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I'm trying to setup an image recognition CNN with TensorFlow 2.0. To be able to analyze my image augmentation I'd like to see the images I feed into the network in tensorboard.

Unfortunately, I cannot figure out, how to do this with TensorFlow 2.0 and Keras. I also didn't really find documentation on this.

For simplicity, I'm showing the code of an MNIST example. How would I add the image summary here?

import tensorflow as tf
(x_train, y_train), _ = tf.keras.datasets.mnist.load_data()

def scale(image, label):
    return tf.cast(image, tf.float32) / 255.0, label

def augment(image, label):
    return image, label  # do nothing atm

dataset = tf.data.Dataset.from_tensor_slices((x_train, y_train))
dataset = dataset.map(scale).map(augment).batch(32)

model = tf.keras.models.Sequential([
    tf.keras.layers.Flatten(input_shape=(28, 28)),
    tf.keras.layers.Dense(128, activation='relu'),
    tf.keras.layers.Dropout(0.2),
    tf.keras.layers.Dense(10, activation='softmax')
])

model.compile(optimizer='adam', loss='sparse_categorical_crossentropy', metrics=['accuracy'])
model.fit(dataset, epochs=5, callbacks=[tf.keras.callbacks.TensorBoard(log_dir='D:\\tmp\\test')])
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  • Does the code you have posted work with the older version of TF ? Apr 1, 2019 at 10:35
  • Yes, the code also runs with TF 1.13.1. However, the image summary is not in the code, since I don't know how to add it.
    – andy
    Apr 2, 2019 at 8:41
  • You could try to put this and this together for a possible solution. But when I tried using tf 1.x it wasn't straightforward. Apr 4, 2019 at 13:39
  • Here is a documentation about Tensorboard to use with TF 2.0 for Image data: Link
    – Tobias M.
    Apr 4, 2019 at 15:55
  • @TobiasM.: I don't see how I can use the callbacks to get create the summary of the input images of the model. Can you go into more detail? The documentation does not give such an example.
    – andy
    Apr 15, 2019 at 8:49

2 Answers 2

7
+50

Except providing an answer to your question I will make the code more TF2.0-like. If you have any questions/need clarification, please post a comment down below.

1. Loading data

I would advise to use Tensorflow Datasets library. There is absolutely no need to load data in numpy and transform it to tf.data.Dataset if one can do it in a single line:

import tensorflow_datasets as tfds

dataset = tfds.load("mnist", as_supervised=True, split=tfds.Split.TRAIN)

Line above will only return TRAIN split (read more about those here).

2. Define Augmentations and Summaries

In order to save images, one has to keep tf.summary.SummaryWriter object throughout each pass.

I have created a convenient wrapping class with __call__ method for easy usage with tf.data.Dataset's map capabilities:

import tensorflow as tf

class ExampleAugmentation:
    def __init__(self, logdir: str, max_images: int, name: str):
        self.file_writer = tf.summary.create_file_writer(logdir)
        self.max_images: int = max_images
        self.name: str = name
        self._counter: int = 0

    def __call__(self, image, label):
        augmented_image = tf.image.random_flip_left_right(
            tf.image.random_flip_up_down(image)
        )
        with self.file_writer.as_default():
            tf.summary.image(
                self.name,
                augmented_image,
                step=self._counter,
                max_outputs=self.max_images,
            )

        self._counter += 1
        return augmented_image, label

name will be the name under which each part of images will be saved. Which part you may ask - the part defined by max_outputs.

Say image in __call__ will have shape (32, 28, 28, 1), where the first dimension is batch, second width, third height and last channels (in case of MNIST only onel but this dimension is needed in tf.image augmentations). Furthermore, let's say max_outputs is specified as 4. In this case, only 4 first images from batch will be saved. Default value is 3, so you may set it as BATCH_SIZE to save every image.

In Tensorboard, each image will be a separate sample over which you can iterate at the end.

_counter is needed so the images will not be overwritten (I think, not really sure, clarification from someone else would be nice).

