def main(args):
# --- CONFIG
device = torch.device(f"cuda:{args.cuda}" if torch.cuda.is_available()
and args.cuda >= 0 else "cpu")
# ---------
# --- TRANSFORMATIONS
train_transform = transforms.Compose([
RandomCrop(28, padding=4),
ToTensor(),
transforms.Normalize((0.1307, ), (0.3081, ))
])
test_transform = transforms.Compose(
[ToTensor(), transforms.Normalize((0.1307, ), (0.3081, ))])
# ---------
# --- SCENARIO CREATION
mnist_train = MNIST(root=expanduser("~") + "/.avalanche/data/mnist/",
train=True,
download=True,
transform=train_transform)
mnist_test = MNIST(root=expanduser("~") + "/.avalanche/data/mnist/",
train=False,
download=True,
transform=test_transform)
scenario = nc_benchmark(mnist_train,
mnist_test,
5,
task_labels=False,
seed=1234)
# ---------
# MODEL CREATION
model = SimpleMLP(num_classes=scenario.n_classes)
# DEFINE THE EVALUATION PLUGIN AND LOGGER
# The evaluation plugin manages the metrics computation.
# It takes as argument a list of metrics and a list of loggers.
# The evaluation plugin calls the loggers to serialize the metrics
# and save them in persistent memory or print them in the standard output.
# log to text file
text_logger = TextLogger(open('log.txt', 'a'))
# print to stdout
interactive_logger = InteractiveLogger()
csv_logger = CSVLogger()
eval_plugin = EvaluationPlugin(
accuracy_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
loss_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
forgetting_metrics(experience=True, stream=True),
bwt_metrics(experience=True, stream=True),
forward_transfer_metrics(experience=True, stream=True),
cpu_usage_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
timing_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
ram_usage_metrics(every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
gpu_usage_metrics(args.cuda,
every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[interactive_logger, text_logger, csv_logger],
collect_all=True) # collect all metrics (set to True by default)
# CREATE THE STRATEGY INSTANCE (NAIVE)
cl_strategy = Naive(model,
SGD(model.parameters(), lr=0.001, momentum=0.9),
CrossEntropyLoss(),
train_mb_size=500,
train_epochs=1,
eval_mb_size=100,
device=device,
evaluator=eval_plugin,
eval_every=1)
# TRAINING LOOP
print('Starting experiment...')
results = []
for i, experience in enumerate(scenario.train_stream):
print("Start of experience: ", experience.current_experience)
print("Current Classes: ", experience.classes_in_this_experience)
# train returns a dictionary containing last recorded value
# for each metric.
res = cl_strategy.train(experience,
eval_streams=[scenario.test_stream])
print('Training completed')
print('Computing accuracy on the whole test set')
# test returns a dictionary with the last metric collected during
# evaluation on that stream
results.append(cl_strategy.eval(scenario.test_stream))
print(f"Test metrics:\n{results}")
