##################################################### # Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2020.08 # ############################################################################## # NATS-Bench: Benchmarking NAS algorithms for Architecture Topology and Size # ##################################################################################### # The history of benchmark files (the name is NATS-sss-[version]-[md5].pickle.pbz2) # # [2020.08.31] NATS-sss-v1_0-50262.pickle.pbz2 # ##################################################################################### import os, copy, random, numpy as np from pathlib import Path from typing import List, Text, Union, Dict, Optional from collections import OrderedDict, defaultdict from .api_utils import time_string from .api_utils import pickle_load from .api_utils import ArchResults from .api_utils import NASBenchMetaAPI from .api_utils import remap_dataset_set_names from .api_utils import PICKLE_EXT ALL_BASE_NAMES = ['NATS-sss-v1_0-50262'] def print_information(information, extra_info=None, show=False): dataset_names = information.get_dataset_names() strings = [information.arch_str, 'datasets : {:}, extra-info : {:}'.format(dataset_names, extra_info)] def metric2str(loss, acc): return 'loss = {:.3f} & top1 = {:.2f}%'.format(loss, acc) for ida, dataset in enumerate(dataset_names): metric = information.get_compute_costs(dataset) flop, param, latency = metric['flops'], metric['params'], metric['latency'] str1 = '{:14s} FLOP={:6.2f} M, Params={:.3f} MB, latency={:} ms.'.format(dataset, flop, param, '{:.2f}'.format(latency*1000) if latency is not None and latency > 0 else None) train_info = information.get_metrics(dataset, 'train') if dataset == 'cifar10-valid': valid_info = information.get_metrics(dataset, 'x-valid') test__info = information.get_metrics(dataset, 'ori-test') str2 = '{:14s} train : [{:}], valid : [{:}], test : [{:}]'.format( dataset, metric2str(train_info['loss'], train_info['accuracy']), metric2str(valid_info['loss'], valid_info['accuracy']), metric2str(test__info['loss'], test__info['accuracy'])) elif dataset == 'cifar10': test__info = information.get_metrics(dataset, 'ori-test') str2 = '{:14s} train : [{:}], test : [{:}]'.format(dataset, metric2str(train_info['loss'], train_info['accuracy']), metric2str(test__info['loss'], test__info['accuracy'])) else: valid_info = information.get_metrics(dataset, 'x-valid') test__info = information.get_metrics(dataset, 'x-test') str2 = '{:14s} train : [{:}], valid : [{:}], test : [{:}]'.format(dataset, metric2str(train_info['loss'], train_info['accuracy']), metric2str(valid_info['loss'], valid_info['accuracy']), metric2str(test__info['loss'], test__info['accuracy'])) strings += [str1, str2] if show: print('\n'.join(strings)) return strings """ This is the class for the API of size search space in NATS-Bench. """ class NATSsize(NASBenchMetaAPI): """ The initialization function that takes the dataset file path (or a dict loaded from that path) as input. """ def __init__(self, file_path_or_dict: Optional[Union[Text, Dict]]=None, fast_mode: bool=False, verbose: bool=True): self.ALL_BASE_NAMES = ALL_BASE_NAMES self.filename = None self._search_space_name = 'size' self._fast_mode = fast_mode self._archive_dir = None self.reset_time() if file_path_or_dict is None: if self._fast_mode: self._archive_dir = os.path.join(os.environ['TORCH_HOME'], '{:}-simple'.format(ALL_BASE_NAMES[-1])) else: file_path_or_dict = os.path.join(os.environ['TORCH_HOME'], '{:}.{:}'.format(ALL_BASE_NAMES[-1], PICKLE_EXT)) print ('{:} Try to use the default NATS-Bench (size) path from fast_mode={:} and path={:}.'