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pytorch-image-models/sotabench.py

220 lines
14 KiB

from torchbench.image_classification import ImageNet
from timm import create_model
from timm.data import resolve_data_config, create_transform
from timm.models import TestTimePoolHead
import os
NUM_GPU = 1
BATCH_SIZE = 256 * NUM_GPU
def _entry(model_name, paper_model_name, paper_arxiv_id, batch_size=BATCH_SIZE,
ttp=False, args=dict(), model_desc=None):
return dict(
model=model_name,
model_description=model_desc,
paper_model_name=paper_model_name,
paper_arxiv_id=paper_arxiv_id,
batch_size=batch_size,
ttp=ttp,
args=args)
# NOTE For any original PyTorch models, I'll remove from this list when you add to sotabench to
# avoid overlap and confusion. Please contact me.
model_list = [
## Weights ported by myself from other frameworks or trained myself in PyTorch
_entry('adv_inception_v3', 'Adversarial Inception V3', '1611.01236',
model_desc='Ported from official Tensorflow weights'),
_entry('ens_adv_inception_resnet_v2', 'Ensemble Adversarial Inception V3', '1705.07204',
model_desc='Ported from official Tensorflow weights'),
_entry('dpn68', 'DPN-68 (224x224)', '1707.01629'),
_entry('dpn68b', 'DPN-68b (224x224)', '1707.01629'),
_entry('dpn92', 'DPN-92 (224x224)', '1707.01629'),
_entry('dpn98', 'DPN-98 (224x224)', '1707.01629'),
_entry('dpn107', 'DPN-107 (224x224)', '1707.01629'),
_entry('dpn131', 'DPN-131 (224x224)', '1707.01629'),
_entry('dpn68', 'DPN-68 (320x320, Mean-Max Pooling)', '1707.01629', ttp=True, args=dict(img_size=320)),
_entry('dpn68b', 'DPN-68b (320x320, Mean-Max Pooling)', '1707.01629', ttp=True, args=dict(img_size=320)),
_entry('dpn92', 'DPN-92 (320x320, Mean-Max Pooling)', '1707.01629',
ttp=True, args=dict(img_size=320), batch_size=BATCH_SIZE//2),
_entry('dpn98', 'DPN-98 (320x320, Mean-Max Pooling)', '1707.01629',
ttp=True, args=dict(img_size=320), batch_size=BATCH_SIZE//2),
_entry('dpn107', 'DPN-107 (320x320, Mean-Max Pooling)', '1707.01629',
ttp=True, args=dict(img_size=320), batch_size=BATCH_SIZE//4),
_entry('dpn131', 'DPN-131 (320x320, Mean-Max Pooling)', '1707.01629',
ttp=True, args=dict(img_size=320), batch_size=BATCH_SIZE//4),
_entry('efficientnet_b0', 'EfficientNet-B0', '1905.11946'),
_entry('efficientnet_b1', 'EfficientNet-B1', '1905.11946'),
_entry('efficientnet_b2', 'EfficientNet-B2', '1905.11946'),
_entry('fbnetc_100', 'FBNet-C', '1812.03443',
model_desc='Trained in PyTorch with RMSProp, exponential LR decay'),
_entry('gluon_inception_v3', 'Inception V3', '1512.00567', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet18_v1b', 'ResNet-18', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet34_v1b', 'ResNet-34', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet50_v1b', 'ResNet-50', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet50_v1c', 'ResNet-50-C', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet50_v1d', 'ResNet-50-D', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet50_v1s', 'ResNet-50-S', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet101_v1b', 'ResNet-101', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet101_v1c', 'ResNet-101-C', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet101_v1d', 'ResNet-101-D', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet101_v1s', 'ResNet-101-S', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet152_v1b', 'ResNet-152', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet152_v1c', 'ResNet-152-C', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet152_v1d', 'ResNet-152-D', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnet152_v1s', 'ResNet-152-S', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnext50_32x4d', 'ResNeXt-50 32x4d', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnext101_32x4d', 'ResNeXt-101 32x4d', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_resnext101_64x4d', 'ResNeXt-101 64x4d', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_senet154', 'SENet-154', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_seresnext50_32x4d', 'SE-ResNeXt-50 32x4d', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_seresnext101_32x4d', 'SE-ResNeXt-101 32x4d', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_seresnext101_64x4d', 'SE-ResNeXt-101 64x4d', '1812.01187', model_desc='Ported from GluonCV Model Zoo'),