# Dict with all the metric curves,
# only available when `collect_all` is True.
# Each entry is a (x, metric value) tuple.
# You can use this dictionary to manipulate the
# metrics without avalanche.
all_metrics = cl_strategy.evaluator.get_all_metrics()
print(f"Stored metrics: {list(all_metrics.keys())}")
def main(args):
# --- CONFIG
device = torch.device(f"cuda:{args.cuda}" if torch.cuda.is_available()
and args.cuda >= 0 else "cpu")
# ---------
# --- TRANSFORMATIONS
train_transform = transforms.Compose([
RandomCrop(28, padding=4),
ToTensor(),
transforms.Normalize((0.1307, ), (0.3081, )),
])
test_transform = transforms.Compose(
[ToTensor(), transforms.Normalize((0.1307, ), (0.3081, ))])
# ---------
# --- SCENARIO CREATION
mnist_train = MNIST(
root=expanduser("~") + "/.avalanche/data/mnist/",
train=True,
download=True,
transform=train_transform,
)
mnist_test = MNIST(
root=expanduser("~") + "/.avalanche/data/mnist/",
train=False,
download=True,
transform=test_transform,
)
scenario = nc_benchmark(mnist_train,
mnist_test,
5,
task_labels=False,
seed=1234)
# ---------
# MODEL CREATION
model = SimpleMLP(num_classes=scenario.n_classes)
interactive_logger = InteractiveLogger()
wandb_logger = WandBLogger(project_name=args.project,
run_name=args.run,
config=vars(args))
eval_plugin = EvaluationPlugin(
accuracy_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
loss_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
forgetting_metrics(experience=True, stream=True),
confusion_matrix_metrics(stream=True,
wandb=True,
class_names=[str(i) for i in range(10)]),
cpu_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
timing_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
ram_usage_metrics(every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
gpu_usage_metrics(
args.cuda,
every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True,
),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[interactive_logger, wandb_logger],
)
# CREATE THE STRATEGY INSTANCE (NAIVE)
cl_strategy = Naive(
model,
SGD(model.parameters(), lr=0.001, momentum=0.9),
CrossEntropyLoss(),
train_mb_size=100,
train_epochs=4,
eval_mb_size=100,
device=device,
evaluator=eval_plugin,
)
# TRAINING LOOP
print("Starting experiment...")
results = []
for experience in scenario.train_stream:
print("Start of experience: ", experience.current_experience)
print("Current Classes: ", experience.classes_in_this_experience)
cl_strategy.train(experience)
print("Training completed")
print("Computing accuracy on the whole test set")
results.append(cl_strategy.eval(scenario.test_stream))
tb_logger = TensorboardLogger(f"./tb_data/{cur_time}-SimpleMLP/")
# log to text file
text_logger = TextLogger(open(f"./logs/{cur_time}-SimpleMLP.txt", "w+"))
# print to stdout
interactive_logger = InteractiveLogger()
eval_plugin = EvaluationPlugin(
accuracy_metrics(minibatch=True, epoch=True, experience=True, stream=True),
loss_metrics(minibatch=True, epoch=True, experience=True, stream=True),
timing_metrics(epoch=True, epoch_running=True),
ExperienceForgetting(),
cpu_usage_metrics(experience=True),
StreamConfusionMatrix(num_classes=2, save_image=False),
disk_usage_metrics(minibatch=True, epoch=True, experience=True, stream=True),
loggers=[interactive_logger, text_logger, tb_logger],
)
cl_strategy = GEM(
model,
optimizer=Adam(model.parameters()),
patterns_per_exp=1470,
criterion=CrossEntropyLoss(),
train_mb_size=128,
train_epochs=50,
eval_mb_size=128,
evaluator=eval_plugin,
device=device,
)
def main(args):
# --- CONFIG
device = torch.device(
f"cuda:{args.cuda}"
if torch.cuda.is_available() and args.cuda >= 0
else "cpu"
)
# ---------
tr_ds = [
AvalancheTensorDataset(
torch.randn(10, 3),
torch.randint(0, 3, (10,)).tolist(),
task_labels=torch.randint(0, 5, (10,)).tolist(),
)
for _ in range(3)
]
ts_ds = [
AvalancheTensorDataset(
torch.randn(10, 3),
torch.randint(0, 3, (10,)).tolist(),
task_labels=torch.randint(0, 5, (10,)).tolist(),
)
for _ in range(3)
]
scenario = create_multi_dataset_generic_benchmark(
train_datasets=tr_ds, test_datasets=ts_ds
)
# ---------
# MODEL CREATION
model = SimpleMLP(num_classes=3, input_size=3)
