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"""
An example config file to train a ImageNet classifier with detectron2.
Model and dataloader both come from torchvision.
This shows how to use detectron2 as a general engine for any new models and tasks.
To run, use the following command:
python tools/lazyconfig_train_net.py --config-file configs/Misc/torchvision_imagenet_R_50.py \
--num-gpus 8 dataloader.train.dataset.root=/path/to/imagenet/
"""
import torch
from torch import nn
from torch.nn import functional as F
from omegaconf import OmegaConf
import torchvision
from torchvision.transforms import transforms as T
from torchvision.models.resnet import ResNet, Bottleneck
from fvcore.common.param_scheduler import MultiStepParamScheduler
from detectron2.solver import WarmupParamScheduler
from detectron2.solver.build import get_default_optimizer_params
from detectron2.config import LazyCall as L
from detectron2.model_zoo import get_config
from detectron2.data.samplers import TrainingSampler, InferenceSampler
from detectron2.evaluation import DatasetEvaluator
from detectron2.utils import comm
"""
Note: Here we put reusable code (models, evaluation, data) together with configs just as a
proof-of-concept, to easily demonstrate what's needed to train a ImageNet classifier in detectron2.
Writing code in configs offers extreme flexibility but is often not a good engineering practice.
In practice, you might want to put code in your project and import them instead.
"""
def build_data_loader(dataset, batch_size, num_workers, training=True):
return torch.utils.data.DataLoader(
dataset,
sampler=(TrainingSampler if training else InferenceSampler)(len(dataset)),
batch_size=batch_size,
num_workers=num_workers,
pin_memory=True,
)
class ClassificationNet(nn.Module):
def __init__(self, model: nn.Module):
super().__init__()
self.model = model
@property
def device(self):
return list(self.model.parameters())[0].device
def forward(self, inputs):
image, label = inputs
pred = self.model(image.to(self.device))
if self.training:
label = label.to(self.device)
return F.cross_entropy(pred, label)
else:
return pred
class ClassificationAcc(DatasetEvaluator):
def reset(self):
self.corr = self.total = 0
def process(self, inputs, outputs):
image, label = inputs
self.corr += (outputs.argmax(dim=1).cpu() == label.cpu()).sum().item()
self.total += len(label)
def evaluate(self):
all_corr_total = comm.all_gather([self.corr, self.total])
corr = sum(x[0] for x in all_corr_total)
total = sum(x[1] for x in all_corr_total)
return {"accuracy": corr / total}
# --- End of code that could be in a project and be imported
dataloader = OmegaConf.create()
dataloader.train = L(build_data_loader)(
dataset=L(torchvision.datasets.ImageNet)(
root="/path/to/imagenet",
split="train",
transform=L(T.Compose)(
transforms=[
L(T.RandomResizedCrop)(size=224),
L(T.RandomHorizontalFlip)(),
T.ToTensor(),
L(T.Normalize)(mean=(0.485, 0.456, 0.406), std=(0.229, 0.224, 0.225)),
]
),
),
batch_size=256 // 8,
num_workers=4,
training=True,
)
dataloader.test = L(build_data_loader)(
dataset=L(torchvision.datasets.ImageNet)(
root="${...train.dataset.root}",
split="val",
transform=L(T.Compose)(
transforms=[
L(T.Resize)(size=256),
L(T.CenterCrop)(size=224),
T.ToTensor(),
L(T.Normalize)(mean=(0.485, 0.456, 0.406), std=(0.229, 0.224, 0.225)),
]
),
),
batch_size=256 // 8,
num_workers=4,
training=False,
)
dataloader.evaluator = L(ClassificationAcc)()
model = L(ClassificationNet)(
model=(ResNet)(block=Bottleneck, layers=[3, 4, 6, 3], zero_init_residual=True)
)
optimizer = L(torch.optim.SGD)(
params=L(get_default_optimizer_params)(),
lr=0.1,
momentum=0.9,
weight_decay=1e-4,
)
lr_multiplier = L(WarmupParamScheduler)(
scheduler=L(MultiStepParamScheduler)(
values=[1.0, 0.1, 0.01, 0.001], milestones=[30, 60, 90, 100]
),
warmup_length=1 / 100,
warmup_factor=0.1,
)
train = get_config("common/train.py").train
train.init_checkpoint = None
train.max_iter = 100 * 1281167 // 256
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