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train_student.py
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train_student.py
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"""
the general training framework
"""
from __future__ import print_function
import os
import argparse
import socket
import time
import tensorboard_logger as tb_logger
import torch
import torch.optim as optim
import torch.nn as nn
import torch.backends.cudnn as cudnn
from models import model_dict
from models.util import Embed, ConvReg, LinearEmbed
from models.util import Connector, Translator, Paraphraser
from dataset.cifar100 import get_cifar100_dataloaders, get_cifar100_dataloaders_sample
from helper.util import adjust_learning_rate
from distiller_zoo import DistillKL, HintLoss, Attention, Similarity, Correlation, VIDLoss, RKDLoss, GNNLoss
from distiller_zoo import PKT, ABLoss, FactorTransfer, KDSVD, FSP, NSTLoss
from crd.criterion import CRDLoss
from helper.loops import train_distill as train, validate
from helper.pretrain import init
def parse_option():
hostname = socket.gethostname()
parser = argparse.ArgumentParser('argument for training')
parser.add_argument('--print_freq', type=int, default=100, help='print frequency')
parser.add_argument('--tb_freq', type=int, default=500, help='tb frequency')
parser.add_argument('--save_freq', type=int, default=40, help='save frequency')
parser.add_argument('--batch_size', type=int, default=64, help='batch_size')
parser.add_argument('--num_workers', type=int, default=8, help='num of workers to use')
parser.add_argument('--epochs', type=int, default=240, help='number of training epochs')
parser.add_argument('--init_epochs', type=int, default=30, help='init training for two-stage methods')
# optimization
parser.add_argument('--learning_rate', type=float, default=0.05, help='learning rate')
parser.add_argument('--lr_decay_epochs', type=str, default='150,180,210', help='where to decay lr, can be a list')
parser.add_argument('--lr_decay_rate', type=float, default=0.1, help='decay rate for learning rate')
parser.add_argument('--weight_decay', type=float, default=5e-4, help='weight decay')
parser.add_argument('--momentum', type=float, default=0.9, help='momentum')
# dataset
parser.add_argument('--dataset', type=str, default='cifar100', choices=['cifar100'], help='dataset')
# model
parser.add_argument('--model_s', type=str, default='resnet8',
choices=['resnet8', 'resnet14', 'resnet20', 'resnet32', 'resnet44', 'resnet56', 'resnet110',
'resnet8x4', 'resnet32x4', 'wrn_16_1', 'wrn_16_2', 'wrn_40_1', 'wrn_40_2',
'vgg8', 'vgg11', 'vgg13', 'vgg16', 'vgg19', 'ResNet50',
'MobileNetV2', 'ShuffleV1', 'ShuffleV2'])
parser.add_argument('--path_t', type=str, default=None, help='teacher model snapshot')
# distillation
parser.add_argument('--distill', type=str, default='kd', choices=['kd', 'hint', 'attention', 'similarity',
'correlation', 'vid', 'crd', 'kdsvd', 'fsp',
'rkd', 'pkt', 'abound', 'factor', 'nst', 'hkd'])
parser.add_argument('--trial', type=str, default='1', help='trial id')
parser.add_argument('-r', '--gamma', type=float, default=1, help='weight for classification')
parser.add_argument('-a', '--alpha', type=float, default=None, help='weight balance for KD')
parser.add_argument('-b', '--beta', type=float, default=None, help='weight balance for other losses')
# KL distillation
parser.add_argument('--kd_T', type=float, default=4, help='temperature for KD distillation')
# NCE distillation
parser.add_argument('--feat_dim', default=128, type=int, help='feature dimension')
parser.add_argument('--mode', default='exact', type=str, choices=['exact', 'relax', 'hkd'])
parser.add_argument('--nce_k', default=16384, type=int, help='number of negative samples for NCE')
parser.add_argument('--nce_t', default=0.07, type=float, help='temperature parameter for softmax')
parser.add_argument('--nce_m', default=0.5, type=float, help='momentum for non-parametric updates')
# hint layer
parser.add_argument('--hint_layer', default=2, type=int, choices=[0, 1, 2, 3, 4])
opt = parser.parse_args()