.format(time_string(), self._fast_mode, file_path_or_dict)) if isinstance(file_path_or_dict, str) or isinstance(file_path_or_dict, Path): file_path_or_dict = str(file_path_or_dict) if verbose: print('{:} Try to create the NATS-Bench (size) api from {:} with fast_mode={:}'.format(time_string(), file_path_or_dict, fast_mode)) if not os.path.isfile(file_path_or_dict) and not os.path.isdir(file_path_or_dict): raise ValueError('{:} is neither a file or a dir.'.format(file_path_or_dict)) self.filename = Path(file_path_or_dict).name if fast_mode: if os.path.isfile(file_path_or_dict): raise ValueError('fast_mode={:} must feed the path for directory : {:}'.format(fast_mode, file_path_or_dict)) else: self._archive_dir = file_path_or_dict else: if os.path.isdir(file_path_or_dict): raise ValueError('fast_mode={:} must feed the path for file : {:}'.format(fast_mode, file_path_or_dict)) else: file_path_or_dict = pickle_load(file_path_or_dict) elif isinstance(file_path_or_dict, dict): file_path_or_dict = copy.deepcopy(file_path_or_dict) self.verbose = verbose if isinstance(file_path_or_dict, dict): keys = ('meta_archs', 'arch2infos', 'evaluated_indexes') for key in keys: assert key in file_path_or_dict, 'Can not find key[{:}] in the dict'.format(key) self.meta_archs = copy.deepcopy(file_path_or_dict['meta_archs']) # This is a dict mapping each architecture to a dict, where the key is #epochs and the value is ArchResults self.arch2infos_dict = OrderedDict() self._avaliable_hps = set() for xkey in sorted(list(file_path_or_dict['arch2infos'].keys())): all_infos = file_path_or_dict['arch2infos'][xkey] hp2archres = OrderedDict() for hp_key, results in all_infos.items(): hp2archres[hp_key] = ArchResults.create_from_state_dict(results) self._avaliable_hps.add(hp_key) # save the avaliable hyper-parameter self.arch2infos_dict[xkey] = hp2archres self.evaluated_indexes = set(file_path_or_dict['evaluated_indexes']) elif self.archive_dir is not None: benchmark_meta = pickle_load('{:}/meta.{:}'.format(self.archive_dir, PICKLE_EXT)) self.meta_archs = copy.deepcopy(benchmark_meta['meta_archs']) self.arch2infos_dict = OrderedDict() self._avaliable_hps = set() self.evaluated_indexes = set() else: raise ValueError('file_path_or_dict [{:}] must be a dict or archive_dir must be set'.format(type(file_path_or_dict))) self.archstr2index = {} for idx, arch in enumerate(self.meta_archs): assert arch not in self.archstr2index, 'This [{:}]-th arch {:} already in the dict ({:}).'.format(idx, arch, self.archstr2index[arch]) self.archstr2index[arch] = idx if self.verbose: print('{:} Create NATS-Bench (size) done with {:}/{:} architectures avaliable.'.format( time_string(), len(self.evaluated_indexes), len(self.meta_archs))) def query_info_str_by_arch(self, arch, hp: Text='12'): """ This function is used to query the information of a specific architecture 'arch' can be an architecture index or an architecture string When hp=01, the hyper-parameters used to train a model are in 'configs/nas-benchmark/hyper-opts/01E.config' When hp=12, the hyper-parameters used to train a model are in 'configs/nas-benchmark/hyper-opts/12E.config' When hp=90, the hyper-parameters used to train a model are in 'configs/nas-benchmark/hyper-opts/90E.config' The difference between these three configurations are the number of training epochs. """ if self.verbose: print('{:} Call query_info_str_by_arch with arch={:} and hp={:}'.format(time_string(), arch, hp)) return self._query_info_str_by_arch(arch, hp, print_information) def get_more_info(self, index, dataset: Text, iepoch=None, hp='12', is_random=True): """This function will return the metric for the `index`-th architecture `dataset` indicates the dataset: 'cifar10-valid' : using the proposed train set of CIFAR-10 as the training set 'cifar10' : using the proposed train+valid set of CIFAR-10 as the training set 'cifar100' : using the proposed train set of CIFAR-100 as the training set 'ImageNet16-120' : using