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update vis

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D-X-Y 2020-01-01 22:51:00 +11:00
parent 28e4b8406f
commit 23d5ee08ae
2 changed files with 166 additions and 135 deletions
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166
exps/NAS-Bench-102/visualize.py
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@ -367,6 +367,160 @@ def write_video(save_dir):
def plot_results_nas(api, dataset, xset, root, file_name, y_lims):
print ('root-path={:}, dataset={:}, xset={:}'.format(root, dataset, xset))
checkpoints = ['./output/search-cell-nas-bench-102/R-EA-cifar10/results.pth',
'./output/search-cell-nas-bench-102/REINFORCE-cifar10/results.pth',
'./output/search-cell-nas-bench-102/RAND-cifar10/results.pth',
'./output/search-cell-nas-bench-102/BOHB-cifar10/results.pth'
]
legends, indexes = ['REA', 'REINFORCE', 'RANDOM', 'BOHB'], None
All_Accs = OrderedDict()
for legend, checkpoint in zip(legends, checkpoints):
all_indexes = torch.load(checkpoint, map_location='cpu')
accuracies = []
for x in all_indexes:
info = api.arch2infos_full[ x ]
metrics = info.get_metrics(dataset, xset, None, False)
accuracies.append( metrics['accuracy'] )
if indexes is None: indexes = list(range(len(all_indexes)))
All_Accs[legend] = sorted(accuracies)
color_set = ['r', 'b', 'g', 'c', 'm', 'y', 'k']
dpi, width, height = 300, 3400, 2600
LabelSize, LegendFontsize = 28, 28
figsize = width / float(dpi), height / float(dpi)
fig = plt.figure(figsize=figsize)
x_axis = np.arange(0, 600)
plt.xlim(0, max(indexes))
plt.ylim(y_lims[0], y_lims[1])
interval_x, interval_y = 100, y_lims[2]
plt.xticks(np.arange(0, max(indexes), interval_x), fontsize=LegendFontsize)
plt.yticks(np.arange(y_lims[0],y_lims[1], interval_y), fontsize=LegendFontsize)
plt.grid()
plt.xlabel('The index of runs', fontsize=LabelSize)
plt.ylabel('The accuracy (%)', fontsize=LabelSize)
for idx, legend in enumerate(legends):
plt.plot(indexes, All_Accs[legend], color=color_set[idx], linestyle='-', label='{:}'.format(legend), lw=2)
print ('{:} : mean = {:}, std = {:} :: {:.2f}$\\pm${:.2f}'.format(legend, np.mean(All_Accs[legend]), np.std(All_Accs[legend]), np.mean(All_Accs[legend]), np.std(All_Accs[legend])))
plt.legend(loc=4, fontsize=LegendFontsize)
save_path = root / '{:}-{:}-{:}'.format(dataset, xset, file_name)
print('save figure into {:}\n'.format(save_path))
fig.savefig(str(save_path), dpi=dpi, bbox_inches='tight', format='pdf')
def just_show(api):
xtimes = {'RSPS': [8082.5, 7794.2, 8144.7],
'DARTS-V1': [11582.1, 11347.0, 11948.2],
'DARTS-V2': [35694.7, 36132.7, 35518.0],
'GDAS' : [31334.1, 31478.6, 32016.7],
'SETN' : [33528.8, 33831.5, 35058.3],
'ENAS' : [14340.2, 13817.3, 14018.9]}
for xkey, xlist in xtimes.items():
xlist = np.array(xlist)
print ('{:4s} : mean-time={:.1f} s'.format(xkey, xlist.mean()))
xpaths = {'RSPS' : 'output/search-cell-nas-bench-102/RANDOM-NAS-cifar10/checkpoint/',