# DEFINE THE EVALUATION PLUGIN AND LOGGER
# The evaluation plugin manages the metrics computation.
# It takes as argument a list of metrics and a list of loggers.
# The evaluation plugin calls the loggers to serialize the metrics
# and save them in persistent memory or print them in the standard output.
# log to text file
text_logger = TextLogger(open("log.txt", "a"))
# print to stdout
interactive_logger = InteractiveLogger()
csv_logger = CSVLogger()
eval_plugin = EvaluationPlugin(
accuracy_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
loss_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
forgetting_metrics(experience=True, stream=True),
bwt_metrics(experience=True, stream=True),
cpu_usage_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
timing_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
ram_usage_metrics(
every=0.5, minibatch=True, epoch=True, experience=True, stream=True
),
gpu_usage_metrics(
args.cuda,
every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True,
),
disk_usage_metrics(
minibatch=True, epoch=True, experience=True, stream=True
),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[interactive_logger, text_logger, csv_logger],
collect_all=True,
) # collect all metrics (set to True by default)
# CREATE THE STRATEGY INSTANCE (NAIVE)
cl_strategy = Naive(
model,
SGD(model.parameters(), lr=0.001, momentum=0.9),
CrossEntropyLoss(),
train_mb_size=500,
train_epochs=1,
eval_mb_size=100,
device=device,
evaluator=eval_plugin,
eval_every=1,
)
# TRAINING LOOP
print("Starting experiment...")
results = []
for i, experience in enumerate(scenario.train_stream):
print("Start of experience: ", experience.current_experience)
print("Current Classes: ", experience.classes_in_this_experience)
# train returns a dictionary containing last recorded value
# for each metric.
res = cl_strategy.train(experience, eval_streams=[scenario.test_stream])
print("Training completed")
print("Computing accuracy on the whole test set")
# test returns a dictionary with the last metric collected during
# evaluation on that stream
results.append(cl_strategy.eval(scenario.test_stream))
print(f"Test metrics:\n{results}")
# Dict with all the metric curves,
# only available when `collect_all` is True.
# Each entry is a (x, metric value) tuple.
# You can use this dictionary to manipulate the
# metrics without avalanche.
all_metrics = cl_strategy.evaluator.get_all_metrics()
print(f"Stored metrics: {list(all_metrics.keys())}")
def setUpClass(cls) -> None:
torch.manual_seed(0)
np.random.seed(0)
random.seed(0)
n_samples_per_class = 100
datasets = []
for i in range(3):
dataset = make_classification(n_samples=3 * n_samples_per_class,
n_classes=3,
n_features=3,
n_informative=3,
n_redundant=0)
X = torch.from_numpy(dataset[0]).float()
y = torch.from_numpy(dataset[1]).long()
train_X, test_X, train_y, test_y = train_test_split(X,
y,
train_size=0.5,
shuffle=True,
stratify=y)
datasets.append((train_X, train_y, test_X, test_y))
tr_ds = [
AvalancheTensorDataset(
tr_X,
tr_y,
dataset_type=AvalancheDatasetType.CLASSIFICATION,
task_labels=torch.randint(0, 3, (150, )).tolist())
for tr_X, tr_y, _, _ in datasets
]
ts_ds = [
AvalancheTensorDataset(
ts_X,
ts_y,
dataset_type=AvalancheDatasetType.CLASSIFICATION,
task_labels=torch.randint(0, 3, (150, )).tolist())
for _, _, ts_X, ts_y in datasets
]
benchmark = dataset_benchmark(train_datasets=tr_ds,
test_datasets=ts_ds)
model = SimpleMLP(num_classes=3, input_size=3)
f = open('log.txt', 'w')
text_logger = TextLogger(f)
eval_plugin = EvaluationPlugin(
accuracy_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
trained_experience=True),
loss_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
forgetting_metrics(experience=True, stream=True),
confusion_matrix_metrics(num_classes=3,
save_image=False,
normalize='all',