Important: You may want to rename this class to something like ImageSaver when doing more serious buisness and move augmentation to separate functors/lambda functions. It suffices for presentation purposes I guess.

3. Setup global variables

Please do not mix function declaration, global variables, data loading and others (like loading data and creating function afterwards). I know TF1.0 encouraged this type of programming but they are trying to get away from it and you might want to follow the trend.

Below I have defined some global variables which will be used throughout next parts, pretty self-explanatory I guess:

BATCH_SIZE = 32
DATASET_SIZE = 60000
EPOCHS = 5

LOG_DIR = "/logs/images"
AUGMENTATION = ExampleAugmentation(LOG_DIR, max_images=4, name="Images")

4. Dataset augmentation

Similar to yours but with a little twist:

dataset = (
    dataset.map(
        lambda image, label: (
            tf.image.convert_image_dtype(image, dtype=tf.float32),
            label,
        )
    )
    .batch(BATCH_SIZE)
    .map(AUGMENTATION)
    .repeat(EPOCHS)
)
  • repeat is needed as the loaded dataset is a generator
  • tf.image.convert_image_dtype - better and more readable option than explicit tf.cast mixed with division by 255 (and ensures proper image format)
  • batching done before augmentation just for the sake of presentation

5. Define model, compile, train

Almost as you did in your example, but I have provided additional steps_per_epoch, so fit knows how many batches constitute an epoch:

model = tf.keras.models.Sequential(
    [
        tf.keras.layers.Flatten(input_shape=(28, 28, 1)),
        tf.keras.layers.Dense(128, activation="relu"),
        tf.keras.layers.Dropout(0.2),
        tf.keras.layers.Dense(10, activation="softmax"),
    ]
)

model.compile(
    optimizer="adam", loss="sparse_categorical_crossentropy", metrics=["accuracy"]
)
model.fit(
    dataset,
    epochs=EPOCHS,
    steps_per_epoch=DATASET_SIZE // BATCH_SIZE,
    callbacks=[tf.keras.callbacks.TensorBoard(log_dir=LOG_DIR)],
)

Not much to explain other than that I think.

6. Run Tensorboard

Since TF2.0 one can do it inside colab using %tensorboard --logdir /logs/images, just wanted to add this for others who may visit this issue. Do it however you like, anyways you know how to do it for sure.

Images should be inside IMAGES and each sample named by name provided to AUGMENTATION object.

7. Whole code (to make everyone's life easier)

import tensorflow as tf
import tensorflow_datasets as tfds


class ExampleAugmentation:
    def __init__(self, logdir: str, max_images: int, name: str):
        self.file_writer = tf.summary.create_file_writer(logdir)
        self.max_images: int = max_images
        self.name: str = name
        self._counter: int = 0

    def __call__(self, image, label):
        augmented_image = tf.image.random_flip_left_right(
            tf.image.random_flip_up_down(image)
        )
        with self.file_writer.as_default():
            tf.summary.image(
                self.name,
                augmented_image,
                step=self._counter,
                max_outputs=self.max_images,
            )

        self._counter += 1
        return augmented_image, label


if __name__ == "__main__":

    # Global settings

    BATCH_SIZE = 32
    DATASET_SIZE = 60000
    EPOCHS = 5

    LOG_DIR = "/logs/images"
    AUGMENTATION = ExampleAugmentation(LOG_DIR, max_images=4, name="Images")

    # Dataset

    dataset = tfds.load("mnist", as_supervised=True, split=tfds.Split.TRAIN)

    dataset = (
        dataset.map(
            lambda image, label: (
                tf.image.convert_image_dtype(image, dtype=tf.float32),
                label,
            )
        )
        .batch(BATCH_SIZE)
        .map(AUGMENTATION)
        .repeat(EPOCHS)
    )

