I get different results (test accuracy) every time I run the imdb_lstm.py example from Keras framework (https://github.com/fchollet/keras/blob/master/examples/imdb_lstm.py) The code contains np.random.seed(1337) in the top, before any keras imports. It should prevent it from generating different numbers for every run. What am I missing?

UPDATE: How to repro:

  1. Install Keras (http://keras.io/)
  2. Execute https://github.com/fchollet/keras/blob/master/examples/imdb_lstm.py a few times. It will train the model and output test accuracy.
    Expected result: Test accuracy is the same on every run.
    Actual result: Test accuracy is different on every run.

UPDATE2: I'm running it on Windows 8.1 with MinGW/msys, module versions:
theano 0.7.0
numpy 1.8.1
scipy 0.14.0c1

UPDATE3: I narrowed the problem down a bit. If I run the example with GPU (set theano flag device=gpu0) then I get different test accuracy every time, but if I run it on CPU then everything works as expected. My graphics card: NVIDIA GeForce GT 635)

  • I cannot replicate running the code on ubuntu 14.04 Sep 11, 2015 at 11:49
  • theano -> 0.6.0, numpy -> '1.9.2', scipy -> '0.15.1' Sep 11, 2015 at 12:12
  • 5
    Code for GPU must use SIMD-like instructions a lot. This may result in random generator being called in random order. Also GPU is rather an autonomous entity and it may use its own random generator. After all, it's not trivial to run any code you want on GPU.
    – u354356007
    Sep 15, 2015 at 4:53
  • 1
    check out: deeplearning.net/software/theano/library/sandbox/rng_mrg.html and deeplearning.net/software/theano/tutorial/examples.html . In order to get the same results every time on the GPU you'll have to add to some of the keras functions to be able to seed them properly on the GPU Sep 17, 2015 at 15:46
  • 3
    Which CUDA version did you use? Did you install cuDNN? The latter I believe makes some sacrifices for speed that results in non-deterministic behavior on gpu. (Should be slight, I think it has to do with atomic operations being calculated on the backrprop, but you wouldn't get the same value every time.)
    – o1lo01ol1o
    Oct 16, 2015 at 22:50

11 Answers 11


You can find the answer at the Keras docs: https://keras.io/getting-started/faq/#how-can-i-obtain-reproducible-results-using-keras-during-development.

In short, to be absolutely sure that you will get reproducible results with your python script on one computer's/laptop's CPU then you will have to do the following:

  1. Set the PYTHONHASHSEED environment variable at a fixed value
  2. Set the python built-in pseudo-random generator at a fixed value
  3. Set the numpy pseudo-random generator at a fixed value
  4. Set the tensorflow pseudo-random generator at a fixed value
  5. Configure a new global tensorflow session

Following the Keras link at the top, the source code I am using is the following:

# Seed value
# Apparently you may use different seed values at each stage
seed_value= 0

# 1. Set the `PYTHONHASHSEED` environment variable at a fixed value
import os

# 2. Set the `python` built-in pseudo-random generator at a fixed value
import random

# 3. Set the `numpy` pseudo-random generator at a fixed value
import numpy as np

# 4. Set the `tensorflow` pseudo-random generator at a fixed value
import tensorflow as tf
# for later versions: 
# tf.compat.v1.set_random_seed(seed_value)

# 5. Configure a new global `tensorflow` session
from keras import backend as K
session_conf = tf.ConfigProto(intra_op_parallelism_threads=1, inter_op_parallelism_threads=1)
sess = tf.Session(graph=tf.get_default_graph(), config=session_conf)
# for later versions:
# session_conf = tf.compat.v1.ConfigProto(intra_op_parallelism_threads=1, inter_op_parallelism_threads=1)
# sess = tf.compat.v1.Session(graph=tf.compat.v1.get_default_graph(), config=session_conf)
# tf.compat.v1.keras.backend.set_session(sess)

It is needless to say that you do not have to to specify any seed or random_state at the numpy, scikit-learn or tensorflow/keras functions that you are using in your python script exactly because with the source code above we set globally their pseudo-random generators at a fixed value.

