I have divided a dataset into 10 tfrecords files and I want to read 100 data points from each to create a batch of 10 sequence of 100 data points. I use the following function to do that. The data loading time from the tfrecords start off slow and then reaches to around 0.65s and after 100-200 sess.run calls it increases to around 10s. Can you please point out any mistake or suggestion which might help to reduce the read time ? Also, the behaviour I mentioned becomes more erratic sometimes.

def get_data(mini_batch_size):
  data = []
  for i in range(mini_batch_size):
    filename_queue = tf.train.string_input_producer([data_path + 'Features' + str(i) + '.tfrecords'])
    reader = tf.TFRecordReader()
    _, serialized_example = reader.read_up_to(filename_queue,step_size)
    features = tf.parse_example(serialized_example,features={'feature_raw': tf.VarLenFeature(dtype=tf.float32)})
    feature = features['feature_raw'].values
    feature = tf.reshape(feature,[step_size, ConvLSTM.H, ConvLSTM.W, ConvLSTM.Di])
  return tf.stack(data)

Even when I am pulling from a single file as follows, I am observing the same behaviour. Moreover, increasing num_threads doesn't help.

 with tf.device('/cpu:0'):
   filename_queue = tf.train.string_input_producer(['./Data/TFRecords/Features' + str(i) + '.tfrecords'])
   reader = tf.TFRecordReader()
   _, serialized_example = reader.read(filename_queue)
   batch_serialized_example = tf.train.batch([serialized_example], batch_size=100, num_threads=1, capacity=100)
   features = tf.parse_example(batch_serialized_example,features={'feature_raw': tf.VarLenFeature(dtype=tf.float32)})
   feature = features['feature_raw'].values
data = tf.stack(data)

init_op = tf.group(tf.global_variables_initializer(),tf.local_variables_initializer())
sess = tf.Session(config=tf.ConfigProto(intra_op_parallelism_threads=1,inter_op_parallelism_threads=1,allow_soft_placement=True))

coord = tf.train.Coordinator()
threads = tf.train.start_queue_runners(sess=sess, coord=coord)

for i in range(1000):
   t = time.time()
   D = sess.run(data)

I think you are trying to create mini batch yourself, but instead you should use tensorflow queues like tf.train.shuffle_batch or tf.train.batch to do it for you.

Your input flow should be like:

# Create a filename queue: Read tfrecord filenames 
filename_queue = tf.train.string_input_producer

#Create reader to populate the queue of examples
reader = tf.TFRecordReader()
_, serialized_example = reader.read_up_to(filename_queue,step_size)

#Parses the example proto 
features = tf.parse_example(serialized_example,features={'feature_raw': tf.VarLenFeature(dtype=tf.float32)})
feature = features['feature_raw'].values
feature = tf.reshape(feature,[step_size, ConvLSTM.H, ConvLSTM.W, ConvLSTM.Di])

## Shuffling queue that creates batches of data
features = tf.train.shuffle_batch([feature], batch_size=batch_size, num_threads=2, capacity=MIN_AFTER_DEQUEUE + 3*batch_size, min_after_dequeue=MIN_AFTER_DEQUEUE)

To improve your data loading time, the below points will help you:

  1. Setting the param MIN_AFTER_DEQUEUE is important. Setting it to a large number will have a slower startup and more memory but better run time numbers.
  2. Do the input data preprocessing in CPU while the rest of the computational intensive matrix operations run on GPU. Your GPU utilization is not close to 100%, it means the bottleneck is from CPU not loading enough data.
  3. Try to keep larger tfrecords instead of many tdrecords, so that the data can be read sequentially faster without switching multiple files.
  4. If your dealing with images, don't save the raw image to the tfrecords but instead use jpeg or similar formats, so that they will take less file size and can be read faster. The jpeg decode computation is a very small cost for the GPU.
| improve this answer | |
  • I want to get 100 contiguous examples from each tfrecords file to create a sequence. Then I want to pull 10 such sequence from 10 different tfrecord file to create a batch. If I use tf.train.shuffle_batch, it will shuffle within the 100 sequence which I don't want as it would then loose temporal information. Also, I have 10 tfrecord file with each of 50GB. Moreover, I am not trying to load jpeg files, but tensors as features. I hope you get my situation. – Sujoy Paul Jul 9 '17 at 4:16
  • Then don't use shuffle batch. You can use tf.train.batch, if you don't want to shuffle. If you are using temporal information why can't you store them together as a single record. Check : stackoverflow.com/questions/44464828/… – vijay m Jul 9 '17 at 5:25
  • Can you please help me out how to do create batches in the format I mentioned using tf,train.batch, i.e. reading from multiple files to create a batch ? I cannot save 100 features as a single sequence in tfrecords as that would limit the number of sequence as I want overlap and if I save them in an overlapped fashion, it would take a lot of space. – Sujoy Paul Jul 9 '17 at 6:09
  • What is the project. It seems very inefficient way of doing things. Why are you doing the way you are doing? Drawing from different files to create a batch? – vijay m Jul 9 '17 at 6:47
  • This is the ideal scenario of what I want. I have a long array of features where the array index depict time. Lets say I define for each batch B random indices and let them be [N1 N2 ... NB]. Then I want to load features indexed at Ni to Ni + 99 from the array where i is in between 1 to B. So essentially I want to have an array of size B x 100 x feature_dimension. But I want to do it using tfrecords. B is the batch size. – Sujoy Paul Jul 9 '17 at 8:47

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