问题描述
所以...我已经检查了一些有关此问题的帖子(应该检查的帖子很多,但我认为现在就某个问题寻求帮助是合理的),但是我没有找到任何解决方案可能适合我的情况.
So... I have checked a few posts on this issue (there should be many that I haven't checked but I think it's reasonable to seek help with a question now), but I haven't found any solution that might suit my situation.
此OOM错误消息总是出现在任意折叠训练循环的第二轮中(无任何例外),并且在第一次运行后再次重新运行训练代码时.因此,这可能是与此帖子相关的问题:有关OOM的以前的stackoverflow问题已链接使用tf.nn.embedding_lookup(),但是我不确定我的问题位于哪个函数中.
This OOM error message always emerge (with no single exception) in the second round of a whatever-fold training loop, and when re-running the training code again after a first run. So this might be an issue related to this post: A previous stackoverflow question for OOM linked with tf.nn.embedding_lookup(), but I am not sure which function my issue lies in.
我的NN是具有两个图形卷积层的GCN,并且我正在具有几个10 GB Nvidia P102-100 GPU的服务器上运行代码.将batch_size设置为1,但没有任何改变.
My NN is a GCN with two graph convolutional layers, and I am running the code on a server with several 10 GB Nvidia P102-100 GPUs. Have set batch_size to 1 but nothing has changed.
更新:用GlobalMaxPool()替换Flatten()后,错误消失了,我可以顺利运行代码了.但是,如果我进一步添加一个GC层,则该错误将在第一轮出现.因此,我想核心问题仍然存在...
UPDATE: After replacing Flatten() with GlobalMaxPool(), the error disappeared and I can run the code smoothly. However, if I further add one GC layer, the error would come in the first round. Thus, I guess the core issue is still there...
代码(改编自 GCNG ):
from keras import Input, Model
from keras.callbacks import EarlyStopping, ModelCheckpoint
from keras.layers import Dense, Flatten
from keras.optimizers import Adam
from keras.regularizers import l2
import tensorflow as tf
#from spektral.datasets import mnist
from spektral.layers import GraphConv
from spektral.layers.ops import sp_matrix_to_sp_tensor
from spektral.utils import normalized_laplacian
from keras.utils import plot_model
from sklearn import metrics
import numpy as np
import gc
l2_reg = 5e-7 # Regularization rate for l2
learning_rate = 1*1e-6 # Learning rate for SGD
batch_size = 1 # Batch size
epochs = 1 # Number of training epochs
es_patience = 50 # Patience fot early stopping
# DATA IMPORTING & PREPROCESSING OMITTED
# this part of adjacency matrix calculation is not important...
fltr = self_connection_normalized_adjacency(adj)
test = fltr.toarray()
t = tf.convert_to_tensor(test)
A_in = Input(tensor=t)
del fltr, test, t
gc.collect()
# Here comes the issue.
for test_indel in range(1,11):
# SEVERAL LINES OMITTED (get X_train, y_train, X_val, y_val, X_test, y_test)
# Build model
N = X_train.shape[-2] # Number of nodes in the graphs
F = X_train.shape[-1] # Node features dimensionality
n_out = y_train.shape[-1] # Dimension of the target
X_in = Input(shape=(N, F))
graph_conv = GraphConv(32,activation='elu',kernel_regularizer=l2(l2_reg),use_bias=True)([X_in, A_in])
graph_conv = GraphConv(32,activation='elu',kernel_regularizer=l2(l2_reg),use_bias=True)([graph_conv, A_in])
flatten = Flatten()(graph_conv)
fc = Dense(512, activation='relu')(flatten)
output = Dense(n_out, activation='sigmoid')(fc)
model = Model(inputs=[X_in, A_in], outputs=output)
optimizer = Adam(lr=learning_rate)
model.compile(optimizer=optimizer,loss='binary_crossentropy',metrics=['acc'])
model.summary()
save_dir = current_path+'/'+str(test_indel)+'_self_connection_Ycv_LR_as_nega_rg_5-7_lr_1-6_e'+str(epochs)
if not os.path.isdir(save_dir):
os.makedirs(save_dir)
early_stopping = EarlyStopping(monitor='val_acc', patience=es_patience, verbose=0, mode='auto')
checkpoint1 = ModelCheckpoint(filepath=save_dir + '/weights.{epoch:02d}-{val_loss:.2f}.hdf5', monitor='val_loss',verbose=1, save_best_only=False, save_weights_only=False, mode='auto', period=1)
checkpoint2 = ModelCheckpoint(filepath=save_dir + '/weights.hdf5', monitor='val_acc', verbose=1,save_best_only=True, mode='auto', period=1)
callbacks = [checkpoint2, early_stopping]
# Train model
validation_data = (X_val, y_val)
print('batch size = '+str(batch_size))
history = model.fit(X_train,y_train,batch_size=batch_size,validation_data=validation_data,epochs=epochs,callbacks=callbacks)
# Prediction and write-file code omitted
del X_in, X_data_train,Y_data_train,gene_pair_index_train,count_setx_train,X_data_test, Y_data_test,gene_pair_index_test,trainX_index,validation_index,train_index, X_train, y_train, X_val, y_val, X_test, y_test, validation_data, graph_conv, flatten, fc, output, model, optimizer, history
gc.collect()
模型摘要:
Model: "model_1"
__________________________________________________________________________________________________
Layer (type) Output Shape Param # Connected to
==================================================================================================
input_2 (InputLayer) (None, 13129, 2) 0
__________________________________________________________________________________________________
input_1 (InputLayer) (13129, 13129) 0
__________________________________________________________________________________________________
graph_conv_1 (GraphConv) (None, 13129, 32) 96 input_2[0][0]
input_1[0][0]