  • 2
    For later versions of tensorflow, if you face an error, use tf.random.set_random_seed(seed_value)
    – Kalpit
    Feb 4, 2020 at 9:32
  • Thanks, this worked for me! Just to be sure: Is there anything I need to do to "restore the randomness back to normal" after running the script? Or does setting the seed_values only have a "one-time effect"?
    – Frank
    Jan 18, 2021 at 19:05
  • Hey @Frank, I think that it does not go back to normal if you set the seed values like that unless you restart the kernel etc (or set a different seed value by yourself etc).
    – Outcast
    Jan 22, 2021 at 14:55
  • @Outcast On the link to Keras docs you sent First, you need to set the PYTHONHASHSEED environment variable to 0 before the program starts (not within the program itself). Isn't your answer settings the PYTHONHASHSEED "within the program itself" (os.environ['PYTHONHASHSEED']=str(seed_value)) ?
    – fabda01
    Jul 11, 2022 at 1:55

In Tensorflow 2.0 you can set random seed like this:

import tensorflow as tf

from tensorflow import keras
from tensorflow.keras import layers

model = keras.Sequential( [ 
layers.Dense(2,name = 'one'),
layers.Dense(3,activation = 'sigmoid', name = 'two'),
layers.Dense(2,name = 'three')])

x = tf.random.uniform((12,12))

Theano's documentation talks about the difficulties of seeding random variables and why they seed each graph instance with its own random number generator.

Sharing a random number generator between different {{{RandomOp}}} instances makes it difficult to producing the same stream regardless of other ops in graph, and to keep {{{RandomOps}}} isolated. Therefore, each {{{RandomOp}}} instance in a graph will have its very own random number generator. That random number generator is an input to the function. In typical usage, we will use the new features of function inputs ({{{value}}}, {{{update}}}) to pass and update the rng for each {{{RandomOp}}}. By passing RNGs as inputs, it is possible to use the normal methods of accessing function inputs to access each {{{RandomOp}}}’s rng. In this approach it there is no pre-existing mechanism to work with the combined random number state of an entire graph. So the proposal is to provide the missing functionality (the last three requirements) via auxiliary functions: {{{seed, getstate, setstate}}}.

They also provide examples on how to seed all the random number generators.

You can also seed all of the random variables allocated by a RandomStreams object by that object’s seed method. This seed will be used to seed a temporary random number generator, that will in turn generate seeds for each of the random variables.

>>> srng.seed(902340)  # seeds rv_u and rv_n with different seeds each
  • 11
    But in order to seed them, we need to have access to theano's random objects that keras will use. Is it possible to do via keras API?
    – max
    Nov 30, 2015 at 22:03

I finally got reproducible results with my code. It's a combination of answers I saw around the web. The first thing is doing what @alex says:

  1. Set numpy.random.seed;
  2. Use PYTHONHASHSEED=0 for Python 3.

Then you have to solve the issue noted by @user2805751 regarding cuDNN by calling your Keras code with the following additional THEANO_FLAGS:

  1. dnn.conv.algo_bwd_filter=deterministic,dnn.conv.algo_bwd_data=deterministic

And finally, you have to patch your Theano installation as per this comment, which basically consists in:

  1. replacing all calls to *_dev20 operator by its regular version in theano/sandbox/cuda/opt.py.

This should get you the same results for the same seed.

Note that there might be a slowdown. I saw a running time increase of about 10%.


