def train_separate(task, dataset='1k', iterations=1, batch_size=32):
# get data for task
data, metadata = gather(dataset, task)
# build data format
dformat = ['contexts', 'questions', 'answers']
# create feeds
trainfeed = DataFeed(dformat, data=data['train'])
testfeed = DataFeed(dformat, data=data['test'])
hdim = 20 if task else 50
eval_interval = 100 if task else 10
batch_size = 32 if task else 128
# instantiate model
model = MemoryNet(hdim=20,
num_hops=3,
memsize=metadata['clen'],
sentence_size=metadata['slen'],
qlen=metadata['qlen'],
vocab_size=metadata['vocab_size'],
num_candidates=metadata['candidates']['vocab_size'])
# info
print(':: <task {}> [0/2] Info')
print(':: \t memory size : {}, #candidates : {}'.format(
metadata['clen'], metadata['candidates']['vocab_size']))
with tf.Session() as sess:
# run for multiple initializations
i, accuracy, model_params = 0, [0.], [None]
while accuracy[-1] < 0.95 and i < iterations:
# init session
sess.run(tf.global_variables_initializer())
# create trainer
trainer = Trainer(sess,
model,
trainfeed,
testfeed,
batch_size=batch_size)
print('\n:: <task {}> ({}) [1/2] Pretraining'.format(task, i))
# pretrain
acc = trainer.fit(epochs=100000,
eval_interval=1,
mode=Trainer.PRETRAIN,
verbose=False,
lr=0.0005)
print(':: \tAccuracy after pretraining: ', acc)
print('\n:: <task {}> ({}) [2/2] Training'.format(task, i))
# train
acc = trainer.fit(epochs=1000000,
eval_interval=eval_interval,
mode=Trainer.TRAIN,
verbose=False,
lr=0.0005)
print(':: \tAccuracy after training: ', acc)
# next iteration
i += 1
# add accuracy to list
accuracy.append(acc)
model_params.append(sess.run(tf.trainable_variables()))
print(acc)
print(':: [x/x] End of training')
print(':: Max accuracy :', max(accuracy))
# return model and best model params
return model, model_params[accuracy.index(max(accuracy))]
def train_separate_all(dataset='1k'):
batch_size = 64
task_max_acc = []
for task in range(1, 21):
# get task 1
#task = 18
data, metadata = gather('1k', task)
# gather info from metadata
num_candidates = metadata['candidates']['vocab_size']
vocab_size = metadata['vocab_size']
memsize = metadata['clen']
sentence_size = metadata['slen']
qlen = metadata['qlen']
print(':: <task {}> memory size : {}'.format(task, memsize))
# build data format
dformat = ['contexts', 'questions', 'answers']
# create feeds
trainfeed = DataFeed(dformat, data=data['train'])
testfeed = DataFeed(dformat, data=data['test'])
# instantiate model
model = MemoryNet(hdim=20,
num_hops=3,
memsize=memsize,
sentence_size=sentence_size,
qlen=qlen,
vocab_size=vocab_size,
num_candidates=num_candidates)
with tf.Session() as sess:
# run for multiple initializations
i, accuracy = 0, [0.]
