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How train_on_batch() is different from fit()? What are the cases when we should use train_on_batch()?

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6 Answers 6

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For this question, it's a simple answer from the primary author:

With fit_generator, you can use a generator for the validation data as well. In general, I would recommend using fit_generator, but using train_on_batch works fine too. These methods only exist for the sake of convenience in different use cases, there is no "correct" method.

train_on_batch allows you to expressly update weights based on a collection of samples you provide, without regard to any fixed batch size. You would use this in cases when that is what you want: to train on an explicit collection of samples. You could use that approach to maintain your own iteration over multiple batches of a traditional training set but allowing fit or fit_generator to iterate batches for you is likely simpler.

One case when it might be nice to use train_on_batch is for updating a pre-trained model on a single new batch of samples. Suppose you've already trained and deployed a model, and sometime later you've received a new set of training samples previously never used. You could use train_on_batch to directly update the existing model only on those samples. Other methods can do this too, but it is rather explicit to use train_on_batch for this case.

Apart from special cases like this (either where you have some pedagogical reason to maintain your own cursor across different training batches, or else for some type of semi-online training update on a special batch), it is probably better to just always use fit (for data that fits in memory) or fit_generator (for streaming batches of data as a generator).

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  • Thank you. Train on batch is implemented in Keras please?
    – Avv
    Jul 28, 2021 at 21:25
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    Why can't you just use fit() for this? Adjusting the batch_size argument we can also do one weight update iteration passing the new batch on samples. Is there any difference?
    – hirschme
    Jun 23, 2022 at 20:34
  • yeah I dont see why we cant use fit method itself for that new sample that just came in. Or does keras reset weights whenever someone calls fit method? I dont think so afaik Dec 4, 2022 at 20:15
  • To use fit you would need to provide a batch size that matches your ad hoc batch. Usually fit is buried in some code that abstracts the parameters out into some other environment (either for experimentation like in a notebook, or some config like for scheduled training jobs), so it could be a pain to override the batch size. (Omitting the batch size for fit will default to 32). train_on_batch does not require a batch size. So for example if you already trained a model, don't want to mess with configs, but want to finetune or test training code on one batch, train_on_batch is better
    – ely
    May 7, 2023 at 18:54
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train_on_batch() gives you greater control of the state of the LSTM, for example, when using a stateful LSTM and controlling calls to model.reset_states() is needed. You may have multi-series data and need to reset the state after each series, which you can do with train_on_batch(), but if you used .fit() then the network would be trained on all the series of data without resetting the state. There's no right or wrong, it depends on what data you're using, and how you want the network to behave.

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    Exactly my use case, I was searching the question to see if it made sense to do it this way as I was having a hell of a time trying to force it with fit.
    – adamconkey
    Apr 1, 2019 at 23:25
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Train_on_batch will also see a performance increase over fit and fit generator if youre using large datasets and don't have easily serializable data (like high rank numpy arrays), to write to tfrecords.

In this case you can save the arrays as numpy files and load up smaller subsets of them (traina.npy, trainb.npy etc) in memory, when the whole set won't fit in memory. You can then use tf.data.Dataset.from_tensor_slices and then using train_on_batch with your subdataset, then loading up another dataset and calling train on batch again, etc, now you've trained on your entire set and can control exactly how much and what of your dataset trains your model. You can then define your own epochs, batch sizes, etc with simple loops and functions to grab from your dataset.

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    this train_on_batch in important for RL, which trains 1 step at a time, fit will be extremely slow
    – Dan D.
    Mar 19, 2021 at 7:01
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From Keras - Model training APIs:

  • fit: Trains the model for a fixed number of epochs (iterations on a dataset).
  • train_on_batch: Runs a single gradient update on a single batch of data.

We can use it in GAN when we update the discriminator and generator using a batch of our training data set at a time. I saw Jason Brownlee used train_on_batch in on his tutorials (How to Develop a 1D Generative Adversarial Network From Scratch in Keras)

Tip for quick search: Type Control+F and type in the search box the term that you want to search (train_on_batch, for example).

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Indeed @nbro answer helps, just to add few more scenarios, lets say you are training some seq to seq model or a large network with one or more encoders. We can create custom training loops using train_on_batch and use a part of our data to validate on the encoder directly without using callbacks. Writing callbacks for a complex validation process could be difficult. There are several cases where we wish to train on batch.

Regards, Karthick

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I recommend to read the article. It is very useful to understand the differences among 3 types of training approaches in Keras.

  • fit
  • fit_generator
  • train_on_batch

Summery: The use cases and implementation notes of three types of approaches are summarized following the above-stated article.

PART 1: _______________ .fit ______________________

Use Cases: Normally, model.fit is used, when

  • dataset size is normal
  • batch is not required

Function Input: Directly inputs(X), labels(Y).

Example: fit(x=train_x, y=train_y, batch_size=64, epochs=20)

PART 2: ___________ .fit_generator _______________

Use Cases: model.fit_generator is used, when

  • dataset size is large
  • batch training required to save memory
  • need to generate more samples by augmentation, etc.

Function Input: Not directly X, Y. Instead, a generator is the input.

train_datagen = ImageDataGenerator(rotation_range=30, zoom_range=0.15, 
                               width_shift_range=0.2, height_shift_range=0.2, 
                               shear_range=0.15, horizontal_flip=True, 
                               fill_mode="nearest")

train_generator = train_datagen.flow(trainX, trainY, batch_size=batch_size)

Example: If batch_size = 32 and steps_per_epoch = len(trainX) // batch_size

fit_generator(train_generator, steps_per_epoch=steps_per_epoch, epochs=10, verbose=1)

PART 3: ___________ .train_on_batch ________________

Use Cases: model.train_on_batch is used, when

  • batch of data can be any size- doesn’t require to define explicitly
  • want to take the entire control over model training

Function Input: Directly inputs(X), labels(Y).

Example: train_on_batch(x, y, sample_weight=None, class_weight=None, reset_metrics=True)

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  • do you have any affiliation with softmaxai?
    – user
    Nov 30, 2023 at 18:59
  • @starball, No, I don't. Is that yours? You need to update, as I find Copyright © 2022 SoftmaxAI All Rights Reserved. why 2022? Dec 2, 2023 at 9:51
  • it's not mine. see /help/promotion for why I asked you.
    – user
    Dec 2, 2023 at 10:01

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