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import torch.optim as optim
import torch
import torch.nn as nn
import torch.nn.parallel
import torch.optim
import torch.utils.data
import torch.utils.data.distributed
import torchvision.transforms as transforms
import torchvision.datasets as datasets
import torchvision.models
#from effnetv2 import effnetv2_s
from torch.autograd import Variable
#training parameters
modellr = 1e-4
BATCH_SIZE = 64
EPOCHS = 20
DEVICE = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
# Add these variables to keep track of the best accuracy and epoch number
best_accuracy = 0
best_epoch = 0
#data preprocess
transform = transforms.Compose([
transforms.Resize((224, 224)),
transforms.ToTensor(),
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
])
transform_test = transforms.Compose([
transforms.Resize((224, 224)),
transforms.ToTensor(),
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
])
dataset_train = datasets.ImageFolder('datasets/datasets/train', transform)
print(dataset_train.imgs)
print(dataset_train.class_to_idx)
dataset_test = datasets.ImageFolder('datasets/datasets/val', transform_test)
train_loader = torch.utils.data.DataLoader(dataset_train, batch_size=BATCH_SIZE, shuffle=True)
test_loader = torch.utils.data.DataLoader(dataset_test, batch_size=BATCH_SIZE, shuffle=False)
#model & training settings
criterion = nn.CrossEntropyLoss()
model = torchvision.models.resnet18(pretrained=True)
num_ftrs = model.fc.in_features
model.fc = nn.Linear(num_ftrs, 2)
model.to(DEVICE)
optimizer = optim.Adam(model.parameters(), lr=modellr)
#Learning rate adjust (no need)
def adjust_learning_rate(optimizer, epoch):
"""Sets the learning rate to the initial LR decayed by 10 every 30 epochs"""
modellrnew = modellr * (0.1 ** (epoch // 50))
print("lr:", modellrnew)
for param_group in optimizer.param_groups:
param_group['lr'] = modellrnew
#Training method
def train(model, device, train_loader, optimizer, epoch):
model.train()
sum_loss = 0
total_num = len(train_loader.dataset)
print(total_num, len(train_loader))
for batch_idx, (data, target) in enumerate(train_loader):
data, target = Variable(data).to(device), Variable(target).to(device)
output = model(data)
loss = criterion(output, target)
optimizer.zero_grad()
loss.backward()
optimizer.step()
print_loss = loss.data.item()
sum_loss += print_loss
if (batch_idx + 1) % 50 == 0:
print('Train Epoch: {} [{}/{} ({:.0f}%)]\tLoss: {:.6f}'.format(
epoch, (batch_idx + 1) * len(data), len(train_loader.dataset),
100. * (batch_idx + 1) / len(train_loader), loss.item()))
ave_loss = sum_loss / len(train_loader)
print('epoch:{},loss:{}'.format(epoch, ave_loss))
# Modify the val function to update the best model when a higher accuracy is achieved
def val(model, device, test_loader, epoch):
global best_accuracy, best_epoch
model.eval()
test_loss = 0
correct = 0
total_num = len(test_loader.dataset)
print(total_num, len(test_loader))
with torch.no_grad():
for data, target in test_loader:
data, target = Variable(data).to(device), Variable(target).to(device)
output = model(data)
loss = criterion(output, target)
_, pred = torch.max(output.data, 1)
correct += torch.sum(pred == target)
print_loss = loss.data.item()
test_loss += print_loss
correct = correct.data.item()
acc = correct / total_num
avgloss = test_loss / len(test_loader)
print('\nVal set: Average loss: {:.4f}, Accuracy: {}/{} ({:.0f}%)\n'.format(
avgloss, correct, len(test_loader.dataset), 100 * acc))
# Check if this epoch's accuracy is better than the best so far
if acc > best_accuracy:
best_accuracy, best_epoch
best_accuracy = acc
best_epoch = epoch
# Save the best model
torch.save(model, 'model_resnet18_epoch20_lr0.0001_best_epoch.pth')
# Train the model and track the best model
for epoch in range(1, EPOCHS + 1):
adjust_learning_rate(optimizer, epoch)
train(model, DEVICE, train_loader, optimizer, epoch)
val(model, DEVICE, test_loader, epoch)
print(f"Best model achieved at epoch {best_epoch} with accuracy: {best_accuracy * 100:.2f}%")
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