'DARTS-V1': 'output/search-cell-nas-bench-102/DARTS-V1-cifar10/checkpoint/',
'DARTS-V2': 'output/search-cell-nas-bench-102/DARTS-V2-cifar10/checkpoint/',
'GDAS' : 'output/search-cell-nas-bench-102/GDAS-cifar10/checkpoint/',
'SETN' : 'output/search-cell-nas-bench-102/SETN-cifar10/checkpoint/',
'ENAS' : 'output/search-cell-nas-bench-102/ENAS-cifar10/checkpoint/',
}
xseeds = {'RSPS' : [5349, 59613, 5983],
'DARTS-V1': [11416, 72873, 81184],
'DARTS-V2': [43330, 79405, 79423],
'GDAS' : [19677, 884, 95950],
'SETN' : [20518, 61817, 89144],
'ENAS' : [30801, 75610, 97745],
}
def get_accs(xdata, index=-1):
if index == -1:
epochs = xdata['epoch']
genotype = xdata['genotypes'][epochs-1]
index = api.query_index_by_arch(genotype)
pairs = [('cifar10-valid', 'x-valid'), ('cifar10', 'ori-test'), ('cifar100', 'x-valid'), ('cifar100', 'x-test'), ('ImageNet16-120', 'x-valid'), ('ImageNet16-120', 'x-test')]
xresults = []
for dataset, xset in pairs:
metrics = api.arch2infos_full[index].get_metrics(dataset, xset, None, False)
xresults.append( metrics['accuracy'] )
return xresults
for xkey in xpaths.keys():
all_paths = [ '{:}/seed-{:}-basic.pth'.format(xpaths[xkey], seed) for seed in xseeds[xkey] ]
all_datas = [torch.load(xpath) for xpath in all_paths]
accyss = [get_accs(xdatas) for xdatas in all_datas]
accyss = np.array( accyss )
print('\nxkey = {:}'.format(xkey))
for i in range(accyss.shape[1]): print('---->>>> {:.2f}$\\pm${:.2f}'.format(accyss[:,i].mean(), accyss[:,i].std()))
print('\n{:}'.format(get_accs(None, 11472))) # resnet
pairs = [('cifar10-valid', 'x-valid'), ('cifar10', 'ori-test'), ('cifar100', 'x-valid'), ('cifar100', 'x-test'), ('ImageNet16-120', 'x-valid'), ('ImageNet16-120', 'x-test')]
for dataset, metric_on_set in pairs:
arch_index, highest_acc = api.find_best(dataset, metric_on_set)
print ('[{:10s}-{:10s} ::: index={:5d}, accuracy={:.2f}'.format(dataset, metric_on_set, arch_index, highest_acc))
def show_nas_sharing_w(api, dataset, subset, vis_save_dir, file_name, y_lims):
color_set = ['r', 'b', 'g', 'c', 'm', 'y', 'k']
dpi, width, height = 300, 3400, 2600
LabelSize, LegendFontsize = 28, 28
figsize = width / float(dpi), height / float(dpi)
fig = plt.figure(figsize=figsize)
x_maxs = 250
x_axis = np.arange(0, x_maxs)
plt.xlim(0, x_maxs)
plt.ylim(y_lims[0], y_lims[1])
interval_x, interval_y = x_maxs // 5, y_lims[2]
plt.xticks(np.arange(0, x_maxs, interval_x), fontsize=LegendFontsize)
plt.yticks(np.arange(y_lims[0],y_lims[1], interval_y), fontsize=LegendFontsize)
plt.grid()
plt.xlabel('The searching epoch', fontsize=LabelSize)
plt.ylabel('The accuracy (%)', fontsize=LabelSize)
xpaths = {'RSPS' : 'output/search-cell-nas-bench-102/RANDOM-NAS-cifar10/checkpoint/',
'DARTS-V1': 'output/search-cell-nas-bench-102/DARTS-V1-cifar10/checkpoint/',
'DARTS-V2': 'output/search-cell-nas-bench-102/DARTS-V2-cifar10/checkpoint/',
'GDAS' : 'output/search-cell-nas-bench-102/GDAS-cifar10/checkpoint/',
