'--depth',
help='ResNet depth',
type=int,
default=50,
choices=[50, 101, 152])
parser.add_argument('--arch',
help='Name of architectures defined in nets.py',
default='ResNet')
args = parser.parse_args()
# Define model
model = getattr(nets, args.arch + 'Model')(args)
# Define attacker
if args.attack_iter == 0 or args.eval_directory:
attacker = NoOpAttacker()
else:
attacker = PGDAttacker(
args.attack_iter,
args.attack_epsilon,
args.attack_step_size,
prob_start_from_clean=0.2 if not args.eval else 0.0)
if args.use_fp16xla:
attacker.USE_FP16 = True
attacker.USE_XLA = True #False if args.arch.endswith("Dither") else True
model.set_attacker(attacker)
os.system("nvidia-smi")
hvd.init()
gpu_thread_count = 2
os.environ['TF_GPU_THREAD_MODE'] = 'gpu_private'
def do_train(model, image_size=224, buffer_size=2000):
batch = args.batch
total_batch = batch * hvd.size()
if args.fake:
data = FakeData([[batch, image_size, image_size, 3], [batch]],
1000,
random=False,
dtype=['uint8', 'int32'])
data = StagingInput(QueueInput(data))
callbacks = []
steps_per_epoch = 50
else:
logger.info("#Tower: {}; Batch size per tower: {}".format(
hvd.size(), batch))
zmq_addr = 'ipc://@imagenet-train-b{}-p{}'.format(batch, args.port)
if args.no_zmq_ops:
dataflow = RemoteDataZMQ(zmq_addr, hwm=buffer_size, bind=False)
data = QueueInput(dataflow)
else:
data = ZMQInput(zmq_addr, 30, bind=False)
data = StagingInput(data)
steps_per_epoch = int(np.round(1281167 / total_batch))
BASE_LR = 0.1 * (total_batch // 256)
"""
ImageNet in 1 Hour, Sec 2.1:
Linear Scaling Rule: When the minibatch size is
multiplied by k, multiply the learning rate by k.
"""
logger.info("Base LR: {}".format(BASE_LR))
callbacks = [
ModelSaver(max_to_keep=10),
EstimatedTimeLeft(),
ScheduledHyperParamSetter('learning_rate', [(0, BASE_LR),
(35, BASE_LR * 1e-1),
(70, BASE_LR * 1e-2),
(95, BASE_LR * 1e-3)])
]
"""
Feature Denoising, Sec 5:
Our models are trained for a total of
110 epochs; we decrease the learning rate by 10× at the 35-
th, 70-th, and 95-th epoch
"""
max_epoch = 110
if BASE_LR > 0.1:
callbacks.append(
ScheduledHyperParamSetter('learning_rate',
[(0, 0.1),
(5 * steps_per_epoch, BASE_LR)],
interp='linear',
step_based=True))
"""
ImageNet in 1 Hour, Sec 2.2:
we start from a learning rate of η and increment it by a constant amount at
each iteration such that it reaches ηˆ = kη after 5 epochs
"""
if not args.fake:
# add distributed evaluation, for various attackers that we care.
def add_eval_callback(name, attacker, condition):
cb = create_eval_callback(
name,
model.get_inference_func(attacker),
# always eval in the last 2 epochs no matter what
lambda epoch_num: condition(epoch_num) or epoch_num > max_epoch
- 2,
image_size=image_size)
callbacks.append(cb)
add_eval_callback('eval-clean', NoOpAttacker(), lambda e: True)
add_eval_callback(
'eval-10step',
PGDAttacker(10, args.attack_epsilon, args.attack_step_size),
lambda e: True)
add_eval_callback(
'eval-50step',
PGDAttacker(50, args.attack_epsilon, args.attack_step_size),
lambda e: e % 20 == 0)
add_eval_callback(
'eval-100step',
PGDAttacker(100, args.attack_epsilon, args.attack_step_size),
lambda e: e % 10 == 0 or e > max_epoch - 5)
for k in [20, 30, 40, 60, 70, 80, 90]:
add_eval_callback(
'eval-{}step'.format(k),
PGDAttacker(k, args.attack_epsilon, args.attack_step_size),
lambda e: False)
trainer = HorovodTrainer(average=True)
trainer.setup_graph(model.get_input_signature(), data, model.build_graph,
model.get_optimizer)
trainer.train_with_defaults(callbacks=callbacks,
steps_per_epoch=steps_per_epoch,
session_init=SmartInit(args.load),
max_epoch=max_epoch,
starting_epoch=args.starting_epoch)
'--depth',
help='ResNet depth',
type=int,
default=50,
choices=[50, 101, 152])
parser.add_argument('--arch',
help='Name of architectures defined in nets.py',
default='ResNet')
args = parser.parse_args()
# Define model
model = getattr(nets, args.arch + 'Model')(args)
# Define attacker
if args.attack_iter == 0 or args.eval_directory:
attacker = NoOpAttacker()
else:
attacker = PGDAttacker(
args.attack_iter,
args.attack_epsilon,
args.attack_step_size,
prob_start_from_clean=0.2 if not args.eval else 0.0)
if args.use_fp16xla:
attacker.USE_FP16 = True
attacker.USE_XLA = True
model.set_attacker(attacker)
os.system("nvidia-smi")
hvd.init()
if args.eval:
