def construct_monitors(algorithm, task, n_patches, x, x_shape,
graph, name, ram, model, cost,
n_spatial_dims, plot_url, patchmonitor_interval=100, **kwargs):
location, scale, savings = util.get_recurrent_auxiliaries(
"location scale savings".split(), graph, n_patches)
channels = util.Channels()
channels.extend(task.monitor_channels(graph))
channels.append(util.named(savings.mean(), "savings.mean"))
for variable_name in "location scale".split():
variable = locals()[variable_name]
channels.append(variable.mean(axis=0),
"%s.mean" % variable_name)
channels.append(variable.var(axis=0),
"%s.variance" % variable_name)
channels.append(algorithm.total_gradient_norm,
"total_gradient_norm")
step_norms = util.Channels()
step_norms.extend(util.named(l2_norm([algorithm.steps[param]]),
"%s.step_norm" % name)
for name, param in model.get_parameter_dict().items())
step_channels = step_norms.get_channels()
#for activation in VariableFilter(roles=[OUTPUT])(graph.variables):
# quantity = activation.mean()
# quantity.name = "%s.mean" % util.get_path(activation)
# channels.append(quantity)
data_independent_channels = util.Channels()
for parameter in graph.parameters:
if parameter.name in "gamma beta".split():
quantity = parameter.mean()
quantity.name = "%s.mean" % util.get_path(parameter)
data_independent_channels.append(quantity)
extensions = []
extensions.append(TrainingDataMonitoring(
step_channels, prefix="train", after_epoch=True))
extensions.append(DataStreamMonitoring(data_independent_channels.get_channels(),
data_stream=None, after_epoch=True))
extensions.extend(DataStreamMonitoring((channels.get_channels() + [cost]),
data_stream=task.get_stream(which, monitor=True),
prefix=which, after_epoch=True)
for which in "train valid test".split())
patchmonitor = None
if n_spatial_dims == 2:
patchmonitor_klass = PatchMonitoring
elif n_spatial_dims == 3:
patchmonitor_klass = VideoPatchMonitoring
if patchmonitor_klass:
patch = T.stack(*[
ram.crop(x, x_shape, location[:, i, :], scale[:, i, :])
for i in xrange(n_patches)])
patch = patch.dimshuffle(1, 0, *range(2, patch.ndim))
patch_extractor = theano.function([x, x_shape],
[location, scale, patch])
for which in "train valid".split():
patchmonitor = patchmonitor_klass(
save_to="%s_patches_%s" % (name, which),
data_stream=task.get_stream(which, shuffle=False, num_examples=5),
every_n_batches=patchmonitor_interval,
extractor=patch_extractor,
map_to_input_space=attention.static_map_to_input_space)
patchmonitor.save_patches("patchmonitor_test.png")
extensions.append(patchmonitor)
if plot_url:
plot_channels = []
plot_channels.extend(task.plot_channels())
plot_channels.append(["train_cost"])
#plot_channels.append(["train_%s" % step_channel.name for step_channel in step_channels])
from blocks.extras.extensions.plot import Plot
extensions.append(Plot(name, channels=plot_channels,
after_epoch=True, server_url=plot_url))
return extensions
def construct_monitors(algorithm,
task,
n_patches,
x,
x_uncentered,
hs,
graph,
plot_url,
name,
ram,
model,
cost,
n_spatial_dims,
patchmonitor_interval=100,
**kwargs):
location, scale, savings = util.get_recurrent_auxiliaries(
"location scale savings".split(), graph, n_patches)
channels = util.Channels()
channels.extend(task.monitor_channels(graph))
#for i in xrange(n_patches):
# channels.append(hs[:, i].mean(), "h%i.mean" % i)
channels.append(util.named(savings.mean(), "savings.mean"))
for variable_name in "location scale".split():
variable = locals()[variable_name]
channels.append(
variable.var(axis=0).mean(), "%s.batch_variance" % variable_name)
channels.append(
variable.var(axis=1).mean(), "%s.time_variance" % variable_name)
