""" ######################## Attention! ######################## 智算网络需要在代码里使用mox拷贝数据集并解压,请参考函数C2netMultiObsToEnv The intelligent computing network needs to use mox to copy the dataset and decompress it in the code, please refer to the function C2netMultiObsToEnv() ######################## multi-dataset train lenet example ######################## This example is a multi-dataset training tutorial. If it is a single dataset, please refer to the single dataset training tutorial train.py. This example cannot be used for a single dataset! """ """ ######################## Instructions for using the training environment ######################## 1、(1)The structure of the dataset uploaded for multi-dataset training in this example MNISTData.zip ├── test └── train checkpoint_lenet-1_1875.zip ├── checkpoint_lenet-1_1875.ckpt (2)The dataset structure in the training image for multiple datasets in this example workroot ├── MNISTData | ├── test | └── train └── checkpoint_lenet-1_1875 ├── checkpoint_lenet-1_1875.ckpt 2、Multi-dataset training requires predefined functions (1)Copy multi-dataset from obs to training image and unzip function C2netMultiObsToEnv(multi_data_url, data_dir) (2)Copy the output to obs function EnvToObs(train_dir, obs_train_url) (2)Download the input from Qizhi And Init function DownloadFromQizhi(multi_data_url, data_dir) (2)Upload the output to Qizhi function UploadToQizhi(train_dir, obs_train_url) 3、4 parameters need to be defined --multi_data_url is the multi-dataset you selected on the Qizhi platform --multi_data_url,--train_url,--device_target,These 3 parameters must be defined first in a multi-dataset task, otherwise an error will be reported. There is no need to add these parameters to the running parameters of the Qizhi platform, because they are predefined in the background, you only need to define them in your code 4、How the dataset is used Multi-datasets use multi_data_url as input, data_dir + dataset name + file or folder name in the dataset as the calling path of the dataset in the training image. For example, the calling path of the train folder in the MNIST_Data dataset in this example is data_dir + "/MNIST_Data" +"/train" For details, please refer to the following sample code. """ import os import argparse import moxing as mox from config import mnist_cfg as cfg from dataset import create_dataset from dataset_distributed import create_dataset_parallel from lenet import LeNet5 import json import mindspore.nn as nn from mindspore import context from mindspore.train.callback import ModelCheckpoint, CheckpointConfig, LossMonitor, TimeMonitor from mindspore.train import Model from mindspore.nn.metrics import Accuracy from mindspore import load_checkpoint, load_param_into_net from mindspore.context import ParallelMode from mindspore.communication.management import init, get_rank import time ### Copy multiple datasets from obs to training image and unzip### def C2netMultiObsToEnv(multi_data_url, data_dir): #--multi_data_url is json data, need to do json parsing for multi_data_url multi_data_json = json.loads(multi_data_url) for i in range(len(multi_data_json)): zipfile_path = data_dir + "/" + multi_data_json[i]["dataset_name"] try: mox.file.copy(multi_data_json[i]["dataset_url"], zipfile_path) print("Successfully Download {} to {}".format(multi_data_json[i]["dataset_url"],zipfile_path)) #get filename and unzip the dataset filename = os.path.splitext(multi_data_json[i]["dataset_name"])[0] filePath = data_dir + "/" + filename if not os.path.exists(filePath): os.makedirs(filePath) os.system("unzip {} -d {}".format(zipfile_path, filePath)) except Exception as e: print('moxing download {} to {} failed: '.format( multi_data_json[i]["dataset_url"], zipfile_path) + str(e)) #Set a cache file to determine whether the data has been copied to obs. #If this file exists during multi-card training, there is no need to copy the dataset multiple times. f = open("/cache/download_input.txt", 'w') f.close() try: if os.path.exists("/cache/download_input.txt"): print("download_input succeed") except Exception as e: print("download_input failed") return ### Copy ckpt file from obs to training image### ### To operate on folders, use mox.file.copy_parallel. If copying a file. ### Please use mox.file.copy to operate the file, this operation is to operate the file def ObsUrlToEnv(obs_ckpt_url, ckpt_url): try: mox.file.copy(obs_ckpt_url, ckpt_url) print("Successfully Download {} to {}".format(obs_ckpt_url,ckpt_url)) except Exception as e: print('moxing download {} to {} failed: '.format(obs_ckpt_url, ckpt_url) + str(e)) return ### Copy the output model to obs ### def EnvToObs(train_dir, obs_train_url): try: mox.file.copy_parallel(train_dir, obs_train_url) print("Successfully Upload {} to {}".format(train_dir, obs_train_url)) except Exception as e: print('moxing upload {} to {} failed: '.format(train_dir, obs_train_url) + str(e)) return def DownloadFromQizhi(multi_data_url, data_dir): device_num = int(os.getenv('RANK_SIZE')) if device_num == 1: C2netMultiObsToEnv(multi_data_url,data_dir) context.set_context(mode=context.GRAPH_MODE,device_target=args.device_target) if device_num > 1: # set device_id and init for multi-card training context.set_context(mode=context.GRAPH_MODE, device_target=args.device_target, device_id=int(os.getenv('ASCEND_DEVICE_ID'))) context.reset_auto_parallel_context() context.set_auto_parallel_context(device_num = device_num, parallel_mode=ParallelMode.DATA_PARALLEL, gradients_mean=True, parameter_broadcast=True) init() #Copying obs data does not need to be executed multiple times, just let the 0th card copy the data local_rank=int(os.getenv('RANK_ID')) if local_rank%8==0: C2netMultiObsToEnv(multi_data_url,data_dir) #If the cache file does not exist, it means that the copy data has not been completed, #and Wait for 0th card to finish copying data while not os.path.exists("/cache/download_input.txt"): time.sleep(1) return def UploadToQizhi(train_dir, obs_train_url): device_num = int(os.getenv('RANK_SIZE')) local_rank=int(os.getenv('RANK_ID')) if device_num == 1: EnvToObs(train_dir, obs_train_url) if device_num > 1: if local_rank%8==0: EnvToObs(train_dir, obs_train_url) return parser = argparse.ArgumentParser(description='MindSpore Lenet Example') ### --multi_data_url,--train_url,--device_target,These 3 parameters must be defined first in a multi-dataset, ### otherwise an error will be reported. ### There is no need to add these parameters to the running parameters of the Qizhi platform, ### because they are predefined in the background, you only need to define them in your code. parser.add_argument('--multi_data_url', help='path to multi dataset', default= '/cache/data/') parser.add_argument('--ckpt_url', help='pre_train_model path in obs') parser.add_argument('--train_url', help='model folder to save/load', default= '/cache/output/') parser.add_argument( '--device_target', type=str, default="Ascend", choices=['Ascend', 'CPU'], help='device where the code will be implemented (default: Ascend),if to use the CPU on the Qizhi platform:device_target=CPU') parser.add_argument('--epoch_size', type=int, default=5, help='Training epochs.') if __name__ == "__main__": args, unknown = parser.parse_known_args() data_dir = '/cache/data' train_dir = '/cache/output' ckpt_url = '/cache/checkpoint.ckpt' if not os.path.exists(data_dir): os.makedirs(data_dir) if not os.path.exists(train_dir): os.makedirs(train_dir) ###Copy ckpt file from obs to training image ObsUrlToEnv(args.ckpt_url, ckpt_url) ###Initialize and copy data to training image DownloadFromQizhi(args.multi_data_url, data_dir) ###The dataset path is used here:data_dir + "/MNIST_Data" +"/train" device_num = int(os.getenv('RANK_SIZE')) if device_num == 1: ds_train = create_dataset(os.path.join(data_dir + "/MNISTData", "train"), cfg.batch_size) if device_num > 1: ds_train = create_dataset_parallel(os.path.join(data_dir + "/MNISTData", "train"), cfg.batch_size) if ds_train.get_dataset_size() == 0: raise ValueError( "Please check dataset size > 0 and batch_size <= dataset size") network = LeNet5(cfg.num_classes) net_loss = nn.SoftmaxCrossEntropyWithLogits(sparse=True, reduction="mean") net_opt = nn.Momentum(network.trainable_params(), cfg.lr, cfg.momentum) time_cb = TimeMonitor(data_size=ds_train.get_dataset_size()) ###The ckpt path is used here:ckpt_url load_param_into_net(network, load_checkpoint(ckpt_url)) if args.device_target != "Ascend": model = Model(network,net_loss,net_opt,metrics={"accuracy": Accuracy()}) else: model = Model(network, net_loss,net_opt,metrics={"accuracy": Accuracy()},amp_level="O2") config_ck = CheckpointConfig(save_checkpoint_steps=cfg.save_checkpoint_steps, keep_checkpoint_max=cfg.keep_checkpoint_max) #Note that this method saves the model file on each card. You need to specify the save path on each card. # In this example, get_rank() is added to distinguish different paths. if device_num == 1: outputDirectory = train_dir if device_num > 1: outputDirectory = train_dir + "/" + str(get_rank()) + "/" ckpoint_cb = ModelCheckpoint(prefix="checkpoint_lenet", directory=outputDirectory, config=config_ck) print("============== Starting Training ==============") epoch_size = cfg['epoch_size'] if (args.epoch_size): epoch_size = args.epoch_size print('epoch_size is: ', epoch_size) # 测试代码。结果回传 os.system("cd /cache/script_for_grampus/ &&./uploader_for_npu " + "/cache/code/") model.train(epoch_size, ds_train, callbacks=[time_cb, ckpoint_cb, LossMonitor()]) ###Copy the trained output data from the local running environment back to obs, ###and download it in the training task corresponding to the Qizhi platform UploadToQizhi(train_dir,args.train_url)