stream=True),
bwt_metrics(experience=True, stream=True),
forward_transfer_metrics(experience=True, stream=True),
cpu_usage_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
timing_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
ram_usage_metrics(every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[text_logger],
collect_all=True) # collect all metrics (set to True by default)
cl_strategy = BaseStrategy(model,
SGD(model.parameters(),
lr=0.001,
momentum=0.9),
CrossEntropyLoss(),
train_mb_size=2,
train_epochs=2,
eval_mb_size=2,
device=DEVICE,
evaluator=eval_plugin,
eval_every=1)
for i, experience in enumerate(benchmark.train_stream):
cl_strategy.train(experience,
eval_streams=[benchmark.test_stream],
shuffle=False)
cl_strategy.eval(benchmark.test_stream)
cls.all_metrics = cl_strategy.evaluator.get_all_metrics()
f.close()
# # Uncomment me to regenerate the reference metrics. Make sure
# # the old tests were passing for all unchanged metrics
# with open(os.path.join(pathlib.Path(__file__).parent.absolute(),
# 'target_metrics',
# 'tpp.pickle'), 'wb') as f:
# pickle.dump(dict(cls.all_metrics), f,
# protocol=4)
with open(
os.path.join(
pathlib.Path(__file__).parent.absolute(), 'target_metrics',
'tpp.pickle'), 'rb') as f:
cls.ref = pickle.load(f)
def setUpClass(cls) -> None:
torch.manual_seed(0)
np.random.seed(0)
random.seed(0)
n_samples_per_class = 100
dataset = make_classification(n_samples=6 * n_samples_per_class,
n_classes=6,
n_features=4,
n_informative=4,
n_redundant=0)
X = torch.from_numpy(dataset[0]).float()
y = torch.from_numpy(dataset[1]).long()
train_X, test_X, train_y, test_y = train_test_split(X,
y,
train_size=0.5,
shuffle=True,
stratify=y)
tr_d = TensorDataset(train_X, train_y)
ts_d = TensorDataset(test_X, test_y)
benchmark = nc_benchmark(train_dataset=tr_d,
test_dataset=ts_d,
n_experiences=3,
task_labels=True,
shuffle=False,
seed=0)
model = SimpleMLP(input_size=4, num_classes=benchmark.n_classes)
f = open('log.txt', 'w')
text_logger = TextLogger(f)
eval_plugin = EvaluationPlugin(
accuracy_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
loss_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
forgetting_metrics(experience=True, stream=True, task=True),
confusion_matrix_metrics(num_classes=6,
save_image=False,
normalize='all',
stream=True),
bwt_metrics(experience=True, stream=True, task=True),
cpu_usage_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
timing_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
ram_usage_metrics(every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[text_logger],
collect_all=True) # collect all metrics (set to True by default)
cl_strategy = BaseStrategy(model,
SGD(model.parameters(),
lr=0.001,
momentum=0.9),
CrossEntropyLoss(),
train_mb_size=10,
train_epochs=2,
eval_mb_size=10,
device=DEVICE,
evaluator=eval_plugin,
eval_every=1)
for i, experience in enumerate(benchmark.train_stream):
cl_strategy.train(experience,
eval_streams=[benchmark.test_stream[i]],
shuffle=False)
cl_strategy.eval(benchmark.test_stream)
cls.all_metrics = cl_strategy.evaluator.get_all_metrics()
f.close()
# with open(os.path.join(pathlib.Path(__file__).parent.absolute(),
# 'target_metrics',
# 'mt.pickle'), 'wb') as f:
# pickle.dump(dict(cls.all_metrics), f,
# protocol=pickle.HIGHEST_PROTOCOL)
with open(
os.path.join(
pathlib.Path(__file__).parent.absolute(), 'target_metrics',
'mt.pickle'), 'rb') as f:
cls.ref = pickle.load(f)
def setUpClass(cls) -> None:
torch.manual_seed(0)
np.random.seed(0)
random.seed(0)
n_samples_per_class = 100
dataset = make_classification(
n_samples=6 * n_samples_per_class,
n_classes=6,
n_features=4,
n_informative=4,
n_redundant=0,
)
X = torch.from_numpy(dataset[0]).float()
y = torch.from_numpy(dataset[1]).long()
train_X, test_X, train_y, test_y = train_test_split(X,
y,
train_size=0.5,