The problem is now solved in Tensorflow 2.0 ! I had the same issue with TF 1.x (see If Keras results are not reproducible, what's the best practice for comparing models and choosing hyper parameters? ) but

import os
####*IMPORANT*: Have to do this line *before* importing tensorflow

import tensorflow as tf
import tensorflow.keras as keras
import tensorflow.keras.layers 
import random
import pandas as pd
import numpy as np

def reset_random_seeds():

#make some random data
NUM_ROWS = 1000
random_data = np.random.normal(size=(NUM_ROWS, NUM_FEATURES))
df = pd.DataFrame(data=random_data, columns=['x_' + str(ii) for ii in range(NUM_FEATURES)])
y = df.sum(axis=1) + np.random.normal(size=(NUM_ROWS))

def run(x, y):

    model = keras.Sequential([
            keras.layers.Dense(40, input_dim=df.shape[1], activation='relu'),
            keras.layers.Dense(20, activation='relu'),
            keras.layers.Dense(10, activation='relu'),
            keras.layers.Dense(1, activation='linear')
    NUM_EPOCHS = 500
    model.compile(optimizer='adam', loss='mean_squared_error')
    model.fit(x, y, epochs=NUM_EPOCHS, verbose=0)
    predictions = model.predict(x).flatten()
    loss = model.evaluate(x,  y) #This prints out the loss by side-effect

#With Tensorflow 2.0 this is now reproducible! 
run(df, y)
run(df, y)
run(df, y)

This works for me:

SEED = 123456
import os
import random as rn
import numpy as np
from tensorflow import set_random_seed


It is easier that it seems. Putting only this, it works:

import numpy as np
import tensorflow as tf
import random as python_random

def reset_seeds():


The KEY of the question, VERY IMPORTANT, is to call the function reset_seeds() every time before running the model. Doing that you will obtain reproducible results as I check in the Google Collab.

  • This approach almost worked for me. I had to add os.environ["PYTHONHASHSEED"] = str(seed_value) to the beginning of the function body and then it worked.
    – michen00
    Oct 14, 2021 at 7:46

I have trained and tested Sequential() kind of neural networks using Keras. I performed non linear regression on noisy speech data. I used the following code to generate random seed :

import numpy as np
seed = 7

I get the exact same results of val_loss each time I train and test on the same data.

  • 1
    Have you used GPU? What backend: Theano or TensorFlow? Sep 23, 2016 at 16:11
  • I used CPU with Theano backend. Sep 23, 2016 at 16:31
  • 1
    Got it. CPU works fine for me too. I have issues only when running on GPU. Sep 23, 2016 at 20:35

I would like to add something to the previous answers. If you use python 3 and you want to get reproducible results for every run, you have to

  1. set numpy.random.seed in the beginning of your code
  2. give PYTHONHASHSEED=0 as a parameter to the python interpreter

I agree with the previous comment, but reproducible results sometimes needs the same environment(e.g. installed packages, machine characteristics and so on). So that, I recommend to copy your environment to other place in case to have reproducible results. Try to use one of the next technologies:

  1. Docker. If you have a Linux this very easy to move your environment to other place. Also you can try to use DockerHub.
  2. Binder. This is a cloud platform for reproducing scientific experiments.
  3. Everware. This is yet another cloud platform for "reusable science". See the project repository on Github.
  • My problem is that I can't get reproducible results even on the same environment when I run the training twice. Sep 23, 2016 at 16:12

Unlike what has been said before, only Tensorflow seed has an effect on random generation of weights (latest version Tensorflow 2.6.0 and Keras 2.6.0)

Here is a small test you can run to check the influence of each seed (with np being numpy, tf being tensorflow and random the Python random library):

# Testing how seeds influence results
# -----------------------------------

print("Seed specification")

my_seed = 36
# To vary python hash, numpy random, python random and tensorflow random seeds
a, b, c, d = 0, 0, 0, 0

os.environ['PYTHONHASHSEED'] = str(my_seed+a) # Has no effect
np.random.seed(my_seed+b) # Has no effect
random.seed(my_seed+c) # Has no effect
tf.random.set_seed(my_seed+d) # Has an effect

print("Making ML model")


model = keras.Sequential([
    layers.Dense(2, input_shape=input_shape),#, activation='relu'),
    layers.Dense(output_nb, activation=None),
weights_save = model.get_weights()

print("Some weights:", weights_save[0].flatten())

We notice that variables a, b, c have no effect on the results. Only d has an effect on the results.

So, in the latest versions of Tensorflow, only tensorflow random seed has an influence on the random choice of weights.

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