############################################################### # NAS-Bench-201, ICLR 2020 (https://arxiv.org/abs/2001.00326) # ############################################################### # Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2020.06 # ############################################################### # Usage: python exps/experimental/vis-nats-bench-ws.py --search_space tss # Usage: python exps/experimental/vis-nats-bench-ws.py --search_space sss ############################################################### import os, gc, sys, time, torch, argparse import numpy as np from typing import List, Text, Dict, Any from shutil import copyfile from collections import defaultdict, OrderedDict from copy import deepcopy from pathlib import Path import matplotlib import seaborn as sns matplotlib.use('agg') import matplotlib.pyplot as plt import matplotlib.ticker as ticker lib_dir = (Path(__file__).parent / '..' / '..' / 'lib').resolve() if str(lib_dir) not in sys.path: sys.path.insert(0, str(lib_dir)) from config_utils import dict2config, load_config from nats_bench import create from log_utils import time_string # def fetch_data(root_dir='./output/search', search_space='tss', dataset=None, suffix='-WARMNone'): def fetch_data(root_dir='./output/search', search_space='tss', dataset=None, suffix='-WARM0.3'): ss_dir = '{:}-{:}'.format(root_dir, search_space) alg2name, alg2path = OrderedDict(), OrderedDict() seeds = [777, 888, 999] print('\n[fetch data] from {:} on {:}'.format(search_space, dataset)) if search_space == 'tss': alg2name['GDAS'] = 'gdas-affine0_BN0-None' alg2name['RSPS'] = 'random-affine0_BN0-None' alg2name['DARTS (1st)'] = 'darts-v1-affine0_BN0-None' alg2name['DARTS (2nd)'] = 'darts-v2-affine0_BN0-None' alg2name['ENAS'] = 'enas-affine0_BN0-None' alg2name['SETN'] = 'setn-affine0_BN0-None' else: # alg2name['TAS'] = 'tas-affine0_BN0{:}'.format(suffix) # alg2name['FBNetV2'] = 'fbv2-affine0_BN0{:}'.format(suffix) # alg2name['TuNAS'] = 'tunas-affine0_BN0{:}'.format(suffix) alg2name['channel-wise interpolation'] = 'tas-affine0_BN0-AWD0.001{:}'.format(suffix) alg2name['masking + Gumbel-Softmax'] = 'mask_gumbel-affine0_BN0-AWD0.001{:}'.format(suffix) alg2name['masking + sampling'] = 'mask_rl-affine0_BN0-AWD0.0{:}'.format(suffix) for alg, name in alg2name.items(): alg2path[alg] = os.path.join(ss_dir, dataset, name, 'seed-{:}-last-info.pth') alg2data = OrderedDict() for alg, path in alg2path.items(): alg2data[alg], ok_num = [], 0 for seed in seeds: xpath = path.format(seed) if os.path.isfile(xpath): ok_num += 1 else: print('This is an invalid path : {:}'.format(xpath)) continue data = torch.load(xpath, map_location=torch.device('cpu')) data = torch.load(data['last_checkpoint'], map_location=torch.device('cpu')) alg2data[alg].append(data['genotypes']) print('This algorithm : {:} has {:} valid ckps.'.format(alg, ok_num)) assert ok_num > 0, 'Must have at least 1 valid ckps.' return alg2data y_min_s = {('cifar10', 'tss'): 90, ('cifar10', 'sss'): 92, ('cifar100', 'tss'): 65, ('cifar100', 'sss'): 65, ('ImageNet16-120', 'tss'): 36, ('ImageNet16-120', 'sss'): 40} y_max_s = {('cifar10', 'tss'): 94.5, ('cifar10', 'sss'): 93.3, ('cifar100', 'tss'): 72, ('cifar100', 'sss'): 70, ('ImageNet16-120', 'tss'): 44, ('ImageNet16-120', 'sss'): 46} name2label = {'cifar10': 'CIFAR-10', 'cifar100': 'CIFAR-100', 'ImageNet16-120': 'ImageNet-16-120'} def visualize_curve(api, vis_save_dir, search_space): vis_save_dir = vis_save_dir.resolve() vis_save_dir.mkdir(parents=True, exist_ok=True) dpi, width, height = 250, 5200, 1400 figsize = width / float(dpi), height / float(dpi) LabelSize, LegendFontsize = 16, 16 def sub_plot_fn(ax, dataset): alg2data = fetch_data(search_space=search_space, dataset=dataset) alg2accuracies = OrderedDict() epochs = 100 colors = ['b', 'g', 'c', 'm', 'y', 'r'] ax.set_xlim(0, epochs) # ax.set_ylim(y_min_s[(dataset, search_space)], y_max_s[(dataset, search_space)]) for idx, (alg, data) in enumerate(alg2data.items()): print('plot alg : {:}'.format(alg)) xs, accuracies = [], [] for iepoch in range(epochs + 1): try: structures, accs = [_[iepoch-1] for _ in data], [] except: raise ValueError('This alg {:} on {:} has invalid checkpoints.'.format(alg, dataset)) for structure in structures: info = api.get_more_info(structure, dataset=dataset, hp=90 if api.search_space_name == 'size' else 200, is_random=False) accs.append(info['test-accuracy']) accuracies.append(sum(accs)/len(accs)) xs.append(iepoch) alg2accuracies[alg] = accuracies ax.plot(xs, accuracies, c=colors[idx], label='{:}'.format(alg)) ax.set_xlabel('The searching epoch', fontsize=LabelSize) ax.set_ylabel('Test accuracy on {:}'.format(name2label[dataset]), fontsize=LabelSize) ax.set_title('Searching results on {:}'.format(name2label[dataset]), fontsize=LabelSize+4) ax.legend(loc=4, fontsize=LegendFontsize) fig, axs = plt.subplots(1, 3, figsize=figsize) datasets = ['cifar10', 'cifar100', 'ImageNet16-120'] for dataset, ax in zip(datasets, axs): sub_plot_fn(ax, dataset) print('sub-plot {:} on {:} done.'.format(dataset, search_space)) save_path = (vis_save_dir / '{:}-ws-curve.png'.format(search_space)).resolve() fig.savefig(save_path, dpi=dpi, bbox_inches='tight', format='png') print ('{:} save into {:}'.format(time_string(), save_path)) plt.close('all') if __name__ == '__main__': parser = argparse.ArgumentParser(description='NAS-Bench-X', formatter_class=argparse.ArgumentDefaultsHelpFormatter) parser.add_argument('--save_dir', type=str, default='output/vis-nas-bench/nas-algos', help='Folder to save checkpoints and log.') parser.add_argument('--search_space', type=str, default='tss', choices=['tss', 'sss'], help='Choose the search space.') args = parser.parse_args() save_dir = Path(args.save_dir) api = create(None, args.search_space, fast_mode=True, verbose=False) visualize_curve(api, save_dir, args.search_space)