""" `TransE-FB15K-single-gpu `_ || `TransE-FB15K-single-gpu-wandb `_ || `TransE-FB15K-single-gpu-hpo `_ || `TransE-FB15K-multigpu `_ || **TransE-FB15K-multigpu-wandb** || `TransE-FB15K237-single-gpu-wandb `_ || `TransE-WN18RR-single-gpu-adv-wandb `_ TransE-FB15K-multigpu-wandb ==================================================================== 这一部分介绍如何用多个 GPU 在 ``FB15k`` 知识图谱上训练 ``TransE`` :cite:`TransE`,使用 ``wandb`` 记录实验结果。 导入数据 ----------------- pybind11-OpenKE 有两个工具用于导入数据: :py:class:`pybind11_ke.data.TrainDataLoader` 和 :py:class:`pybind11_ke.data.TestDataLoader`。 """ from pybind11_ke.utils import WandbLogger from pybind11_ke.config import trainer_distributed_data_parallel from pybind11_ke.module.model import TransE from pybind11_ke.module.loss import MarginLoss from pybind11_ke.module.strategy import NegativeSampling from pybind11_ke.data import TrainDataLoader ###################################################################### # 首先初始化 :py:class:`pybind11_ke.utils.WandbLogger` 日志记录器,它是对 wandb 初始化操作的一层简单封装。 wandb_logger = WandbLogger( project="pybind11-ke", name="transe", config=dict( in_path = "../../benchmarks/FB15K/", nbatches = 200, threads = 8, sampling_mode = "normal", bern = True, neg_ent = 25, neg_rel = 0, dim = 50, p_norm = 1, norm_flag = True, margin = 1.0, use_gpu = True, device = 'cuda:1', epochs = 1000, lr = 0.01, opt_method = "adam", test = True, valid_interval = 100, log_interval = 100, save_interval = 100, save_path = '../../checkpoint/transe.pth', type_constrain = True ) ) config = wandb_logger.config ###################################################################### # pybind11-KE 提供了很多数据集,它们很多都是 KGE 原论文发表时附带的数据集。 # :py:class:`pybind11_ke.data.TrainDataLoader` 包含 ``in_path`` 用于传递数据集目录。 # dataloader for training train_dataloader = TrainDataLoader( in_path = config.in_path, nbatches = config.nbatches, threads = config.threads, sampling_mode = config.sampling_mode, bern = config.bern, neg_ent = config.neg_ent, neg_rel = config.neg_rel) ###################################################################### # -------------- # ################################ # 导入模型 # ------------------ # pybind11-OpenKE 提供了很多 KGE 模型,它们都是目前最常用的基线模型。我们下面将要导入 # :py:class:`pybind11_ke.module.model.TransE`,它是最简单的平移模型。 # define the model transe = TransE( ent_tol = train_dataloader.get_ent_tol(), rel_tol = train_dataloader.get_rel_tol(), dim = config.dim, p_norm = config.p_norm, norm_flag = config.norm_flag) ###################################################################### # -------------- # ##################################################################### # 损失函数 # ---------------------------------------- # 我们这里使用了 ``TransE`` :cite:`TransE` 原论文使用的损失函数::py:class:`pybind11_ke.module.loss.MarginLoss`, # :py:class:`pybind11_ke.module.strategy.NegativeSampling` 对 # :py:class:`pybind11_ke.module.loss.MarginLoss` 进行了封装,加入权重衰减等额外项。 # define the loss function model = NegativeSampling( model = transe, loss = MarginLoss(margin = config.margin), batch_size = train_dataloader.get_batch_size() ) ###################################################################### # -------------- # ###################################################################### # 训练模型 # ------------- # pybind11-OpenKE 将训练循环包装成了 :py:func:`pybind11_ke.config.trainer_distributed_data_parallel` 函数, # 进行并行训练,该函数必须由 ``if __name__ == '__main__'`` 保护。 if __name__ == "__main__": print("Start parallel training...") trainer_distributed_data_parallel(model = model, data_loader = train_dataloader, epochs = config.epochs, lr = config.lr, opt_method = config.opt_method, test = config.test, valid_interval = config.valid_interval, log_interval = config.log_interval, save_interval = config.save_interval, save_path = config.save_path, type_constrain = True, use_wandb=True) # close your wandb run wandb_logger.finish()