I have a data matrix in "one-hot encoding" (all ones and zeros) with 260,000 rows and 35 columns. I am using Keras to train a simple neural network to predict a continuous variable. The code to make the network is the following:

model = Sequential()
model.add(Dense(1024, input_shape=(n_train,)))



sgd = SGD(lr=0.01, nesterov=True);
#rms = RMSprop()
#model.compile(loss='categorical_crossentropy', optimizer=rms, metrics=['accuracy'])
model.compile(loss='mean_absolute_error', optimizer=sgd)
model.fit(X_train, Y_train, batch_size=32, nb_epoch=3, verbose=1, validation_data=(X_test,Y_test), callbacks=[EarlyStopping(monitor='val_loss', patience=4)] )

However, during the training process, I see the loss decrease nicely, but during the middle of the second epoch, it goes to nan:

Train on 260000 samples, validate on 64905 samples
Epoch 1/3
260000/260000 [==============================] - 254s - loss: 16.2775 - val_loss:
Epoch 2/3
 88448/260000 [=========>....................] - ETA: 161s - loss: nan

I tried using RMSProp instead of SGD, I tried tanh instead of relu, I tried with and without dropout, all to no avail. I tried with a smaller model, i.e. with only one hidden layer, and same issue (it becomes nan at a different point). However, it does work with less features, i.e. if there are only 5 columns, and gives quite good predictions. It seems to be there is some kind of overflow, but I can't imagine why--the loss is not unreasonably large at all.

Python version 2.7.11, running on a linux machine, CPU only. I tested it with the latest version of Theano, and I also get Nans, so I tried going to Theano 0.8.2 and have the same problem. With the latest version of Keras has the same problem, and also with the 0.3.2 version.

  • 2
    Try loss='mean_squared_error', optimizer='adam' with a single hidden layer - still nans?
    – 1''
    Commented May 15, 2016 at 3:29
  • 1
    @1'' When using the above model with Adam optimizer, I get nans. With just one layer, it does not give nans during the three epochs of training. Commented May 15, 2016 at 17:04
  • 1
    for future readers, here is a relevant keras thread. github.com/keras-team/keras/issues/2134 I have some success by combining all of the suggestions mentioned here. e.g. adding batchnorm, varying the learning rate, optimizer, adding clip_by_value, clip_by_global_norm, finally, combing through the code multiple times for bugs also helps, e.g. missing batch norm layer following one conv layer. :)
    – pangyuteng
    Commented Oct 19, 2019 at 15:46

28 Answers 28


Regression with neural networks is hard to get working because the output is unbounded, so you are especially prone to the exploding gradients problem (the likely cause of the nans).

Historically, one key solution to exploding gradients was to reduce the learning rate, but with the advent of per-parameter adaptive learning rate algorithms like Adam, you no longer need to set a learning rate to get good performance. There is very little reason to use SGD with momentum anymore unless you're a neural network fiend and know how to tune the learning schedule.

Here are some things you could potentially try:

  1. Normalize your outputs by quantile normalizing or z scoring. To be rigorous, compute this transformation on the training data, not on the entire dataset. For example, with quantile normalization, if an example is in the 60th percentile of the training set, it gets a value of 0.6. (You can also shift the quantile normalized values down by 0.5 so that the 0th percentile is -0.5 and the 100th percentile is +0.5).

  2. Add regularization, either by increasing the dropout rate or adding L1 and L2 penalties to the weights. L1 regularization is analogous to feature selection, and since you said that reducing the number of features to 5 gives good performance, L1 may also.

  3. If these still don't help, reduce the size of your network. This is not always the best idea since it can harm performance, but in your case you have a large number of first-layer neurons (1024) relative to input features (35) so it may help.

  4. Increase the batch size from 32 to 128. 128 is fairly standard and could potentially increase the stability of the optimization.

  • 4
    Regarding 1. Why not normalizing the entire output set? Also, can I use scaling instead?
    – Eran
    Commented Oct 18, 2018 at 20:12
  • 15
    @Eran If you use the entire dataset (train + test) when deciding how to normalize, you're indirectly incorporating information about the test set into the training set, which is a form of train-test contamination. As long as you're only using the training set when deciding how to normalize, though, you can use scaling or any other kind of normalization that gives good performance.
    – 1''
    Commented Oct 21, 2018 at 18:33
  • Checking the batch size and find that it is too small (16), increasing the batch size to 128 works!
    – allenyllee
    Commented Jul 2, 2020 at 9:07
  • My rule of thumb with regard to batch size is that it should be as big as memory permits but at most 1% of the number of observations. 1% will give you 100 random batches which means that you still have the stochastic part of stochastic gradient descent.
    – grofte
    Commented Mar 8, 2021 at 10:51
  • as far as I know, using 'adam' optimizer you do not need give lr manually as param
    – JeeyCi
    Commented May 28, 2022 at 17:37

The answer by 1" is quite good. However, all of the fixes seems to fix the issue indirectly rather than directly. I would recommend using gradient clipping, which will clip any gradients that are above a certain value.