#step_norms = util.Channels()
#step_norms.extend(util.named(l2_norm([algorithm.steps[param]]),
# "%s.step_norm" % name)
# for name, param in model.get_parameter_dict().items())
#step_channels = step_norms.get_channels()
#for activation in VariableFilter(roles=[OUTPUT])(graph.variables):
# quantity = activation.mean()
# quantity.name = "%s.mean" % util.get_path(activation)
# channels.append(quantity)
for parameter in graph.parameters:
if parameter.name in "gamma beta".split():
quantity = parameter.mean()
quantity.name = "%s.mean" % util.get_path(parameter)
channels.append(quantity)
extensions = []
#extensions.append(TrainingDataMonitoring(
# step_channels,
# prefix="train", after_epoch=True))
extensions.extend(
DataStreamMonitoring((channels.get_channels() + [cost]),
data_stream=task.get_stream(which),
prefix=which,
after_epoch=True)
for which in "train valid test".split())
patchmonitor = None
if n_spatial_dims == 2:
patchmonitor_klass = PatchMonitoring
elif n_spatial_dims == 3:
patchmonitor_klass = VideoPatchMonitoring
if patchmonitor_klass:
# get patches from original (uncentered) images
patch = T.stack(*[
ram.attention.crop(x_uncentered, location[:, i, :], scale[:, i, :])
for i in xrange(n_patches)
])
patch = patch.dimshuffle(1, 0, *range(2, patch.ndim))
patchmonitor = patchmonitor_klass(
task.get_stream("valid", SequentialScheme(5, 5)),
every_n_batches=patchmonitor_interval,
extractor=theano.function([x_uncentered],
[location, scale, patch]),
map_to_input_space=masonry.static_map_to_input_space)
patchmonitor.save_patches("test.png")
extensions.append(patchmonitor)
plot_channels = []
plot_channels.extend(task.plot_channels())
plot_channels.append(["train_cost"])
#plot_channels.append(["train_%s" % step_channel.name for step_channel in step_channels])
extensions.append(
Plot(name,
channels=plot_channels,
after_epoch=True,
server_url=plot_url))
return extensions
def construct_monitors(
algorithm,
task,
n_patches,
x,
x_uncentered,
hs,
graph,
plot_url,
name,
ram,
model,
cost,
n_spatial_dims,
patchmonitor_interval=100,
**kwargs
):
location, scale, savings = util.get_recurrent_auxiliaries("location scale savings".split(), graph, n_patches)
channels = util.Channels()
channels.extend(task.monitor_channels(graph))
for i in xrange(n_patches):
channels.append(hs[:, i].mean(), "h%i.mean" % i)
channels.append(util.named(savings.mean(), "savings.mean"))
for variable_name in "location scale".split():
variable = locals()[variable_name]
channels.append(variable.var(axis=0).mean(), "%s.batch_variance" % variable_name)
channels.append(variable.var(axis=1).mean(), "%s.time_variance" % variable_name)
# step_norms = util.Channels()
# step_norms.extend(util.named(l2_norm([algorithm.steps[param]]),
# "%s.step_norm" % name)
# for name, param in model.get_parameter_dict().items())
# step_channels = step_norms.get_channels()
for activation in VariableFilter(roles=[OUTPUT])(graph.variables):
quantity = activation.mean()
quantity.name = "%s.mean" % util.get_path(activation)
channels.append(quantity)
extensions = []
# extensions.append(TrainingDataMonitoring(
# step_channels,
# prefix="train", after_epoch=True))
extensions.extend(
DataStreamMonitoring(
(channels.get_channels() + [cost]), data_stream=task.get_stream(which), prefix=which, after_epoch=True
)
for which in "train valid test".split()
)
patchmonitor = None
if n_spatial_dims == 2:
patchmonitor_klass = PatchMonitoring
elif n_spatial_dims == 3:
patchmonitor_klass = VideoPatchMonitoring
if patchmonitor_klass:
# get patches from original (uncentered) images
patch = T.stack(
*[ram.attention.crop(x_uncentered, location[:, i, :], scale[:, i, :]) for i in xrange(n_patches)]
