Create NATS
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D-X-Y
@@ -23,8 +23,8 @@ from datasets import get_datasets, SearchDataset
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from procedures import prepare_seed, prepare_logger, save_checkpoint, copy_checkpoint, get_optim_scheduler
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from utils import get_model_infos, obtain_accuracy
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from log_utils import AverageMeter, time_string, convert_secs2time
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from nas_201_api import NASBench201API, NASBench301API
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from models import CellStructure, get_search_spaces
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from nats_bench import create
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class Model(object):
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@@ -38,47 +38,6 @@ class Model(object):
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return '{:}'.format(self.arch)
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# This function is to mimic the training and evaluatinig procedure for a single architecture `arch`.
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# The time_cost is calculated as the total training time for a few (e.g., 12 epochs) plus the evaluation time for one epoch.
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# For use_012_epoch_training = True, the architecture is trained for 12 epochs, with LR being decaded from 0.1 to 0.
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# In this case, the LR schedular is converged.
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# For use_012_epoch_training = False, the architecture is planed to be trained for 200 epochs, but we early stop its procedure.
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#
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def train_and_eval(arch, nas_bench, extra_info, dataname='cifar10-valid', use_012_epoch_training=True):
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if use_012_epoch_training and nas_bench is not None:
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arch_index = nas_bench.query_index_by_arch( arch )
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assert arch_index >= 0, 'can not find this arch : {:}'.format(arch)
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valid_acc, time_cost = info['valid-accuracy'], info['train-all-time'] + info['valid-per-time']
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#_, valid_acc = info.get_metrics('cifar10-valid', 'x-valid' , 25, True) # use the validation accuracy after 25 training epochs
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elif not use_012_epoch_training and nas_bench is not None:
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# Please contact me if you want to use the following logic, because it has some potential issues.
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# Please use `use_012_epoch_training=False` for cifar10 only.
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# It did return values for cifar100 and ImageNet16-120, but it has some potential issues. (Please email me for more details)
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arch_index, nepoch = nas_bench.query_index_by_arch( arch ), 25
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assert arch_index >= 0, 'can not find this arch : {:}'.format(arch)
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xoinfo = nas_bench.get_more_info(arch_index, 'cifar10-valid', iepoch=None, hp='12')
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xocost = nas_bench.get_cost_info(arch_index, 'cifar10-valid', hp='200')
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info = nas_bench.get_more_info(arch_index, dataname, nepoch, hp='200', is_random=True) # use the validation accuracy after 25 training epochs, which is used in our ICLR submission (not the camera ready).
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cost = nas_bench.get_cost_info(arch_index, dataname, hp='200')
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# The following codes are used to estimate the time cost.
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# When we build NAS-Bench-201, architectures are trained on different machines and we can not use that time record.
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# When we create checkpoints for converged_LR, we run all experiments on 1080Ti, and thus the time for each architecture can be fairly compared.
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nums = {'ImageNet16-120-train': 151700, 'ImageNet16-120-valid': 3000,
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'cifar10-valid-train' : 25000, 'cifar10-valid-valid' : 25000,
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'cifar100-train' : 50000, 'cifar100-valid' : 5000}
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estimated_train_cost = xoinfo['train-per-time'] / nums['cifar10-valid-train'] * nums['{:}-train'.format(dataname)] / xocost['latency'] * cost['latency'] * nepoch
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estimated_valid_cost = xoinfo['valid-per-time'] / nums['cifar10-valid-valid'] * nums['{:}-valid'.format(dataname)] / xocost['latency'] * cost['latency']
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try:
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valid_acc, time_cost = info['valid-accuracy'], estimated_train_cost + estimated_valid_cost
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except:
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valid_acc, time_cost = info['valtest-accuracy'], estimated_train_cost + estimated_valid_cost
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else:
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# train a model from scratch.
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raise ValueError('NOT IMPLEMENT YET')
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return valid_acc, time_cost
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def random_topology_func(op_names, max_nodes=4):
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# Return a random architecture
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def random_architecture():
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@@ -239,12 +198,7 @@ if __name__ == '__main__':
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parser.add_argument('--rand_seed', type=int, default=-1, help='manual seed')
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args = parser.parse_args()
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if args.search_space == 'tss':
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api = NASBench201API(verbose=False)
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elif args.search_space == 'sss':
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api = NASBench301API(verbose=False)
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else:
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raise ValueError('Invalid search space : {:}'.format(args.search_space))
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api = create(None, args.search_space, verbose=False)
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args.save_dir = os.path.join('{:}-{:}'.format(args.save_dir, args.search_space), args.dataset, 'R-EA-SS{:}'.format(args.ea_sample_size))
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print('save-dir : {:}'.format(args.save_dir))
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