__________________________________________________________________________________________________
graph_conv_2 (GraphConv) (None, 13129, 32) 1056 graph_conv_1[0][0]
input_1[0][0]
__________________________________________________________________________________________________
flatten_1 (Flatten) (None, 420128) 0 graph_conv_2[0][0]
__________________________________________________________________________________________________
dense_1 (Dense) (None, 512) 215106048 flatten_1[0][0]
__________________________________________________________________________________________________
dense_2 (Dense) (None, 1) 513 dense_1[0][0]
==================================================================================================
Total params: 215,107,713
Trainable params: 215,107,713
Non-trainable params: 0
__________________________________________________________________________________________________
batch size = 1
错误消息(请注意,在重新启动并清除输出之后的第一轮中,此消息永远不会出现):
Error message (Please note that this message never comes during the first round after a Restart-and-Clear-Output):
Train on 2953 samples, validate on 739 samples
Epoch 1/1
---------------------------------------------------------------------------
ResourceExhaustedError Traceback (most recent call last)
<ipython-input-5-943385df49dc> in <module>()
62 mem = psutil.virtual_memory()
63 print("current mem " + str(round(mem.percent))+'%')
---> 64 history = model.fit(X_train,y_train,batch_size=batch_size,validation_data=validation_data,epochs=epochs,callbacks=callbacks)
65 mem = psutil.virtual_memory()
66 print("current mem " + str(round(mem.percent))+'%')
/public/workspace/miniconda3/envs/ST/lib/python3.6/site-packages/keras/engine/training.py in fit(self, x, y, batch_size, epochs, verbose, callbacks, validation_split, validation_data, shuffle, class_weight, sample_weight, initial_epoch, steps_per_epoch, validation_steps, validation_freq, max_queue_size, workers, use_multiprocessing, **kwargs)
1237 steps_per_epoch=steps_per_epoch,
1238 validation_steps=validation_steps,
-> 1239 validation_freq=validation_freq)
1240
1241 def evaluate(self,
/public/workspace/miniconda3/envs/ST/lib/python3.6/site-packages/keras/engine/training_arrays.py in fit_loop(model, fit_function, fit_inputs, out_labels, batch_size, epochs, verbose, callbacks, val_function, val_inputs, shuffle, initial_epoch, steps_per_epoch, validation_steps, validation_freq)
194 ins_batch[i] = ins_batch[i].toarray()
195
--> 196 outs = fit_function(ins_batch)
197 outs = to_list(outs)
198 for l, o in zip(out_labels, outs):
/public/workspace/miniconda3/envs/ST/lib/python3.6/site-packages/tensorflow/python/keras/backend.py in __call__(self, inputs)
3290
3291 fetched = self._callable_fn(*array_vals,
-> 3292 run_metadata=self.run_metadata)
3293 self._call_fetch_callbacks(fetched[-len(self._fetches):])
3294 output_structure = nest.pack_sequence_as(
/public/workspace/miniconda3/envs/ST/lib/python3.6/site-packages/tensorflow/python/client/session.py in __call__(self, *args, **kwargs)
1456 ret = tf_session.TF_SessionRunCallable(self._session._session,
1457 self._handle, args,
-> 1458 run_metadata_ptr)
1459 if run_metadata:
1460 proto_data = tf_session.TF_GetBuffer(run_metadata_ptr)
ResourceExhaustedError: 2 root error(s) found.
(0) Resource exhausted: OOM when allocating tensor with shape[420128,512] and type float on /job:localhost/replica:0/task:0/device:GPU:0 by allocator GPU_0_bfc
[[{{node training_1/Adam/mul_23}}]]
Hint: If you want to see a list of allocated tensors when OOM happens, add report_tensor_allocations_upon_oom to RunOptions for current allocation info.
[[metrics_1/acc/Identity/_323]]
Hint: If you want to see a list of allocated tensors when OOM happens, add report_tensor_allocations_upon_oom to RunOptions for current allocation info.
(1) Resource exhausted: OOM when allocating tensor with shape[420128,512] and type float on /job:localhost/replica:0/task:0/device:GPU:0 by allocator GPU_0_bfc
[[{{node training_1/Adam/mul_23}}]]
Hint: If you want to see a list of allocated tensors when OOM happens, add report_tensor_allocations_upon_oom to RunOptions for current allocation info.
0 successful operations.
0 derived errors ignored.
推荐答案
您可以在tensorflow中使用分布式策略,以确保正确使用了多GPU设置:
You can make use of distributed strategies in tensorflow to make sure that your multi-GPU set up is being used appropriately:
mirrored_strategy = tf.distribute.MirroredStrategy()
with mirrored_strategy.scope():
for test_indel in range(1,11):
<etc>
请参见此处
镜像策略用于在单个服务器上的多个GPU之间进行同步分布式训练,这听起来像您正在使用的设置.在此博客中,还有>/a>.
Mirrored strategy is used for synchronous distributed training across multiple GPUs on a single server, which sounds like the setup you're using. There's also a more intuitive explanation in this blog.
此外,您可以尝试使用混合精度,通过更改模型中参数的float类型.
Also, you could try making use of mixed precision which should free up memory significantly by altering the float type of the parameters in the model.
这篇关于如何避免在分配具有形状的张量[420128,512]时得到"OOM"?循环播放(训练GCN时)的文章就介绍到这了,希望我们推荐的答案对大家有所帮助,也希望大家多多支持!