In Keras you can use clipnorm=1 (see https://keras.io/optimizers/) to simply clip all gradients with a norm above 1.

  • 17
    Fair point! This is a totally legitimate strategy that's often used with recurrent neural networks, for example. However, before resorting to this it's always good to check that something simple hasn't gone wrong with the optimization.
    – 1''
    Commented Nov 27, 2016 at 6:23
  • The same keras link suggests that gradient clipping is no longer supported. Is there an analogous solution?
    – NeStack
    Commented Jul 22, 2020 at 11:54
  • Does this work for all optimizers? And is it always a good idea to set to 1.0? Commented Aug 28, 2020 at 8:59
  • Yep, it should work across optimizers. If your optimization problem is sufficiently simple/stable, then this is not needed and may slow training a bit w/o yielding any benefit.
    – pir
    Commented Aug 28, 2020 at 18:01
  • 1
    In my experience, you can still have exploding gradients if you don't scale your data whether you have clipnorm working for you or not. Without seeing the input data in the form it takes at the Input(...) step, it's hard to know if this is the solution or not. I'm not saying this is wrong, but I can imagine someone assume that if they're getting nan losses that this will solve their problem when it may not. Commented Apr 23, 2021 at 22:35

I faced the same problem before. I search and find this question and answers. All those tricks mentioned above are important for training a deep neural network. I tried them all, but still got NAN.

I also find this question here. https://github.com/fchollet/keras/issues/2134. I cited the author's summary as follows:

I wanted to point this out so that it's archived for others who may experience this problem in future. I was running into my loss function suddenly returning a nan after it go so far into the training process. I checked the relus, the optimizer, the loss function, my dropout in accordance with the relus, the size of my network and the shape of the network. I was still getting loss that eventually turned into a nan and I was getting quite fustrated.

Then it dawned on me. I may have some bad input. It turns out, one of the images that I was handing to my CNN (and doing mean normalization on) was nothing but 0's. I wasn't checking for this case when I subtracted the mean and normalized by the std deviation and thus I ended up with an exemplar matrix which was nothing but nan's. Once I fixed my normalization function, my network now trains perfectly.

I agree with the above viewpoint: the input is sensitive for your network. In my case, I use the log value of density estimation as an input. The absolute value could be very huge, which may result in NaN after several steps of gradients. I think the input check is necessary. First, you should make sure the input does not include -inf or inf, or some extremely large numbers in absolute value.

  • 3
    I had the same issue as you. While checking my data, I found multiple places with inf data points. Taking those out solved the problem. Commented Feb 18, 2018 at 22:33
  • 1
    This resolved the problem for me, I had multiple NaNs in my embedding matrix :) Thanks. Commented Apr 20, 2018 at 21:53
  • I scale the input images (png) from 0-255 (uint8) to 0.-1.(float32), never would I have thought the input was the culprit.... adding a tf.clip_by_value prior passing the input to the net for training seem to resolved my 9 month long debug journey...
    – pangyuteng
    Commented Oct 20, 2019 at 17:40
  • 3
    Also, note that np.isnan(np.inf) == False. To ensure none of your examples contain NaNs or Infs, you can do something like assert np.all(np.isfinite(X)). (This has caught me out several times: I believed my data was fine because I was checking for NaNs. But I'd forgotten that np.isnan doesn't notice Infs!)
    – Jack Kelly
    Commented Oct 7, 2020 at 11:05
  • @pangyuteng could you give some detail as to what was causing the error in your case? If the input is always scaled to 0-1 by /255, I don't see how that would cause NaNs...
    – momo
    Commented May 11, 2021 at 5:29

I faced the same problem with using LSTM, the problem is my data has some nan value after standardization, therefore, we should check the input model data after the standarization if you see you will have nan value:


you can solve this by adding a small value(0.000001) to Std like this,

def standardize(train, test):

    mean = np.mean(train, axis=0)
    std = np.std(train, axis=0)+0.000001

    X_train = (train - mean) / std
    X_test = (test - mean) /std
    return X_train, X_test