shuffle=True,
stratify=y)
tr_d = TensorDataset(train_X, train_y)
ts_d = TensorDataset(test_X, test_y)
benchmark = nc_benchmark(
train_dataset=tr_d,
test_dataset=ts_d,
n_experiences=3,
task_labels=True,
shuffle=False,
seed=0,
)
model = SimpleMLP(input_size=4, num_classes=benchmark.n_classes)
f = open("log.txt", "w")
text_logger = TextLogger(f)
eval_plugin = EvaluationPlugin(
accuracy_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
trained_experience=True,
),
loss_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
forgetting_metrics(experience=True, stream=True),
confusion_matrix_metrics(num_classes=6,
save_image=False,
normalize="all",
stream=True),
bwt_metrics(experience=True, stream=True),
forward_transfer_metrics(experience=True, stream=True),
cpu_usage_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
timing_metrics(
minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True,
),
ram_usage_metrics(
every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True,
),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[text_logger],
collect_all=True,
) # collect all metrics (set to True by default)
cl_strategy = BaseStrategy(
model,
SGD(model.parameters(), lr=0.001, momentum=0.9),
CrossEntropyLoss(),
train_mb_size=10,
train_epochs=2,
eval_mb_size=10,
device=DEVICE,
evaluator=eval_plugin,
eval_every=1,
)
for i, experience in enumerate(benchmark.train_stream):
cl_strategy.train(experience,
eval_streams=[benchmark.test_stream],
shuffle=False)
cl_strategy.eval(benchmark.test_stream)
cls.all_metrics = cl_strategy.evaluator.get_all_metrics()
f.close()
# Set the environment variable UPDATE_METRICS to True to update
# the pickle file with target values.
# Make sure the old tests were passing for all unchanged metrics
if UPDATE_METRICS:
with open(
os.path.join(
pathlib.Path(__file__).parent.absolute(),
"target_metrics",
"mt.pickle",
),
"wb",
) as f:
pickle.dump(dict(cls.all_metrics), f, protocol=4)
with open(
os.path.join(
pathlib.Path(__file__).parent.absolute(),
"target_metrics",
"mt.pickle",
),
"rb",
) as f:
cls.ref = pickle.load(f)
def main(args):
# --- CONFIG
device = torch.device(f"cuda:{args.cuda}" if torch.cuda.is_available()
and args.cuda >= 0 else "cpu")
# ---------
# --- TRANSFORMATIONS
train_transform = transforms.Compose([
RandomCrop(28, padding=4),
ToTensor(),
transforms.Normalize((0.1307, ), (0.3081, ))
])
test_transform = transforms.Compose(
[ToTensor(), transforms.Normalize((0.1307, ), (0.3081, ))])
# ---------
# --- SCENARIO CREATION
mnist_train = MNIST('./data/mnist',
train=True,
download=True,
transform=train_transform)
mnist_test = MNIST('./data/mnist',
train=False,
download=True,
transform=test_transform)
scenario = nc_scenario(mnist_train,
mnist_test,
5,
task_labels=False,
seed=1234)
# ---------
# MODEL CREATION
model = SimpleMLP(num_classes=scenario.n_classes)
interactive_logger = InteractiveLogger()
tensorboard_logger = TensorboardLogger()
eval_plugin = EvaluationPlugin(
accuracy_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
loss_metrics(minibatch=True,
epoch=True,
epoch_running=True,
experience=True,
stream=True),
ExperienceForgetting(),
StreamConfusionMatrix(),
cpu_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
timing_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
ram_usage_metrics(every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
gpu_usage_metrics(args.cuda,
every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True, epoch=True, experience=True),
loggers=[interactive_logger, tensorboard_logger])
# CREATE THE STRATEGY INSTANCE (NAIVE)
cl_strategy = Naive(model,
SGD(model.parameters(), lr=0.001, momentum=0.9),
CrossEntropyLoss(),
train_mb_size=100,
train_epochs=4,
eval_mb_size=100,
device=device,
evaluator=eval_plugin)
# TRAINING LOOP
print('Starting experiment...')
