15

The Problem

I have a Python script that uses TensorFlow to create a multilayer perceptron net (with dropout) in order to do binary classification. Even though I've been careful to set both the Python and TensorFlow seeds, I get non-repeatable results. If I run once and then run again, I get different results. I can even run once, quit Python, restart Python, run again and get different results.

What I've Tried

I know some people posted questions about getting non-repeatable results in TensorFlow (e.g., "How to get stable results...", "set_random_seed not working...", "How to get reproducible result in TensorFlow"), and the answers usually turn out to be an incorrect use/understanding of tf.set_random_seed(). I've made sure to implement the solutions given but that has not solved my problem.

A common mistake is not realizing that tf.set_random_seed() is only a graph-level seed and that running the script multiple times will alter the graph, explaining the non-repeatable results. I used the following statement to print out the entire graph and verified (via diff) that the graph is the same even when the results are different.

print [n.name for n in tf.get_default_graph().as_graph_def().node]

I've also used function calls like tf.reset_default_graph() and tf.get_default_graph().finalize() to avoid any changes to the graph even though this is probably overkill.

The (Relevant) Code

My script is ~360 lines long so here are the relevant lines (with snipped code indicated). Any items that are in ALL_CAPS are constants that are defined in my Parameters block below.

import numpy as np
import tensorflow as tf

from copy import deepcopy
from tqdm import tqdm  # Progress bar

# --------------------------------- Parameters ---------------------------------
(snip)

# --------------------------------- Functions ---------------------------------
(snip)

# ------------------------------ Obtain Train Data -----------------------------
(snip)

# ------------------------------ Obtain Test Data -----------------------------
(snip)

random.seed(12345)
tf.set_random_seed(12345)

(snip)

# ------------------------- Build the TensorFlow Graph -------------------------

tf.reset_default_graph()

with tf.Graph().as_default():

    x = tf.placeholder("float", shape=[None, N_INPUT])
    y_ = tf.placeholder("float", shape=[None, N_CLASSES])

    # Store layers weight & bias
    weights = {
        'h1': tf.Variable(tf.random_normal([N_INPUT, N_HIDDEN_1])),
        'h2': tf.Variable(tf.random_normal([N_HIDDEN_1, N_HIDDEN_2])),
        'h3': tf.Variable(tf.random_normal([N_HIDDEN_2, N_HIDDEN_3])),
        'out': tf.Variable(tf.random_normal([N_HIDDEN_3, N_CLASSES]))
    }

    biases = {
        'b1': tf.Variable(tf.random_normal([N_HIDDEN_1])),
        'b2': tf.Variable(tf.random_normal([N_HIDDEN_2])),
        'b3': tf.Variable(tf.random_normal([N_HIDDEN_3])),
        'out': tf.Variable(tf.random_normal([N_CLASSES]))
    }

# Construct model
    pred = multilayer_perceptron(x, weights, biases, USE_DROP_LAYERS, DROP_KEEP_PROB)

    mean1 = tf.reduce_mean(weights['h1'])
    mean2 = tf.reduce_mean(weights['h2'])
    mean3 = tf.reduce_mean(weights['h3'])

    cost = tf.reduce_mean(tf.nn.softmax_cross_entropy_with_logits(pred, y_))

    regularizers = (tf.nn.l2_loss(weights['h1']) + tf.nn.l2_loss(biases['b1']) +
                    tf.nn.l2_loss(weights['h2']) + tf.nn.l2_loss(biases['b2']) +
                    tf.nn.l2_loss(weights['h3']) + tf.nn.l2_loss(biases['b3']))

    cost += COEFF_REGULAR * regularizers

    optimizer = tf.train.GradientDescentOptimizer(LEARNING_RATE).minimize(cost)

    out_labels = tf.nn.softmax(pred)

    sess = tf.InteractiveSession()
    sess.run(tf.initialize_all_variables())

    tf.get_default_graph().finalize()  # Lock the graph as read-only

    #Print the default graph in text form    
    print [n.name for n in tf.get_default_graph().as_graph_def().node]