To sum up the different solutions mentioned here and from this github discussion, which would depend of course on your particular situation:

  • Add regularization to add l1 or l2 penalties to the weights. Otherwise, try a smaller l2 reg. i.e l2(0.001), or remove it if already exists.
  • Try a smaller Dropout rate.
  • Clip the gradients to prevent their explosion. For instance in Keras you could use clipnorm=1. or clipvalue=1. as parameters for your optimizer.
  • Check validity of inputs (no NaNs or sometimes 0s). i.e df.isnull().any()
  • Replace optimizer with Adam which is easier to handle. Sometimes also replacing sgd with rmsprop would help.
  • Use RMSProp with heavy regularization to prevent gradient explosion.
  • Try normalizing your data, or inspect your normalization process for any bad values introduced.
  • Verify that you are using the right activation function (e.g. using a softmax instead of sigmoid for multiple class classification).
  • Try to increase the batch size (e.g. 32 to 64 or 128) to increase the stability of your optimization.
  • Try decreasing your learning rate.
  • Check the size of your last batch which may be different from the batch size.
  • be carefull: with too large batch_size you can stuck in local minimum
    – JeeyCi
    Commented May 16, 2022 at 11:43
  • Why would having a last batch size of different size be a problem?
    – roygbiv
    Commented Jan 23, 2023 at 17:37
  • Another cause is using mixed precession, which will force the use of float16 vs float32, I also had the issue of NaN with mean_absolute_error, tried all the solutions above and then found out I was still using mixed_precision due to a copy of a Jupyter notebook. Commented Jun 16, 2023 at 4:37
  • Removing L2 regularization solved my NaN validation loss problem. But why? Commented Jul 13, 2023 at 13:44

I faced a very similar problem, and this is how I got it to run.

The first thing you can try is changing your activation to LeakyReLU instead of using Relu or Tanh. The reason is that often, many of the nodes within your layers have an activation of zero, and backpropogation doesn't update the weights for these nodes because their gradient is also zero. This is also called the 'dying ReLU' problem (you can read more about it here: https://datascience.stackexchange.com/questions/5706/what-is-the-dying-relu-problem-in-neural-networks).

To do this, you can import the LeakyReLU activation using:

from keras.layers.advanced_activations import LeakyReLU

and incorporate it within your layers like this:


Additionally, it is possible that the output feature (the continuous variable you are trying to predict) is an imbalanced data set and has too many 0s. One way to fix this issue is to use smoothing. You can do this by adding 1 to the numerator of all your values in this column and dividing each of the values in this column by 1/(average of all the values in this column)

This essentially shifts all the values from 0 to a value greater than 0 (which may still be very small). This prevents the curve from predicting 0s and minimizing the loss (eventually making it NaN). Smaller values are more greatly impacted than larger values, but on the whole, the average of the data set remains the same.


I had the same problem, I was using Keras for a Multivariate regression problem. What I later realised was that some values in my dataset were nan and that led to a nan loss. I used the command:


And it resolved my issue.

  • True, there shouldn't be any NaN values in the data we feed to the NeuralNet. Commented May 17, 2021 at 8:48

I tried every suggestion on this page and many others to no avail. We were importing csv files with pandas, then using keras Tokenizer with text input to create vocabularies and word vector matrices. After noticing some CSV files led to nan while others worked, suddenly we looked at the encoding of the files and realized that ascii files were NOT working with keras, leading to nan loss and accuracy of 0.0000e+00; however, utf-8 and utf-16 files were working! Breakthrough.

If you're performing textual analysis and getting nan loss after trying these suggestions, use file -i {input} (linux) or file -I {input} (osx) to discover your file type. If you have ISO-8859-1 or us-ascii, try converting to utf-8 or utf-16le. Haven't tried the latter but I'd imagine it would work as well. Hopefully this helps someone very very frustrated!


I was getting the loss as nan in the very first epoch, as soon as the training starts. Solution as simple as removing the nas from the input data worked for me (df.dropna())

I hope this helps someone encountering similar problem

  • 1
    How did you remove the nans from the first epoch? I'm having nans before I start training
    – Supamee
    Commented Aug 30, 2018 at 17:20

I had the same problem with my RNN with keras LSTM layers, so I tried each solution from above. I had already scaled my data (with sklearn.preprocessing.MinMaxScaler), there were no NaN values in my data after scaling. Solutions like using LeakyRelU or changing learning rate didn't help.

