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run.py
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run.py
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import argparse
import os
import warnings
import torch
import torch.multiprocessing as mp
from core.logger import VisualWriter, InfoLogger
import core.praser as Praser
import core.util as Util
from data import define_dataloader
from models import create_model, define_network, define_loss, define_metric
def main_worker(gpu, ngpus_per_node, opt):
""" threads running on each GPU """
if 'local_rank' not in opt:
opt['local_rank'] = opt['global_rank'] = gpu
if opt['distributed']:
torch.cuda.set_device(int(opt['local_rank']))
print('using GPU {} for training'.format(int(opt['local_rank'])))
torch.distributed.init_process_group(backend = 'nccl',
init_method = opt['init_method'],
world_size = opt['world_size'],
rank = opt['global_rank'],
group_name='mtorch'
)
'''set seed and and cuDNN environment '''
torch.backends.cudnn.enabled = True
warnings.warn('You have chosen to use cudnn for accleration. torch.backends.cudnn.enabled=True')
Util.set_seed(opt['seed'])
''' set logger '''
phase_logger = InfoLogger(opt)
phase_writer = VisualWriter(opt, phase_logger)
phase_logger.info('Create the log file in directory {}.\n'.format(opt['path']['experiments_root']))
'''set networks and dataset'''
phase_loader, val_loader = define_dataloader(phase_logger, opt) # val_loader is None if phase is test.
networks = [define_network(phase_logger, opt, item_opt) for item_opt in opt['model']['which_networks']]
''' set metrics, loss, optimizer and schedulers '''
metrics = [define_metric(phase_logger, item_opt) for item_opt in opt['model']['which_metrics']]
losses = [define_loss(phase_logger, item_opt) for item_opt in opt['model']['which_losses']]
model = create_model(
opt = opt,
networks = networks,
phase_loader = phase_loader,
val_loader = val_loader,
losses = losses,
metrics = metrics,
logger = phase_logger,
writer = phase_writer
)
phase_logger.info('Begin model {}.'.format(opt['phase']))
try:
if opt['phase'] == 'train':
model.train()
else:
model.test()
finally:
# phase_writer.close()
print(';)')
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument('-c', '--config', type=str, default='config/Target2.json', help='JSON file for configuration')
parser.add_argument('-p', '--phase', type=str, choices=['train','test'], help='Run train or test', default='train')
parser.add_argument('-b', '--batch', type=int, default=None, help='Batch size in every gpu')
parser.add_argument('-gpu', '--gpu_ids', type=str, default=None)
parser.add_argument('-d', '--debug', action='store_true')
parser.add_argument('-P', '--port', default='21012', type=str)
''' parser configs '''
args = parser.parse_args()
opt = Praser.parse(args)
''' cuda devices '''
gpu_str = ','.join(str(x) for x in opt['gpu_ids'])
os.environ['CUDA_VISIBLE_DEVICES'] = gpu_str
print('export CUDA_VISIBLE_DEVICES={}'.format(gpu_str))
''' use DistributedDataParallel(DDP) and multiprocessing for multi-gpu training'''
# [Todo]: multi GPU on multi machine
if opt['distributed']:
ngpus_per_node = len(opt['gpu_ids']) # or torch.cuda.device_count()
opt['world_size'] = ngpus_per_node
opt['init_method'] = 'tcp://127.0.0.1:'+ args.port
mp.spawn(main_worker, nprocs=ngpus_per_node, args=(ngpus_per_node, opt))
else:
opt['world_size'] = 1
main_worker(0, 1, opt)