_entry('gluon_xception65', 'Modified Aligned Xception', '1802.02611', batch_size=BATCH_SIZE//2,
model_desc='Ported from GluonCV Model Zoo'),
_entry('mixnet_xl', 'MixNet-XL', '1907.09595', model_desc="My own scaling beyond paper's MixNet Large"),
_entry('mixnet_l', 'MixNet-L', '1907.09595'),
_entry('mixnet_m', 'MixNet-M', '1907.09595'),
_entry('mixnet_s', 'MixNet-S', '1907.09595'),
_entry('mnasnet_100', 'MnasNet-B1', '1807.11626'),
_entry('mobilenetv3_100', 'MobileNet V3(1.0)', '1905.02244',
model_desc='Trained in PyTorch with RMSProp, exponential LR decay, and hyper-params matching '
'paper as closely as possible.'),
_entry('resnet18', 'ResNet-18', '1812.01187'),
_entry('resnet26', 'ResNet-26', '1812.01187', model_desc='Block cfg of ResNet-34 w/ Bottleneck'),
_entry('resnet26d', 'ResNet-26-D', '1812.01187',
model_desc='Block cfg of ResNet-34 w/ Bottleneck, deep stem, and avg-pool in downsample layers.'),
_entry('resnet34', 'ResNet-34', '1812.01187'),
_entry('resnet50', 'ResNet-50', '1812.01187'),
_entry('resnext50_32x4d', 'ResNeXt-50 32x4d', '1812.01187'),
_entry('resnext50d_32x4d', 'ResNeXt-50-D 32x4d', '1812.01187',
model_desc="'D' variant (3x3 deep stem w/ avg-pool downscale). Trained with "
"SGD w/ cosine LR decay, random-erasing (gaussian per-pixel noise) and label-smoothing"),
_entry('semnasnet_100', 'MnasNet-A1', '1807.11626'),
_entry('seresnet18', 'SE-ResNet-18', '1709.01507'),
_entry('seresnet34', 'SE-ResNet-34', '1709.01507'),
_entry('seresnext26_32x4d', 'SE-ResNeXt-26 32x4d', '1709.01507',
model_desc='Block cfg of SE-ResNeXt-34 w/ Bottleneck, deep stem, and avg-pool in downsample layers.'),
_entry('spnasnet_100', 'Single-Path NAS', '1904.02877',
model_desc='Trained in PyTorch with SGD, cosine LR decay'),
_entry('tf_efficientnet_b0', 'EfficientNet-B0 (AutoAugment)', '1905.11946',
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b1', 'EfficientNet-B1 (AutoAugment)', '1905.11946',
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b2', 'EfficientNet-B2 (AutoAugment)', '1905.11946',
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b3', 'EfficientNet-B3 (AutoAugment)', '1905.11946', batch_size=BATCH_SIZE//2,
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b4', 'EfficientNet-B4 (AutoAugment)', '1905.11946', batch_size=BATCH_SIZE//2,
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b5', 'EfficientNet-B5 (AutoAugment)', '1905.11946', batch_size=BATCH_SIZE//4,
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b6', 'EfficientNet-B6 (AutoAugment)', '1905.11946', batch_size=BATCH_SIZE//8,
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_b7', 'EfficientNet-B7 (AutoAugment)', '1905.11946', batch_size=BATCH_SIZE//8,
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_es', 'EfficientNet-EdgeTPU-S', '1905.11946',
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_em', 'EfficientNet-EdgeTPU-M', '1905.11946',
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_efficientnet_el', 'EfficientNet-EdgeTPU-L', '1905.11946', batch_size=BATCH_SIZE//2,
model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_inception_v3', 'Inception V3', '1512.00567', model_desc='Ported from official Tensorflow weights'),
_entry('tf_mixnet_l', 'MixNet-L', '1907.09595', model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_mixnet_m', 'MixNet-M', '1907.09595', model_desc='Ported from official Google AI Tensorflow weights'),
_entry('tf_mixnet_s', 'MixNet-S', '1907.09595', model_desc='Ported from official Google AI Tensorflow weights'),
## Cadene ported weights (to remove if Cadene adds sotabench)
_entry('inception_resnet_v2', 'Inception ResNet V2', '1602.07261'),
_entry('inception_v4', 'Inception V4', '1602.07261'),
