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Tensorflow Project Template

A simple and well designed structure is essential for any Deep Learning project, so after a lot of practice and contributing in tensorflow projects here's a tensorflow project template that combines simplcity, best practice for folder structure and good OOP design. The main idea is that there's much stuff you do every time you start your tensorflow project, so wrapping all this shared stuff will help you to change just the core idea every time you start a new tensorflow project.

So, here's a simple tensorflow template that help you get into your main project faster and just focus on your core (Model, Training, ...etc)

Table Of Contents

In a Nutshell

In a nutshell here's how to use this template, so for example assume you want to implement VGG model so you should do the following:

  • In models folder create a class named VGG that inherit the "base_model" class
    class VGGModel(BaseModel):
        def __init__(self, config):
            super(VGGModel, self).__init__(config)
            #call the build_model and init_saver functions.
  • Override these two functions "build_model" where you implement the vgg model, and "init_saver" where you define a tensorflow saver, then call them in the initalizer.
     def build_model(self):
        # here you build the tensorflow graph of any model you want and also define the loss.
     def init_saver(self):
        # here you initalize the tensorflow saver that will be used in saving the checkpoints.
        self.saver = tf.train.Saver(max_to_keep=self.config.max_to_keep)
  • In trainers folder create a VGG trainer that inherit from "base_train" class
    class VGGTrainer(BaseTrain):
        def __init__(self, sess, model, data, config, logger):
            super(VGGTrainer, self).__init__(sess, model, data, config, logger)
  • Override these two functions "train_step", "train_epoch" where you write the logic of the training process
    def train_epoch(self):
       implement the logic of epoch:
       -loop on the number of iterations in the config and call the train step
       -add any summaries you want using the summary

    def train_step(self):
       implement the logic of the train step
       - run the tensorflow session
       - return any metrics you need to summarize
  • In main file, you create the session and instances of the following objects "Model", "Logger", "Data_Generator", "Trainer", and config
    sess = tf.Session()
    # create instance of the model you want
    model = VGGModel(config)
    # create your data generator
    data = DataGenerator(config)
    # create tensorboard logger
    logger = Logger(sess, config)
  • Pass the all these objects to the trainer object, and start your training by calling "trainer.train()"
    trainer = VGGTrainer(sess, model, data, config, logger)

    # here you train your model

You will find a template file and a simple example in the model and trainer folder that shows you how to try your first model simply.

In Details

Project architecture

Folder structure

├──  base
│   ├──   - this file contains the abstract class of the model.
│   └──   - this file contains the abstract class of the trainer.
├── model               - this folder contains any model of your project.
│   └──
├── trainer             - this folder contains trainers of your project.
│   └──
├──  mains              - here's the main(s) of your project (you may need more than one main).
│    └──  - here's an example of main that is responsible for the whole pipeline.

├──  data _loader  
│    └──  - here's the data_generator that is responsible for all data handling.
└── utils
     └── any_other_utils_you_need

Main Components


  • Base model

    Base model is an abstract class that must be Inherited by any model you create, the idea behind this is that there's much shared stuff between all models. The base model contains:

    • Save -This function to save a checkpoint to the desk.
    • Load -This function to load a checkpoint from the desk.
    • Cur_epoch, Global_step counters -These variables to keep track of the current epoch and global step.
    • Init_Saver An abstract function to initialize the saver used for saving and loading the checkpoint, Note: override this function in the model you want to implement.
    • Build_model Here's an abstract function to define the model, Note: override this function in the model you want to implement.
  • Your model

    Here's where you implement your model. So you should :

    • Create your model class and inherit the base_model class
    • override "build_model" where you write the tensorflow model you want
    • override "init_save" where you create a tensorflow saver to use it to save and load checkpoint
    • call the "build_model" and "init_saver" in the initializer.


  • Base trainer

    Base trainer is an abstract class that just wrap the training process.

  • Your trainer

    Here's what you should implement in your trainer.

    1. Create your trainer class and inherit the base_trainer class.
    2. override these two functions "train_step", "train_epoch" where you implement the training process of each step and each epoch.

Data Loader

This class is responsible for all data handling and processing and provide an easy interface that can be used by the trainer.


This class is responsible for the tensorboard summary, in your trainer create a dictionary of all tensorflow variables you want to summarize then pass this dictionary to logger.summarize().


I use Json as configuration method and then parse it, so write all configs you want then parse it using "utils/config/process_config" and pass this configuration object to all other objects.


Here's where you combine all previous part.

  1. Parse the config file.
  2. Create a tensorflow session.
  3. Create an instance of "Model", "Data_Generator" and "Logger" and parse the config to all of them.
  4. Create an instance of "Trainer" and pass all previous objects to it.
  5. Now you can train your model by calling "Trainer.train()"

Future Work

  • Replace the data loader part with new tensorflow dataset API.


Any kind of enhancement or contribution is welcomed.


Thanks for my colleague Mo'men Abdelrazek for contributing in this work. and thanks for Mohamed Zahran for the review. Thanks for Jtoy for including the repo in Awesome Tensorflow.