A Complete Guide on TensorFlow 2.0 using Keras API
What you will learn
- How to use Tensorflow 2.0 in Data Science
- Important differences between Tensorflow 1.x and Tensorflow 2.0
- How to implement Artificial Neural Networks in Tensorflow 2.0
- How to implement Convolutional Neural Networks in Tensorflow 2.0
- How to implement Recurrent Neural Networks in Tensorflow 2.0
- How to build your own Transfer Learning application in Tensorflow 2.0
- How to build a stock market trading bot using Reinforcement Learning (Deep-Q Network)
- How to build Machine Learning Pipeline in Tensorflow 2.0
- How to conduct Data Validation and Dataset Preprocessing using TensorFlow Data Validation and TensorFlow Transform.
- Putting a TensorFlow 2.0 model into production
- How to create a Fashion API with Flask and TensorFlow 2.0
- How to serve a TensorFlow model with RESTful API
Section 1: Introduction
Section 2: TensorFlow 2.0 Basics
Section 3: Artificial Neural Networks
Section 4: Convolutional Neural Networks
Section 5: Recurrent Neural Networks
Section 6: Transfer Learning and Fine Tuning
Section 7: Deep Reinforcement Learning Theory
Section 8: Deep Reinforcement Learning for Stock Market trading
Section 9: Data Validation with TensorFlow Data Validation (TFDV)
Section 10: Dataset Preprocessing with TensorFlow Transform (TFT)
Section 11: Fashion API with Flask and TensorFlow 2.0
Section 12: Image Classification API with TensorFlow Serving
Section 13: TensorFlow Lite: Prepare a model for a mobile device
Section 14: Distributed Training with TensorFlow 2.0
Section 15: Annex 1 - Artificial Neural Networks Theory
Section 16: Annex 2 - Convolutional Neural Networks Theory
Section 17: Annex 3 - Recurrent Neural Networks Theory
Build Amazing Applications of Deep Learning and Artificial Intelligence in TensorFlow 2.0
- Some maths basics like knowing what is a differentiation or a gradient
- Python basics
Welcome to Tensorflow 2.0!
TensorFlow 2.0 has just been released, and it introduced many features that simplify the model development and maintenance processes. From the educational side, it boosts people's understanding by simplifying many complex concepts. From the industry point of view, models are much easier to understand, maintain, and develop.
Deep Learning is one of the fastest growing areas of Artificial Intelligence. In the past few years, we have proven that Deep Learning models, even the simplest ones, can solve very hard and complex tasks. Now, that the buzz-word period of Deep Learning has, partially, passed, people are releasing its power and potential for their product improvements.
The course is structured in a way to cover all topics from neural network modeling and training to put it in production.
In Part 1 of the course, you will learn about the technology stack that we will use throughout the course (Section 1) and the TensorFlow 2.0 library basics and syntax (Section 2).
In Part 2 of the course, we will dig into the exciting world of deep learning. Through this part of the course, you will implement several types of neural networks (Fully Connected Neural Network (Section 3), Convolutional Neural Network (Section 4), Recurrent Neural Network (Section 5)). At the end of this part, Section 6, you will learn and build their own Transfer Learning application that achieves state of the art (SOTA) results on the Dogs vs. Cats dataset.
After passing the part 2 of the course and ultimately learning how to implement neural networks, in Part 3 of the course, you will learn how to make your own Stock Market trading bot using Reinforcement Learning, specifically Deep-Q Network.
Part 4 is all about TensorFlow Extended (TFX). In this part of the course, you will learn how to work with data and create your own data pipelines for production. In Section 8 we will check if the dataset has any anomalies using the TensorFlow Data Validation library and after learn how to check a dataset for anomalies, in Section 9, we will make our own data preprocessing pipeline using the TensorFlow Transform library.
In Section 10 of the course, you will learn and create your own Fashion API using the Flask Python library and a pre-trained model. Throughout this section, you will get a better picture of how to send a request to a model over the internet. However, at this stage, the architecture around the model is not scalable to millions of request. Enter the Section 11. In this section of the course, you will learn how to improve solution from the previous section by using the TensorFlow Serving library. In a very easy way, you will learn and create your own Image Classification API that can support millions of requests per day!
These days it is becoming more and more popular to have a Deep Learning model inside an Android or iOS application, but neural networks require a lot of power and resources! That's where the TensorFlow Lite library comes into play. In Section 12 of the course, you will learn how to optimize and convert any neural network to be suitable for a mobile device.
To conclude with the learning process and the Part 5 of the course, in Section 13 you will learn how to distribute the training of any Neural Network to multiple GPUs or even Servers using the TensorFlow 2.0 library.
Who this course is for:
- Deep Learning Engineers who want to learn Tensorflow 2.0
- Artificial Intelligence Engineers who want to expand their Deep Learning stack skills
- Computer Scientists who want to enter the exciting area of Deep Learning and Artificial Intelligence
- Data Scientists who want to take their AI Skills to the next level
- AI experts who want to expand on the field of applications
- Python Developers who want to enter the exciting area of Deep Learning and Artificial Intelligence
- Engineers who work in technology and automation
- Businessmen and companies who want to get ahead of the game
- Students in tech-related programs who want to pursue a career in Data Science, Machine Learning, or Artificial Intelligence
- Anyone passionate about Artificial Intelligence