_entry('nasnetalarge', 'NASNet-A Large', '1707.07012', batch_size=BATCH_SIZE // 4),
_entry('pnasnet5large', 'PNASNet-5', '1712.00559', batch_size=BATCH_SIZE // 4),
_entry('seresnet50', 'SE-ResNet-50', '1709.01507'),
_entry('seresnet101', 'SE-ResNet-101', '1709.01507'),
_entry('seresnet152', 'SE-ResNet-152', '1709.01507'),
_entry('seresnext50_32x4d', 'SE-ResNeXt-50 32x4d', '1709.01507'),
_entry('seresnext101_32x4d', 'SE-ResNeXt-101 32x4d', '1709.01507'),
_entry('senet154', 'SENet-154', '1709.01507'),
_entry('xception', 'Xception', '1610.02357', batch_size=BATCH_SIZE//2),
## Torchvision weights
# _entry('densenet121'),
# _entry('densenet161'),
# _entry('densenet169'),
# _entry('densenet201'),
# _entry('inception_v3', paper_model_name='Inception V3', ),
# _entry('tv_resnet34', , ),
# _entry('tv_resnet50', , ),
# _entry('resnet101', , ),
# _entry('resnet152', , ),
# _entry('tv_resnext50_32x4d', , ),
# _entry('resnext101_32x8d', ),
# _entry('wide_resnet50_2' , ),
# _entry('wide_resnet101_2', , ),
## Facebook WSL weights
_entry('ig_resnext101_32x8d', 'ResNeXt-101 32x8d', '1805.00932'),
_entry('ig_resnext101_32x16d', 'ResNeXt-101 32x16d', '1805.00932'),
_entry('ig_resnext101_32x32d', 'ResNeXt-101 32x32d', '1805.00932', batch_size=BATCH_SIZE // 2),
_entry('ig_resnext101_32x48d', 'ResNeXt-101 32x48d', '1805.00932', batch_size=BATCH_SIZE // 4),
_entry('ig_resnext101_32x8d (288x288 Mean-Max Pooling)', 'ResNeXt-101 32x8d', '1805.00932',
ttp=True, args=dict(img_size=288)),
_entry('ig_resnext101_32x16d (288x288 Mean-Max Pooling)', 'ResNeXt-101 32x16d', '1805.00932',
ttp=True, args=dict(img_size=288), batch_size=BATCH_SIZE // 2),
_entry('ig_resnext101_32x32d (288x288 Mean-Max Pooling)', 'ResNeXt-101 32x32d', '1805.00932',
ttp=True, args=dict(img_size=288), batch_size=BATCH_SIZE // 4),
_entry('ig_resnext101_32x48d (288x288 Mean-Max Pooling)', 'ResNeXt-101 32x48d', '1805.00932',
ttp=True, args=dict(img_size=288), batch_size=BATCH_SIZE // 8),
## DLA official impl weights (to remove if sotabench added to source)
_entry('dla34', 'DLA-34', '1707.06484'),
_entry('dla46_c', 'DLA-46-C', '1707.06484'),
_entry('dla46x_c', 'DLA-X-46-C', '1707.06484'),
_entry('dla60x_c', 'DLA-X-60-C', '1707.06484'),
_entry('dla60', 'DLA-60', '1707.06484'),
_entry('dla60x', 'DLA-X-60', '1707.06484'),
_entry('dla102', 'DLA-102', '1707.06484'),
_entry('dla102x', 'DLA-X-102', '1707.06484'),
_entry('dla102x2', 'DLA-X-102 64', '1707.06484'),
_entry('dla169', 'DLA-169', '1707.06484'),
## Res2Net official impl weights (to remove if sotabench added to source)
_entry('res2net50_26w_4s', 'Res2Net-50 26x4s', '1904.01169'),
_entry('res2net50_14w_8s', 'Res2Net-50 14x8s', '1904.01169'),
_entry('res2net50_26w_6s', 'Res2Net-50 26x6s', '1904.01169'),
_entry('res2net50_26w_8s', 'Res2Net-50 26x8s', '1904.01169'),
_entry('res2net50_48w_2s', 'Res2Net-50 48x2s', '1904.01169'),
_entry('res2net101_26w_4s', 'Res2NeXt-101 26x4s', '1904.01169'),
_entry('res2next50', 'Res2NeXt-50', '1904.01169'),
_entry('dla60_res2net', 'Res2Net-DLA-60', '1904.01169'),
_entry('dla60_res2next', 'Res2NeXt-DLA-60', '1904.01169'),
]
for m in model_list:
model_name = m['model']
# create model from name
model = create_model(model_name, pretrained=True)
param_count = sum([m.numel() for m in model.parameters()])
print('Model %s, %s created. Param count: %d' % (model_name, m['paper_model_name'], param_count))
# get appropriate transform for model's default pretrained config
data_config = resolve_data_config(m['args'], model=model, verbose=True)
if m['ttp']:
model = TestTimePoolHead(model, model.default_cfg['pool_size'])
data_config['crop_pct'] = 1.0
input_transform = create_transform(**data_config)
# Run the benchmark
ImageNet.benchmark(
model=model,
model_description=m.get('model_description', None),
paper_model_name=m['paper_model_name'],
paper_arxiv_id=m['paper_arxiv_id'],
input_transform=input_transform,
batch_size=m['batch_size'],
num_gpu=NUM_GPU,
data_root=os.environ.get('IMAGENET_DIR', './imagenet')
)