    # --------------------------------- Training ----------------------------------

    print "Start Training"
    pbar = tqdm(total = TRAINING_EPOCHS)
    for epoch in range(TRAINING_EPOCHS):
        avg_cost = 0.0
        batch_iter = 0

        train_outfile.write(str(epoch))

        while batch_iter < BATCH_SIZE:
            train_features = []
            train_labels = []
            batch_segments = random.sample(train_segments, 20)
            for segment in batch_segments:
                train_features.append(segment[0])
                train_labels.append(segment[1])
            sess.run(optimizer, feed_dict={x: train_features, y_: train_labels})
            line_out = "," + str(batch_iter) + "\n"
            train_outfile.write(line_out)
            line_out = ",," + str(sess.run(mean1, feed_dict={x: train_features, y_: train_labels}))
            line_out += "," + str(sess.run(mean2, feed_dict={x: train_features, y_: train_labels}))
            line_out += "," + str(sess.run(mean3, feed_dict={x: train_features, y_: train_labels})) + "\n"
            train_outfile.write(line_out)
            avg_cost += sess.run(cost, feed_dict={x: train_features, y_: train_labels})/BATCH_SIZE
            batch_iter += 1

        line_out = ",,,,," + str(avg_cost) + "\n"
        train_outfile.write(line_out)
        pbar.update(1)  # Increment the progress bar by one

    train_outfile.close()
    print "Completed training"


# ------------------------------ Testing & Output ------------------------------

keep_prob = 1.0  # Do not use dropout when testing

print "now reducing mean"
print(sess.run(mean1, feed_dict={x: test_features, y_: test_labels}))

print "TRUE LABELS"
print(test_labels)
print "PREDICTED LABELS"
pred_labels = sess.run(out_labels, feed_dict={x: test_features})
print(pred_labels)

output_accuracy_results(pred_labels, test_labels)

sess.close()

What's not repeatable

As you can see, I'm outputting results during each epoch to a file and also printing out accuracy numbers at the end. None of these match from run to run, even though I believe I've set the seed(s) correctly. I've used both random.seed(12345) and tf.set_random_seed(12345)

Please let me know if I need to provide more information. And thanks in advance for any help.

-DG

Set-up details

TensorFlow version 0.8.0 (CPU only)
Enthought Canopy version 1.7.2 (Python 2.7, not 3.+)
Mac OS X version 10.11.3

14

You need to set operation level seed in addition to graph-level seed, ie

tf.reset_default_graph()
a = tf.constant([1, 1, 1, 1, 1], dtype=tf.float32)
graph_level_seed = 1
operation_level_seed = 1
tf.set_random_seed(graph_level_seed)
b = tf.nn.dropout(a, 0.5, seed=operation_level_seed)
4
  • 2
    Wow. Do you need to set an operation-level seed for every operation? All the tf.placeholder, tf.Variable, tf.reduce_mean, etc.?
    – DojoGojira
    Jul 20 '16 at 0:23
  • 3
    No, just the ones that have randomness Jul 20 '16 at 2:55
  • 3
    @Yaroslav I don't get it: I would assume the purpose of tf.set_random_seed() is to affect all random operations in the graph, so you don't have to set manually a seed for each random operator. What is its use otherwise? And from the example in the doc they only set the global seed to get reproducible results.
    – toto2
    Oct 24 '16 at 18:40
  • From the doc it seems just tf.set_random_seed() would make the script deterministic. At one point it wasn't sufficient, so it's possible that there was a bug that required both seeds to be set that has been fixed since Oct 24 '16 at 18:58
11

See this tensorflow github issue. Some operations on the GPU are not fully deterministic (speed vs precision).

I also observed that for the seed to have any effect, tf.set_random_seed(...) must be called before the Session is created. And also you should either completely restart the python interpreter every time you run your code, or call tf.reset_default_graph() at the start.

1

In TensorFlow 2.0 tf.set_random_seed(42) has changed to tf.random.set_seed(42).

https://www.tensorflow.org/versions/r2.0/api_docs/python/tf/random/set_seed

That should be the only seed necessary if just using TensorFlow.

0

Just to add to Yaroslav's answer, you should also set numpy seed in addition to operation and graph level seeds, as some backend operations depend on numpy. This did the trick for me np.random.seed() with Tensorflow V 1.1.0

0

What I did to get reproducible results training and testing a hug deep network using tensorflow.

  • This is tested on, Ubuntu 16.04, tensorflow 1.9.0, python 2.7, on both GPU and CPU
  • Add these lines of code before doing anything in your code (first few lines of the main function)
import os
import random
import numpy as np
import tensorflow as tf

SEED = 1  # use this constant seed everywhere

os.environ['PYTHONHASHSEED'] = str(SEED)
random.seed(SEED)  # `python` built-in pseudo-random generator
np.random.seed(SEED)  # numpy pseudo-random generator
tf.set_random_seed(SEED)  # tensorflow pseudo-random generator
  • Reset default graph before starting a session
tf.reset_default_graph()  # this goes before sess = tf.Session()
  • Find all the tensorflow functions in your code that accepts seed as an argument, put your constant seed in all of them (in my code SEED is what is used)

Here is a few of those functions: tf.nn.dropout, tf.contrib.layers.xavier_initializer , etc.

Note: This step might seem unreasonable because we are already using tf.set_random_seed to set a seed for tensorflow, but trust me, you need this! See Yaroslav's answer.

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