results = []
for experience in scenario.train_stream:
print("Start of experience: ", experience.current_experience)
print("Current Classes: ", experience.classes_in_this_experience)
cl_strategy.train(experience)
print('Training completed')
print('Computing accuracy on the whole test set')
results.append(cl_strategy.eval(scenario.test_stream))
def main(args):
# --- CONFIG
device = torch.device(f"cuda:{args.cuda}" if torch.cuda.is_available()
and args.cuda >= 0 else "cpu")
# ---------
# --- TRANSFORMATIONS
train_transform = transforms.Compose([
RandomCrop(28, padding=4),
ToTensor(),
transforms.Normalize((0.1307, ), (0.3081, ))
])
test_transform = transforms.Compose(
[ToTensor(), transforms.Normalize((0.1307, ), (0.3081, ))])
# ---------
# --- SCENARIO CREATION
mnist_train = MNIST('./data/mnist',
train=True,
download=True,
transform=train_transform)
mnist_test = MNIST('./data/mnist',
train=False,
download=True,
transform=test_transform)
scenario = nc_scenario(mnist_train,
mnist_test,
5,
task_labels=False,
seed=1234)
# ---------
# MODEL CREATION
model = SimpleMLP(num_classes=scenario.n_classes)
# DEFINE THE EVALUATION PLUGIN AND LOGGER
# The evaluation plugin manages the metrics computation.
# It takes as argument a list of metrics and a list of loggers.
# The evaluation plugin calls the loggers to serialize the metrics
# and save them in persistent memory or print them in the standard output.
# log to text file
text_logger = TextLogger(open('log.txt', 'a'))
# print to stdout
interactive_logger = InteractiveLogger()
eval_plugin = EvaluationPlugin(accuracy_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
loss_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
ExperienceForgetting(),
cpu_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
timing_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
ram_usage_metrics(every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
gpu_usage_metrics(args.cuda,
every=0.5,
minibatch=True,
epoch=True,
experience=True,
stream=True),
disk_usage_metrics(minibatch=True,
epoch=True,
experience=True,
stream=True),
MAC_metrics(minibatch=True,
epoch=True,
experience=True),
loggers=[interactive_logger, text_logger])
# CREATE THE STRATEGY INSTANCE (NAIVE)
cl_strategy = Naive(model,
SGD(model.parameters(), lr=0.001, momentum=0.9),
CrossEntropyLoss(),
train_mb_size=500,
train_epochs=1,
eval_mb_size=100,
device=device,
evaluator=eval_plugin)
# TRAINING LOOP
print('Starting experiment...')
results = []
for experience in scenario.train_stream:
print("Start of experience: ", experience.current_experience)
print("Current Classes: ", experience.classes_in_this_experience)
# train returns a list of dictionaries (one for each experience). Each
# dictionary stores the last value of each metric curve emitted
# during training.
res = cl_strategy.train(experience)
print('Training completed')
print('Computing accuracy on the whole test set')
# test also returns a dictionary
results.append(cl_strategy.eval(scenario.test_stream))
print(f"Test metrics:\n{results}")
# All the metric curves (x,y values) are stored inside the evaluator
# (can be disabled). You can use this dictionary to manipulate the
# metrics without avalanche.
all_metrics = cl_strategy.evaluator.all_metrics
print(f"Stored metrics: {list(all_metrics.keys())}")