'SETN' : 'output/search-cell-nas-bench-102/SETN-cifar10/checkpoint/',
'ENAS' : 'output/search-cell-nas-bench-102/ENAS-cifar10/checkpoint/',
}
xseeds = {'RSPS' : [5349, 59613, 5983],
'DARTS-V1': [11416, 72873, 81184],
'DARTS-V2': [43330, 79405, 79423],
'GDAS' : [19677, 884, 95950],
'SETN' : [20518, 61817, 89144],
'ENAS' : [30801, 75610, 97745],
}
def get_accs(xdata):
epochs, xresults = xdata['epoch'], []
for iepoch in range(epochs):
genotype = xdata['genotypes'][iepoch]
index = api.query_index_by_arch(genotype)
metrics = api.arch2infos_full[index].get_metrics(dataset, subset, None, False)
xresults.append( metrics['accuracy'] )
return xresults
for idx, method in enumerate(['RSPS', 'GDAS', 'SETN', 'ENAS']):
xkey = method
all_paths = [ '{:}/seed-{:}-basic.pth'.format(xpaths[xkey], seed) for seed in xseeds[xkey] ]
all_datas = [torch.load(xpath) for xpath in all_paths]
accyss = [get_accs(xdatas) for xdatas in all_datas]
accyss = np.array( accyss )
epochs = list(range(accyss.shape[1]))
plt.plot(epochs, [accyss[:,i].mean() for i in epochs], color=color_set[idx], linestyle='-', label='{:}'.format(method), lw=2)
plt.fill_between(epochs, [accyss[:,i].mean()-accyss[:,i].std() for i in epochs], [accyss[:,i].mean()+accyss[:,i].std() for i in epochs], alpha=0.2, color=color_set[idx])
plt.legend(loc=4, fontsize=LegendFontsize)
save_path = vis_save_dir / '{:}-{:}-{:}'.format(dataset, subset, file_name)
print('save figure into {:}\n'.format(save_path))
fig.savefig(str(save_path), dpi=dpi, bbox_inches='tight', format='pdf')
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='NAS-Bench-102', formatter_class=argparse.ArgumentDefaultsHelpFormatter)
@ -384,3 +538,15 @@ if __name__ == '__main__':
#visualize_info(str(meta_file), 'cifar100', vis_save_dir)
#visualize_info(str(meta_file), 'ImageNet16-120', vis_save_dir)
#visualize_relative_ranking(vis_save_dir)
api = API(args.api_path)
show_nas_sharing_w(api, 'cifar10-valid' , 'x-valid' , vis_save_dir, 'nas-plot.pdf', (5,95,10))
"""
just_show(api)
plot_results_nas(api, 'cifar10-valid' , 'x-valid' , vis_save_dir, 'nas-com.pdf', (85,95, 1))
plot_results_nas(api, 'cifar10' , 'ori-test', vis_save_dir, 'nas-com.pdf', (85,95, 1))
plot_results_nas(api, 'cifar100' , 'x-valid' , vis_save_dir, 'nas-com.pdf', (55,75, 3))
plot_results_nas(api, 'cifar100' , 'x-test' , vis_save_dir, 'nas-com.pdf', (55,75, 3))
plot_results_nas(api, 'ImageNet16-120', 'x-valid' , vis_save_dir, 'nas-com.pdf', (35,50, 3))
plot_results_nas(api, 'ImageNet16-120', 'x-test' , vis_save_dir, 'nas-com.pdf', (35,50, 3))
"""

135
exps/vis/show-results.py
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@ -1,135 +0,0 @@
##################################################
# Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2019 #
##################################################
# python ./exps/vis/show-results.py --api_path ${HOME}/.torch/NAS-Bench-102-v1_0-e61699.pth
##################################################