the proposed train set of ImageNet-16-120 as the training set `iepoch` indicates the index of training epochs from 0 to 11/199. When iepoch=None, it will return the metric for the last training epoch When iepoch=11, it will return the metric for the 11-th training epoch (starting from 0) `hp` indicates different hyper-parameters for training When hp=01, it trains the network with 01 epochs and the LR decayed from 0.1 to 0 within 01 epochs When hp=12, it trains the network with 01 epochs and the LR decayed from 0.1 to 0 within 12 epochs When hp=90, it trains the network with 01 epochs and the LR decayed from 0.1 to 0 within 90 epochs `is_random` When is_random=True, the performance of a random architecture will be returned When is_random=False, the performanceo of all trials will be averaged. """ if self.verbose: print('{:} Call the get_more_info function with index={:}, dataset={:}, iepoch={:}, hp={:}, and is_random={:}.'.format( time_string(), index, dataset, iepoch, hp, is_random)) index = self.query_index_by_arch(index) # To avoid the input is a string or an instance of a arch object self._prepare_info(index) if index not in self.arch2infos_dict: raise ValueError('Did not find {:} from arch2infos_dict.'.format(index)) archresult = self.arch2infos_dict[index][str(hp)] # if randomly select one trial, select the seed at first if isinstance(is_random, bool) and is_random: seeds = archresult.get_dataset_seeds(dataset) is_random = random.choice(seeds) # collect the training information train_info = archresult.get_metrics(dataset, 'train', iepoch=iepoch, is_random=is_random) total = train_info['iepoch'] + 1 xinfo = {'train-loss' : train_info['loss'], 'train-accuracy': train_info['accuracy'], 'train-per-time': train_info['all_time'] / total, 'train-all-time': train_info['all_time']} # collect the evaluation information if dataset == 'cifar10-valid': valid_info = archresult.get_metrics(dataset, 'x-valid', iepoch=iepoch, is_random=is_random) try: test_info = archresult.get_metrics(dataset, 'ori-test', iepoch=iepoch, is_random=is_random) except: test_info = None valtest_info = None else: try: # collect results on the proposed test set if dataset == 'cifar10': test_info = archresult.get_metrics(dataset, 'ori-test', iepoch=iepoch, is_random=is_random) else: test_info = archresult.get_metrics(dataset, 'x-test', iepoch=iepoch, is_random=is_random) except: test_info = None try: # collect results on the proposed validation set valid_info = archresult.get_metrics(dataset, 'x-valid', iepoch=iepoch, is_random=is_random) except: valid_info = None try: if dataset != 'cifar10': valtest_info = archresult.get_metrics(dataset, 'ori-test', iepoch=iepoch, is_random=is_random) else: valtest_info = None except: valtest_info = None if valid_info is not None: xinfo['valid-loss'] = valid_info['loss'] xinfo['valid-accuracy'] = valid_info['accuracy'] xinfo['valid-per-time'] = valid_info['all_time'] / total xinfo['valid-all-time'] = valid_info['all_time'] if test_info is not None: xinfo['test-loss'] = test_info['loss'] xinfo['test-accuracy'] = test_info['accuracy'] xinfo['test-per-time'] = test_info['all_time'] / total xinfo['test-all-time'] = test_info['all_time'] if valtest_info is not None: xinfo['valtest-loss'] = valtest_info['loss'] xinfo['valtest-accuracy'] = valtest_info['accuracy'] xinfo['valtest-per-time'] = valtest_info['all_time'] / total xinfo['valtest-all-time'] = valtest_info['all_time'] return xinfo def show(self, index: int = -1) -> None: """ This function will print the information of a specific (or all) architecture(s). :param index: If the index < 0: it will loop for all architectures and print their information one by one. else: it will print the information of the 'index'-th architecture. :return: nothing """ self._show(index, print_information)