# set different learning rate from these 4 models
if opt.model_s in ['MobileNetV2', 'ShuffleV1', 'ShuffleV2']:
opt.learning_rate = 0.01
# set the path according to the environment
if hostname.startswith('visiongpu'):
opt.model_path = '/path/to/my/student_model'
opt.tb_path = '/path/to/my/student_tensorboards'
else:
opt.model_path = './save/student_model'
opt.tb_path = './save/student_tensorboards'
iterations = opt.lr_decay_epochs.split(',')
opt.lr_decay_epochs = list([])
for it in iterations:
opt.lr_decay_epochs.append(int(it))
opt.model_t = get_teacher_name(opt.path_t)
opt.model_name = 'S:{}_T:{}_{}_{}_r:{}_a:{}_b:{}_{}'.format(opt.model_s, opt.model_t, opt.dataset, opt.distill,
opt.gamma, opt.alpha, opt.beta, opt.trial)
opt.tb_folder = os.path.join(opt.tb_path, opt.model_name)
if not os.path.isdir(opt.tb_folder):
os.makedirs(opt.tb_folder)
opt.save_folder = os.path.join(opt.model_path, opt.model_name)
if not os.path.isdir(opt.save_folder):
os.makedirs(opt.save_folder)
return opt
def get_teacher_name(model_path):
"""parse teacher name"""
segments = model_path.split('/')[-2].split('_')
if segments[0] != 'wrn':
return segments[0]
else:
return segments[0] + '_' + segments[1] + '_' + segments[2]
def load_teacher(model_path, n_cls):
print('==> loading teacher model')
model_t = get_teacher_name(model_path)
model = model_dict[model_t](num_classes=n_cls)
model.load_state_dict(torch.load(model_path)['model'])
print('==> done')
return model
def main():
best_acc = 0
opt = parse_option()
# tensorboard logger
logger = tb_logger.Logger(logdir=opt.tb_folder, flush_secs=2)
# dataloader
if opt.dataset == 'cifar100':
if opt.distill in ['crd', 'hkd']:
train_loader, val_loader, n_data = get_cifar100_dataloaders_sample(batch_size=opt.batch_size,
num_workers=opt.num_workers,
k=opt.nce_k,
mode=opt.mode)
else:
train_loader, val_loader, n_data = get_cifar100_dataloaders(batch_size=opt.batch_size,
num_workers=opt.num_workers,
is_instance=True)
n_cls = 100
else:
raise NotImplementedError(opt.dataset)
# model
model_t = load_teacher(opt.path_t, n_cls)
model_s = model_dict[opt.model_s](num_classes=n_cls)
data = torch.randn(2, 3, 32, 32)
model_t.eval()
model_s.eval()
feat_t, _ = model_t(data, is_feat=True)
feat_s, _ = model_s(data, is_feat=True)
module_list = nn.ModuleList([])
module_list.append(model_s)
trainable_list = nn.ModuleList([])
trainable_list.append(model_s)
criterion_cls = nn.CrossEntropyLoss()
criterion_div = DistillKL(opt.kd_T)
if opt.distill == 'kd':
criterion_kd = DistillKL(opt.kd_T)
elif opt.distill == 'hint':
criterion_kd = HintLoss()
regress_s = ConvReg(feat_s[opt.hint_layer].shape, feat_t[opt.hint_layer].shape)
module_list.append(regress_s)
trainable_list.append(regress_s)
elif opt.distill == 'crd':
opt.s_dim = feat_s[-1].shape[1]
opt.t_dim = feat_t[-1].shape[1]
opt.n_data = n_data
criterion_kd = CRDLoss(opt)
module_list.append(criterion_kd.embed_s)
module_list.append(criterion_kd.embed_t)
trainable_list.append(criterion_kd.embed_s)
trainable_list.append(criterion_kd.embed_t)
elif opt.distill == 'hkd':
opt.s_dim = feat_s[-1].shape[1]
opt.t_dim = feat_t[-1].shape[1]
opt.n_data = n_data
criterion_kd = GNNLoss(opt)
module_list.append(criterion_kd.embed_s)
module_list.append(criterion_kd.embed_t)
module_list.append(criterion_kd.gnn_s)
module_list.append(criterion_kd.gnn_t)
trainable_list.append(criterion_kd.embed_s)
trainable_list.append(criterion_kd.embed_t)
trainable_list.append(criterion_kd.gnn_s)
trainable_list.append(criterion_kd.gnn_t)
elif opt.distill == 'attention':
criterion_kd = Attention()
elif opt.distill == 'nst':
criterion_kd = NSTLoss()
elif opt.distill == 'similarity':
criterion_kd = Similarity()
elif opt.distill == 'rkd':
criterion_kd = RKDLoss()
elif opt.distill == 'pkt':
criterion_kd = PKT()
elif opt.distill == 'kdsvd':
criterion_kd = KDSVD()
elif opt.distill == 'correlation':
criterion_kd = Correlation()
embed_s = LinearEmbed(feat_s[-1].shape[1], opt.feat_dim)
embed_t = LinearEmbed(feat_t[-1].shape[1], opt.feat_dim)
module_list.append(embed_s)
module_list.append(embed_t)