import os, sys, argparse
from pathlib import Path
import torch
import numpy as np
from collections import OrderedDict
import matplotlib
matplotlib.use('agg')
import matplotlib.pyplot as plt
lib_dir = (Path(__file__).parent / '..' / '..' / 'lib').resolve()
if str(lib_dir) not in sys.path: sys.path.insert(0, str(lib_dir))
from nas_102_api import NASBench102API as API
def plot_results_nas(api, dataset, xset, root, file_name, y_lims):
print ('root-path={:}, dataset={:}, xset={:}'.format(root, dataset, xset))
checkpoints = ['./output/search-cell-nas-bench-102/R-EA-cifar10/results.pth',
'./output/search-cell-nas-bench-102/REINFORCE-cifar10/results.pth',
'./output/search-cell-nas-bench-102/RAND-cifar10/results.pth',
'./output/search-cell-nas-bench-102/BOHB-cifar10/results.pth'
]
legends, indexes = ['REA', 'REINFORCE', 'RANDOM', 'BOHB'], None
All_Accs = OrderedDict()
for legend, checkpoint in zip(legends, checkpoints):
all_indexes = torch.load(checkpoint, map_location='cpu')
accuracies = []
for x in all_indexes:
info = api.arch2infos_full[ x ]
metrics = info.get_metrics(dataset, xset, None, False)
accuracies.append( metrics['accuracy'] )
if indexes is None: indexes = list(range(len(all_indexes)))
All_Accs[legend] = sorted(accuracies)
color_set = ['r', 'b', 'g', 'c', 'm', 'y', 'k']
dpi, width, height = 300, 3400, 2600
LabelSize, LegendFontsize = 28, 28
figsize = width / float(dpi), height / float(dpi)
fig = plt.figure(figsize=figsize)
x_axis = np.arange(0, 600)
plt.xlim(0, max(indexes))
plt.ylim(y_lims[0], y_lims[1])
interval_x, interval_y = 100, y_lims[2]
plt.xticks(np.arange(0, max(indexes), interval_x), fontsize=LegendFontsize)
plt.yticks(np.arange(y_lims[0],y_lims[1], interval_y), fontsize=LegendFontsize)
plt.grid()
plt.xlabel('The index of runs', fontsize=LabelSize)
plt.ylabel('The accuracy (%)', fontsize=LabelSize)
for idx, legend in enumerate(legends):
plt.plot(indexes, All_Accs[legend], color=color_set[idx], linestyle='-', label='{:}'.format(legend), lw=2)
print ('{:} : mean = {:}, std = {:} :: {:.2f}$\\pm${:.2f}'.format(legend, np.mean(All_Accs[legend]), np.std(All_Accs[legend]), np.mean(All_Accs[legend]), np.std(All_Accs[legend])))
plt.legend(loc=4, fontsize=LegendFontsize)
save_path = root / '{:}-{:}-{:}'.format(dataset, xset, file_name)
print('save figure into {:}\n'.format(save_path))
fig.savefig(str(save_path), dpi=dpi, bbox_inches='tight', format='pdf')
def just_show(api):
xtimes = {'RSPS': [8082.5, 7794.2, 8144.7],
'DARTS-V1': [11582.1, 11347.0, 11948.2],
'DARTS-V2': [35694.7, 36132.7, 35518.0],
'GDAS' : [31334.1, 31478.6, 32016.7],
'SETN' : [33528.8, 33831.5, 35058.3],
'ENAS' : [14340.2, 13817.3, 14018.9]}
for xkey, xlist in xtimes.items():
xlist = np.array(xlist)
print ('{:4s} : mean-time={:.1f} s'.format(xkey, xlist.mean()))
xpaths = {'RSPS' : 'output/search-cell-nas-bench-102/RANDOM-NAS-cifar10/checkpoint/',