)
patch = patch.dimshuffle(1, 0, *range(2, patch.ndim))
patchmonitor = patchmonitor_klass(
task.get_stream("valid", SequentialScheme(5, 5)),
every_n_batches=patchmonitor_interval,
extractor=theano.function([x_uncentered], [location, scale, patch]),
map_to_input_space=masonry.static_map_to_input_space,
)
patchmonitor.save_patches("test.png")
extensions.append(patchmonitor)
plot_channels = []
plot_channels.extend(task.plot_channels())
plot_channels.append(["train_cost"])
# plot_channels.append(["train_%s" % step_channel.name for step_channel in step_channels])
extensions.append(Plot(name, channels=plot_channels, after_epoch=True, server_url=plot_url))
return extensions
def construct_monitors(algorithm,
task,
n_patches,
x,
x_shape,
graph,
name,
ram,
model,
cost,
n_spatial_dims,
plot_url,
patchmonitor_interval=100,
**kwargs):
location, scale, savings = util.get_recurrent_auxiliaries(
"location scale savings".split(), graph, n_patches)
channels = util.Channels()
channels.extend(task.monitor_channels(graph))
channels.append(util.named(savings.mean(), "savings.mean"))
for variable_name in "location scale".split():
variable = locals()[variable_name]
channels.append(variable.mean(axis=0), "%s.mean" % variable_name)
channels.append(variable.var(axis=0), "%s.variance" % variable_name)
channels.append(algorithm.total_gradient_norm, "total_gradient_norm")
step_norms = util.Channels()
step_norms.extend(
util.named(l2_norm([algorithm.steps[param]]), "%s.step_norm" % name)
for name, param in model.get_parameter_dict().items())
step_channels = step_norms.get_channels()
#for activation in VariableFilter(roles=[OUTPUT])(graph.variables):
# quantity = activation.mean()
# quantity.name = "%s.mean" % util.get_path(activation)
# channels.append(quantity)
data_independent_channels = util.Channels()
for parameter in graph.parameters:
if parameter.name in "gamma beta".split():
quantity = parameter.mean()
quantity.name = "%s.mean" % util.get_path(parameter)
data_independent_channels.append(quantity)
extensions = []
extensions.append(
TrainingDataMonitoring(step_channels, prefix="train",
after_epoch=True))
extensions.append(
DataStreamMonitoring(data_independent_channels.get_channels(),
data_stream=None,
after_epoch=True))
extensions.extend(
DataStreamMonitoring((channels.get_channels() + [cost]),
data_stream=task.get_stream(which, monitor=True),
prefix=which,
after_epoch=True)
for which in "train valid test".split())
patchmonitor = None
if n_spatial_dims == 2:
patchmonitor_klass = PatchMonitoring
elif n_spatial_dims == 3:
patchmonitor_klass = VideoPatchMonitoring
if patchmonitor_klass:
patch = T.stack(*[
ram.crop(x, x_shape, location[:, i, :], scale[:, i, :])
for i in xrange(n_patches)
])
patch = patch.dimshuffle(1, 0, *range(2, patch.ndim))
patch_extractor = theano.function([x, x_shape],
[location, scale, patch])
for which in "train valid".split():
patchmonitor = patchmonitor_klass(
save_to="%s_patches_%s" % (name, which),
data_stream=task.get_stream(which,
shuffle=False,
num_examples=5),
every_n_batches=patchmonitor_interval,
extractor=patch_extractor,
map_to_input_space=attention.static_map_to_input_space)
patchmonitor.save_patches("patchmonitor_test.png")
extensions.append(patchmonitor)
if plot_url:
plot_channels = []
plot_channels.extend(task.plot_channels())
plot_channels.append(["train_cost"])
#plot_channels.append(["train_%s" % step_channel.name for step_channel in step_channels])
from blocks.extras.extensions.plot import Plot
extensions.append(
Plot(name,
channels=plot_channels,
after_epoch=True,
server_url=plot_url))
return extensions