trainable_list.append(embed_s)
trainable_list.append(embed_t)
elif opt.distill == 'vid':
s_n = [f.shape[1] for f in feat_s[1:-1]]
t_n = [f.shape[1] for f in feat_t[1:-1]]
criterion_kd = nn.ModuleList(
[VIDLoss(s, t, t) for s, t in zip(s_n, t_n)]
)
# add this as some parameters in VIDLoss need to be updated
trainable_list.append(criterion_kd)
elif opt.distill == 'abound':
s_shapes = [f.shape for f in feat_s[1:-1]]
t_shapes = [f.shape for f in feat_t[1:-1]]
connector = Connector(s_shapes, t_shapes)
# init stage training
init_trainable_list = nn.ModuleList([])
init_trainable_list.append(connector)
init_trainable_list.append(model_s.get_feat_modules())
criterion_kd = ABLoss(len(feat_s[1:-1]))
init(model_s, model_t, init_trainable_list, criterion_kd, train_loader, logger, opt)
# classification
module_list.append(connector)
elif opt.distill == 'factor':
s_shape = feat_s[-2].shape
t_shape = feat_t[-2].shape
paraphraser = Paraphraser(t_shape)
translator = Translator(s_shape, t_shape)
# init stage training
init_trainable_list = nn.ModuleList([])
init_trainable_list.append(paraphraser)
criterion_init = nn.MSELoss()
init(model_s, model_t, init_trainable_list, criterion_init, train_loader, logger, opt)
# classification
criterion_kd = FactorTransfer()
module_list.append(translator)
module_list.append(paraphraser)
trainable_list.append(translator)
elif opt.distill == 'fsp':
s_shapes = [s.shape for s in feat_s[:-1]]
t_shapes = [t.shape for t in feat_t[:-1]]
criterion_kd = FSP(s_shapes, t_shapes)
# init stage training
init_trainable_list = nn.ModuleList([])
init_trainable_list.append(model_s.get_feat_modules())
init(model_s, model_t, init_trainable_list, criterion_kd, train_loader, logger, opt)
# classification training
pass
else:
raise NotImplementedError(opt.distill)
criterion_list = nn.ModuleList([])
criterion_list.append(criterion_cls) # classification loss
criterion_list.append(criterion_div) # KL divergence loss, original knowledge distillation
criterion_list.append(criterion_kd) # other knowledge distillation loss
# optimizer
optimizer = optim.SGD(trainable_list.parameters(),
lr=opt.learning_rate,
momentum=opt.momentum,
weight_decay=opt.weight_decay)
# append teacher after optimizer to avoid weight_decay
module_list.append(model_t)
if torch.cuda.is_available():
module_list.cuda()
criterion_list.cuda()
cudnn.benchmark = True
# validate teacher accuracy
teacher_acc, _, _ = validate(val_loader, model_t, criterion_cls, opt)
print('teacher accuracy: ', teacher_acc)
# routine
for epoch in range(1, opt.epochs + 1):
adjust_learning_rate(epoch, opt, optimizer)
print("==> training...")
time1 = time.time()
train_acc, train_loss = train(epoch, train_loader, module_list, criterion_list, optimizer, opt)
time2 = time.time()
print('epoch {}, total time {:.2f}'.format(epoch, time2 - time1))
logger.log_value('train_acc', train_acc, epoch)
logger.log_value('train_loss', train_loss, epoch)
test_acc, tect_acc_top5, test_loss = validate(val_loader, model_s, criterion_cls, opt)
logger.log_value('test_acc', test_acc, epoch)
logger.log_value('test_loss', test_loss, epoch)
logger.log_value('test_acc_top5', tect_acc_top5, epoch)
# save the best model
if test_acc > best_acc:
best_acc = test_acc
state = {
'epoch': epoch,
'model': model_s.state_dict(),
'best_acc': best_acc,
}
save_file = os.path.join(opt.save_folder, '{}_best.pth'.format(opt.model_s))
print('saving the best model!')
torch.save(state, save_file)
# regular saving
if epoch % opt.save_freq == 0:
print('==> Saving...')
state = {
'epoch': epoch,
'model': model_s.state_dict(),
'accuracy': test_acc,
}
save_file = os.path.join(opt.save_folder, 'ckpt_epoch_{epoch}.pth'.format(epoch=epoch))
torch.save(state, save_file)
# This best accuracy is only for printing purpose.
# The results reported in the paper/README is from the last epoch.
print('best accuracy:', best_acc)
# save model
state = {
'opt': opt,
'model': model_s.state_dict(),
}
save_file = os.path.join(opt.save_folder, '{}_last.pth'.format(opt.model_s))
torch.save(state, save_file)
if __name__ == '__main__':
main()