'DARTS-V1': 'output/search-cell-nas-bench-102/DARTS-V1-cifar10/checkpoint/',
'DARTS-V2': 'output/search-cell-nas-bench-102/DARTS-V2-cifar10/checkpoint/',
'GDAS' : 'output/search-cell-nas-bench-102/GDAS-cifar10/checkpoint/',
'SETN' : 'output/search-cell-nas-bench-102/SETN-cifar10/checkpoint/',
'ENAS' : 'output/search-cell-nas-bench-102/ENAS-cifar10/checkpoint/',
}
xseeds = {'RSPS' : [5349, 59613, 5983],
'DARTS-V1': [11416, 72873, 81184],
'DARTS-V2': [43330, 79405, 79423],
'GDAS' : [19677, 884, 95950],
'SETN' : [20518, 61817, 89144],
'ENAS' : [30801, 75610, 97745],
}
def get_accs(xdata, index=-1):
if index == -1:
epochs = xdata['epoch']
genotype = xdata['genotypes'][epochs-1]
index = api.query_index_by_arch(genotype)
pairs = [('cifar10-valid', 'x-valid'), ('cifar10', 'ori-test'), ('cifar100', 'x-valid'), ('cifar100', 'x-test'), ('ImageNet16-120', 'x-valid'), ('ImageNet16-120', 'x-test')]
xresults = []
for dataset, xset in pairs:
metrics = api.arch2infos_full[index].get_metrics(dataset, xset, None, False)
xresults.append( metrics['accuracy'] )
return xresults
for xkey in xpaths.keys():
all_paths = [ '{:}/seed-{:}-basic.pth'.format(xpaths[xkey], seed) for seed in xseeds[xkey] ]
all_datas = [torch.load(xpath) for xpath in all_paths]
accyss = [get_accs(xdatas) for xdatas in all_datas]
accyss = np.array( accyss )
print('\nxkey = {:}'.format(xkey))
for i in range(accyss.shape[1]): print('---->>>> {:.2f}$\\pm${:.2f}'.format(accyss[:,i].mean(), accyss[:,i].std()))
print('\n{:}'.format(get_accs(None, 11472))) # resnet
pairs = [('cifar10-valid', 'x-valid'), ('cifar10', 'ori-test'), ('cifar100', 'x-valid'), ('cifar100', 'x-test'), ('ImageNet16-120', 'x-valid'), ('ImageNet16-120', 'x-test')]
for dataset, metric_on_set in pairs:
arch_index, highest_acc = api.find_best(dataset, metric_on_set)
print ('[{:10s}-{:10s} ::: index={:5d}, accuracy={:.2f}'.format(dataset, metric_on_set, arch_index, highest_acc))
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='NAS-Bench-102', formatter_class=argparse.ArgumentDefaultsHelpFormatter)
parser.add_argument('--save_dir', type=str, default='./output/search-cell-nas-bench-102/visuals', help='The base-name of folder to save checkpoints and log.')
parser.add_argument('--api_path', type=str, default=None, help='The path to the NAS-Bench-102 benchmark file.')
args = parser.parse_args()
api = API(args.api_path)
root = Path(args.save_dir).resolve()
root.mkdir(parents=True, exist_ok=True)
just_show(api)
"""
plot_results_nas(api, 'cifar10-valid' , 'x-valid' , root, 'nas-com.pdf', (85,95, 1))
plot_results_nas(api, 'cifar10' , 'ori-test', root, 'nas-com.pdf', (85,95, 1))
plot_results_nas(api, 'cifar100' , 'x-valid' , root, 'nas-com.pdf', (55,75, 3))
plot_results_nas(api, 'cifar100' , 'x-test' , root, 'nas-com.pdf', (55,75, 3))
plot_results_nas(api, 'ImageNet16-120', 'x-valid' , root, 'nas-com.pdf', (35,50, 3))
plot_results_nas(api, 'ImageNet16-120', 'x-test' , root, 'nas-com.pdf', (35,50, 3))
"""