So I decided to change the scaler from MinMaxScaler to StandardScaler, even though I had no NaN values and I found it odd but it worked!


In my case the issue was that I copy-pasted my previous work for binary classification and used sigmoid activation on the output layer instead of softmax (the new network was about multiclass classification).


I had a similar problem using keras. Loss turned into NAN after the second batch was input.

I tried to:

  1. Use softmax as activation of output dense layer
  2. Drop nan in the input
  3. Normalize the input

However, that didn't work. So, then I tried to:

  1. Decrease the learning rate

Problem solved.


Try to check your data if there are NAN values. Removing NAN values solve the problem for me.


I had this issue when one of my training data entries contained a nan


I had similar issue with my logloss, MAE and others being all NA's. I looked into the data and found, I had few features with NA's in them. I imputed NA's with approximate values and was able to solve the issue.


I had the same problem with my keras CNN, as others I tried all above solutions: decrease learning rate, drop nullity from train data, normalize data, add dropout layer and ... but there couldn't solve nan problem, I tried change activation function in classifier (last) layer from sigmoid to softmax. It worked! try changing activation function of last layer to softmax!


I was getting the same thing when I tried creating a bounding box regressor. My neural net had larger layer than yours . I increased the dropout value and got suitable results.


Was getting NaN for my classification network. Answering here as it might help someone.

Had made a blunder -

Number of classes in training labels was 5. i.e. from 0 to 4.

In the last dense layer of classification had 4 nodes which means 4 classes which is the issue.

Chaging the number of nodes in the last layer of network to 5 solved the issue for me.


I had a similar issue and I tried changing my activations from Sigmoid to Softmax and from RelU to LeakyRelU and the problem was resolved. So I guess as long as there is no NaN in the input to begin with, and you have tried lowering your learning rate, the viable solution is to play with your activations!


My situation:

Train Loss: nan, Train Accuracy: 0.0, Validation Loss: nan, Validation Accuracy: 0.0

later I found out it was because of my labels are 1, 2, 3, 4 not start with 0. So I relabel them, use 0, 1, 2, 3 instead of 1, 2, 3, 4 as labels. Problem solved!

Hope my answer helps!


In keras, class labels begins from 0. If, for example, you have 7 classes, therefore either begin labeling them from 0 through 6 and feed the last dense layer (with the softmax activation function) with units=7. Or if you should label your data from 1 through 7, in this case, you must set units=8 (in the last dense layer).

  • As it’s currently written, your answer is unclear. Please edit to add additional details that will help others understand how this addresses the question asked. You can find more information on how to write good answers in the help center.
    – Community Bot
    Commented Dec 16, 2021 at 14:50

I was getting nan values for binary classification then I changed the loss function to 'binary cross entropy' from categorical cross-entropy and it worked fine.


BTW, it seems to be a dying gradient NOT exploding.

  • neuron dies when its input is negative for all training instances.

here 'adam' optimizer helped against NaNs. But concerning your situation - be sure, you have scaled dataset & loss='mean_squared_error' (as opposed to yours)

model.compile(optimizer = 'adam', loss = keras.losses.mean_squared_error, metrics=keras.metrics.mean_absolute_error)

This error may occur when your data have problems like:

Input contains NaN, infinity or a value too large for dtype('float64'). In these cases, you can solve it by removing NaN values like :

`df = df.dropna()`

or any other fillna() methods

Note: These methods work for pandas' data frames only.


Remove rows containing with nan value or replace the nan value with some value from datasets or dataframe. it will solve the error.


In my case, the problem was that there was some nan values in the dataframe. Just remove those nan values using fillnan().

  • 1
    Thank you for your interest in contributing to the Stack Overflow community. This question already has quite a few answers—including one that has been extensively validated by the community. Are you certain your approach hasn’t been given previously? If so, it would be useful to explain how your approach is different, under what circumstances your approach might be preferred, and/or why you think the previous answers aren’t sufficient. Can you kindly edit your answer to offer an explanation? Commented Dec 11, 2023 at 0:20

I got the same issue. Successfully you can use keras for regression. Convert All your data into Rounded number that solved my issue. Eg. 23.43 to 23


I had the same problem. Examining the data, I realized that an error had occurred during data acquisition.

  • 1
    More of a comment
    – StupidWolf
    Commented Jun 3, 2021 at 6:38

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