    # Model and training

    model = tf.keras.models.Sequential(
        [
            tf.keras.layers.Flatten(input_shape=(28, 28, 1)),
            tf.keras.layers.Dense(128, activation="relu"),
            tf.keras.layers.Dropout(0.2),
            tf.keras.layers.Dense(10, activation="softmax"),
        ]
    )

    model.compile(
        optimizer="adam", loss="sparse_categorical_crossentropy", metrics=["accuracy"]
    )
    model.fit(
        dataset,
        epochs=EPOCHS,
        steps_per_epoch=DATASET_SIZE // BATCH_SIZE,
        callbacks=[tf.keras.callbacks.TensorBoard(log_dir=LOG_DIR)],
    )
6
  • Is it recommended to install tensorflow_datasets or is it the same as using tf.keras.datasets.mnist.load_data() provided by the tensorflow module?
    – Kristof
    Aug 23, 2019 at 10:15
  • tensorflow_datasets returns tf.data.Dataset object which allows you to preprocess your data easier. numpy is not Tensorflow oriented. You can't use stuff like map or cache with plain arrays, so I would stick to tf.data.Dataset class at least. Aug 23, 2019 at 19:37
  • A typo: "... as to keep tf.summar(y).SummaryWriter ..."
    – Grwlf
    Nov 1, 2019 at 12:19
  • thanks for the example, very helpful. when I run this, all of the images show up in step 0, and running with more epochs doesn't produce more images logged to the tensorboard. is the counter not being incremented? Jan 23, 2020 at 21:03
  • @AlexShepard it should be and was when I last checked IIRC. If you find out why please comment on this answer, I will check it when I have more time. Jan 23, 2020 at 21:55
0

You could do something like this to add input image to tensorboard

def scale(image, label):
    return tf.cast(image, tf.float32) / 255.0, label


def augment(image, label):
    return image, label  # do nothing atm


file_writer = tf.summary.create_file_writer(logdir + "/images")


def plot_to_image(figure):
    buf = io.BytesIO()
    plt.savefig(buf, format='png')
    plt.close(figure)
    buf.seek(0)
    image = tf.image.decode_png(buf.getvalue(), channels=4)
    image = tf.expand_dims(image, 0)
    return image


def image_grid():
    """Return a 5x5 grid of the MNIST images as a matplotlib figure."""
    # Create a figure to contain the plot.
    figure = plt.figure(figsize=(10, 10))
    for i in range(25):
        # Start next subplot.
        plt.subplot(5, 5, i + 1, title=str(y_train[i]))
        plt.xticks([])
        plt.yticks([])
        plt.grid(False)
        image, _ = scale(x_train[i], y_train[i])
        plt.imshow(x_train[i], cmap=plt.cm.binary)

    return figure


# Prepare the plot
figure = image_grid()
# Convert to image and log
with file_writer.as_default():
    tf.summary.image("Training data", plot_to_image(figure), step=0)

dataset = tf.data.Dataset.from_tensor_slices((x_train, y_train))
dataset = dataset.map(scale).map(augment).batch(32)

model = tf.keras.models.Sequential([
    tf.keras.layers.Flatten(input_shape=(28, 28)),
    tf.keras.layers.Dense(128, activation='relu'),
    tf.keras.layers.Dropout(0.2),
    tf.keras.layers.Dense(10, activation='softmax')
])

model.compile(optimizer='adam', loss='sparse_categorical_crossentropy', metrics=['accuracy'])

model.fit(dataset, epochs=5, callbacks=[tf.keras.callbacks.TensorBoard(log_dir=logdir)])
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  • 1
    Sorry, but this does not answer my question at all. I asked how I can show the input images fed into my network. I already found this example, but it only shows an arbitray other image instead of the images fed into the network.
    – andy
    Apr 17, 2019 at 8:13
  • I've updated the code to add summary in tensorboard Apr 17, 2019 at 9:54
  • Thx, for your effort! But I don't want to simply write the first 25 images to tensorboard. Instead I want to write the summary during training, so I can see examples of the actual images fed into the network. E.g. if I apply data augmentation, I want to track the images the network actually gets to see during the whole training. With standard tensorflow this wasn't a problem. I wonder how I can do this with keras and TF 2.0.
    – andy
    Apr 17, 2019 at 11:54

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