Following the upgrade to Keras 2.0.9, I have been using the multi_gpu_model utility but I can't save my models or best weights using


The error I get is

TypeError: can’t pickle module objects

I suspect there is some problem gaining access to the model object. Is there a work around this issue?


3 Answers 3


To be honest, the easiest approach to this is to actually examine the multi gpu parallel model using


(The parallel model is simply the model after applying the multi_gpu function). This clearly highlights the actual model (in I think the penultimate layer - I am not at my computer right now). Then you can use the name of this layer to save the model.

 model = parallel_model.get_layer('sequential_1)

Often its called sequential_1 but if you are using a published architecture, it may be 'googlenet' or 'alexnet'. You will see the name of the layer from the summary.

Then its simple to just save


Maxims approach works, but its overkill I think.

Rem: you will need to compile both the model, and the parallel model.

  • Also note that in order to get the output of intermediate layers from your model you have to unwrap the model first like GhostRider explained and then access the layers. model.get_layer('last_dense_layer').output e.g.
    – Alexander
    Jan 22, 2019 at 14:00


Here's a patched version that doesn't fail while saving:

from keras.layers import Lambda, concatenate
from keras import Model
import tensorflow as tf

def multi_gpu_model(model, gpus):
  if isinstance(gpus, (list, tuple)):
    num_gpus = len(gpus)
    target_gpu_ids = gpus
    num_gpus = gpus
    target_gpu_ids = range(num_gpus)

  def get_slice(data, i, parts):
    shape = tf.shape(data)
    batch_size = shape[:1]
    input_shape = shape[1:]
    step = batch_size // parts
    if i == num_gpus - 1:
      size = batch_size - step * i
      size = step
    size = tf.concat([size, input_shape], axis=0)
    stride = tf.concat([step, input_shape * 0], axis=0)
    start = stride * i
    return tf.slice(data, start, size)

  all_outputs = []
  for i in range(len(model.outputs)):

  # Place a copy of the model on each GPU,
  # each getting a slice of the inputs.
  for i, gpu_id in enumerate(target_gpu_ids):
    with tf.device('/gpu:%d' % gpu_id):
      with tf.name_scope('replica_%d' % gpu_id):
        inputs = []
        # Retrieve a slice of the input.
        for x in model.inputs:
          input_shape = tuple(x.get_shape().as_list())[1:]
          slice_i = Lambda(get_slice,
                           arguments={'i': i,
                                      'parts': num_gpus})(x)

        # Apply model on slice
        # (creating a model replica on the target device).
        outputs = model(inputs)
        if not isinstance(outputs, list):
          outputs = [outputs]

        # Save the outputs for merging back together later.
        for o in range(len(outputs)):

  # Merge outputs on CPU.
  with tf.device('/cpu:0'):
    merged = []
    for name, outputs in zip(model.output_names, all_outputs):
                                axis=0, name=name))
    return Model(model.inputs, merged)

You can use this multi_gpu_model function, until the bug is fixed in keras. Also, when loading the model, it's important to provide the tensorflow module object:

model = load_model('multi_gpu_model.h5', {'tf': tf})

How it works

The problem is with import tensorflow line in the middle of multi_gpu_model:

def multi_gpu_model(model, gpus):
  import tensorflow as tf

This creates a closure for the get_slice lambda function, which includes the number of gpus (that's ok) and tensorflow module (not ok). Model save tries to serialize all layers, including the ones that call get_slice and fails exactly because tf is in the closure.

The solution is to move import out of multi_gpu_model, so that tf becomes a global object, though still needed for get_slice to work. This fixes the problem of saving, but in loading one has to provide tf explicitly.

  • Thanks @Maxim for the patch. I want to know whether this will work if i give multi_gpu_model(model, 1). Mar 28, 2019 at 14:35

It's something that need a little work around by loading the multi_gpu_model weight to the regular model weight. e.g.

#1, instantiate your base model on a cpu
with tf.device("/cpu:0"):
    model = create_model()

#2, put your model to multiple gpus, say 2
multi_model = multi_gpu_model(model, 2)

#3, compile both models
model.compile(loss=your_loss, optimizer=your_optimizer(lr))
multi_model.compile(loss=your_loss, optimizer=your_optimizer(lr))

#4, train the multi gpu model
# multi_model.fit() or multi_model.fit_generator()

#5, save weights


refrence: https://github.com/fchollet/keras/issues/8123

  • Sorry to hear that.. can you share the new errors you got or the code you are using? Nov 21, 2017 at 17:17

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