1. batch_size = 1 # the parameters for beam search. beam_size = 5 max_length = 30 # the number of decoded sentences to output. n_best = 1 # the flags indicating whether to output the special tokens. output_bos = False output_eos = False output_unk = False # the directory for loading the trained model. model_path = "trained_models/pass_1.infer.model" class ModelHyperParams(object): # Dictionary size for source and target language. This model directly uses # paddle.dataset.wmt16 in which , and token has # alreay been added, but the token is not added. Transformer requires # sequences in a mini-batch are padded to have the same length. A token is # added into the original dictionary in paddle.dateset.wmt16. # size of source word dictionary. src_vocab_size = 10000 # index for token in source language. src_pad_idx = src_vocab_size # size of target word dictionay trg_vocab_size = 10000 # index for token in target language. trg_pad_idx = trg_vocab_size # index for token bos_idx = 0 # index for token eos_idx = 1 # index for token unk_idx = 2 # position value corresponding to the token. pos_pad_idx = 0 # max length of sequences. It should plus 1 to include position # padding token for position encoding. max_length = 50 # the dimension for word embeddings, which is also the last dimension of # the input and output of multi-head attention, position-wise feed-forward # networks, encoder and decoder. d_model = 512 # size of the hidden layer in position-wise feed-forward networks. d_inner_hid = 1024 # the dimension that keys are projected to for dot-product attention. d_key = 64 # the dimension that values are projected to for dot-product attention. d_value = 64 # number of head used in multi-head attention. n_head = 8 # number of sub-layers to be stacked in the encoder and decoder. n_layer = 6 # dropout rate used by all dropout layers. dropout = 0.1 # Names of position encoding table which will be initialized externally. pos_enc_param_names = ( "src_pos_enc_table", "trg_pos_enc_table", ) # Names of all data layers in encoder listed in order. encoder_input_data_names = ( "src_word", "src_pos", "src_slf_attn_bias", "src_slf_attn_pre_softmax_shape", "src_slf_attn_post_softmax_shape", ) # Names of all data layers in decoder listed in order. decoder_input_data_names = ( "trg_word", "trg_pos", "trg_slf_attn_bias", "trg_src_attn_bias", "trg_slf_attn_pre_softmax_shape", "trg_slf_attn_post_softmax_shape", "trg_src_attn_pre_softmax_shape", "trg_src_attn_post_softmax_shape", "enc_output", ) # Names of label related data layers listed in order. label_data_names = ( "lbl_word", "lbl_weight", )