while accuracy[-1] < 0.95 and i < 5:
# init session
sess.run(tf.global_variables_initializer())
# create trainer
trainer = Trainer(sess,
model,
trainfeed,
testfeed,
batch_size=batch_size)
print('\n:: <task {}> ({}) [1/2] Pretraining'.format(task, i))
# pretrain
acc = trainer.fit(epochs=100000,
eval_interval=1,
mode=Trainer.PRETRAIN,
verbose=False,
batch_size=64,
lr=0.0005)
print(':: \tAccuracy after pretraining: ', acc)
print('\n:: <task {}> ({}) [2/2] Training'.format(task, i))
# train
acc = trainer.fit(epochs=1000000,
eval_interval=10,
mode=Trainer.TRAIN,
verbose=False,
batch_size=64,
lr=0.0005)
print(':: \tAccuracy after training: ', acc)
# next iteration
i += 1
# add accuracy to list
accuracy.append(acc)
print(acc)
print('Experiment Results : ')
for i, a in enumerate(accuracy[1:]):
print(i, a)
task_max_acc.append(max(accuracy))
print('____________________________________________')
for i, acc in enumerate(task_max_acc):
print('Task ({}) : {}'.format(i + 1, acc))
print('____________________________________________')
def train_separate(task, dataset='1k', iterations=1, batch_size=128):
# get data for task
data, metadata = gather(dataset, task)
# build data format
dformat = ['contexts', 'questions', 'answers']
# create feeds
trainfeed = DataFeed(dformat, data=data['train'])
testfeed = DataFeed(dformat, data=data['test'])
# instantiate model
model = RelationNet(clen=metadata['clen'],
qlen=metadata['qlen'],
slen=metadata['slen'],
vocab_size=metadata['vocab_size'],
num_candidates=metadata['candidates']['vocab_size'])
# info
print(':: <task {}> [0/2] Info')
print(':: \t memory size : {}, #candidates : {}'.format(
metadata['clen'], metadata['candidates']['vocab_size']))
# create visualizer
vis = Visualizer()
vis.attach_scalars(model)
with tf.Session() as sess:
# run for multiple initializations
i, accuracy, model_params = 0, [0.], [None]
while accuracy[-1] < 0.95 and i < iterations:
# init session
sess.run(tf.global_variables_initializer())
# add graph to visualizer
vis.attach_graph(sess.graph)
# create trainer
trainer = Trainer(sess,
model,
trainfeed,
testfeed,
batch_size=batch_size)
print('\n:: <task {}> ({}) [1/1] Training'.format(task, i))
# train
acc = trainer.fit(epochs=1000000,
eval_interval=1,
mode=Trainer.TRAIN,
verbose=True,
lr=0.0002)
print(':: \tAccuracy after training: ', acc)
# next iteration
i += 1
# add accuracy to list
accuracy.append(acc)
model_params.append(sess.run(tf.trainable_variables()))
print(acc)
print(':: [x/x] End of training')
print(':: Max accuracy :', max(accuracy))
# return model and model params
return model, sess.run(tf.trainable_variables())
#config.gpu_options.allow_growth = True
with tf.Session(config=config) as sess:
# init session
sess.run(tf.global_variables_initializer())
# add graph to visualizer
vis.attach_graph(sess.graph)
# init trainer
trainer = Trainer(sess, model, datasrc, batch_size)
# fit model
trainer.fit(epochs=600,
mode=Trainer.TRAIN,
verbose=True,
visualizer=vis,
eval_interval=1,
early_stop=False)
'''
print('****************************************************************** PRETRAINING OVER ')
for task_id in reversed(range(21)):
datasrc.task_id = task_id
loss, acc = trainer.evaluate()
print('evaluation loss for task_id = {}\t\tloss = {}\t\t accuracy = {}'.format(task_id, loss, acc))
trainer.fit(epochs=600, mode=Trainer.TRAIN, verbose=False, visualizer=vis)
print('****************************************************************** TRAINING OVER ')
for task_id in reversed(range(21)):
datasrc.task_id = task_id
loss, acc = trainer.evaluate()
print('evaluation loss for task_id = {}\t\tloss = {}\t\t accuracy = {}'.format(task_id, loss, acc))
n=1,
optimizer=tf.train.AdamOptimizer,
lr=0.001,
vocab_size=metadata['vocab_size'],
max_candidates=metadata['max_candidates'],
demb=384,
dhdim=384,
num_layers=1)
config = tf.ConfigProto(allow_soft_placement=True)
with tf.Session(config=config) as sess:
# init session
sess.run(tf.global_variables_initializer())
# create trainer
trainer = Trainer(sess,
model,
trainfeed,
testfeed,
batch_size=batch_size)
# train
acc = trainer.fit(epochs=1000000,
eval_interval=1,
mode=Trainer.TRAIN,
verbose=True,
lr=0.001)
print(':: \tAccuracy after training: ', acc)
# make 'n' copies of model for data parallelism
make_parallel(model, num_copies=4, num_gpus=4)
# setup visualizer
# by default, writes to ./log/
vis = Visualizer(interval=50)
vis.attach_scalars(model)
vis.attach_params() # histograms of trainable variables
# create data source (SQuAD)
datasrc = DataSource(batch_size,
glove_file='../../../datasets/glove/glove.6B.300d.txt',
random_x=0.2)
# gpu config
config = tf.ConfigProto()
#config.gpu_options.allow_growth = True
with tf.Session(config=config) as sess:
# init session
sess.run(tf.global_variables_initializer())
vis.attach_graph(sess.graph)
# init trainer
trainer = Trainer(sess, model, datasrc, batch_size, rand=True)
# fit model
trainer.fit(epochs=1000, visualizer=vis)
