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I have set up a CNN in Tensorflow where I read my data with a TFRecordReader. It works well but I would like to do some more preprocessing and data augmentation than offered by the tf.image functions. I would specifically like to do some randomized scaling.

Is it possible to process a Tensorflow tensor in Numpy? Or do I need to drop the TFRecordReader and rather do all my preprocessing in Numpy and feed data using the feed_dict? I suspect that the feed_dict method is slow when training on images, but I might be wrong?

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  • feed_dict and py_func copy the data between TF and Python runtime using single-threaded memcpy, so you may getting 2GB/s transfer rates which should not be a bottleneck for dataset like ImageNet. The slowness is more likely to happen in the custom preprocessing stage – Yaroslav Bulatov Jan 22 '16 at 17:02
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If you could create a custom I/O pipeline that fetches intermediate results back from TensorFlow using one or more threads, applies arbitrary Python logic, and then feeds them into a queue for subsequent processing. The resulting program would be somewhat more complicated, but I suggest you look at the threading and queues HOWTO for information on how to get started.


There is an experimental feature that might make this easier, if you install from source.

If you have already built a preprocessing pipeline using TensorFlow ops, the easiest way to add some custom Python code is to use the tf.py_func() operator, which takes a list of Tensor objects, and a Python function that maps one or more NumPy arrays to one or more NumPy arrays.

For example, let's say you have a pipeline like this:

reader = tf.TFRecordReader(...)
image_t = tf.image.decode_png(tf.parse_single_example(reader.read(), ...))

...you could use tf.py_func() to apply some custom NumPy processing as follows:

from scipy import ndimage
def preprocess(array):
  # `array` is a NumPy array containing.
  return ndimage.rotate(array, 45)

image_t = tf.py_func(preprocess, [image_t], [tf.float32])
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  • Thanks! Just for other readers: to be able to do further processing, for example through tf.train.shuffle_batch, I had to reshape the results of tf.py_func, which makes sense. – burk Jan 27 '16 at 15:19
  • Hmm, now I'm having some trouble extracting the results of the function. I call it like n1, n2, n3 = tf.py_func(get_triplet, [orig_tensor, truth_tensor], [tf.float32, tf.float32, tf.float32]), and I've checked that it enters the function, and it returns 3 float32 NumPy arrays, however I get the error tensorflow/python/lib/core/py_func.cc:299] Unimplemented: Unsupported numpy type 17 before the tf.py_func finishes. Any ideas? – burk Jan 27 '16 at 15:41
  • Well, I think I figured it out, I needed to return [n1, n2, n3] from my Python function. – burk Jan 27 '16 at 15:50
  • @mrry does py_func get executed multithreaded if there are more than one thread working for the queue? Given Python has a global interpreter lock – Min Lin Nov 27 '16 at 14:20
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    @MinLin If there are multiple py_func() operations in the graph, they may be dispatched concurrently by different TensorFlow threads, but each thread will acquire the GIL before calling into Python. If you call an API that releases the GIL (such as NumPy), you may still get a parallel speedup in this situation. – mrry Nov 28 '16 at 15:36

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