Advanced Machine Learning with TensorFlow on Google Cloud Platform (MLTF)

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Course Overview

This course will give you hands-on experience optimizing, deploying, and scaling a variety of production ML models. You’ll learn how to build scalable, accurate, and production-ready models for structured data, image data, time-series, and natural language text, along with recommendation systems.

Who Should Attend

Data Engineers and programmers interested in learning how to apply machine learning in practice. Anyone interested in learning how to build and operationalize TensorFlow models.

Course Objectives

    • Implement the various flavors of production ML systems—static, dynamic, and continuous training; static and dynamic inference; and batch and online processing
    • Solve an ML problem by building an end-to-end pipeline, going from data exploration, preprocessing, feature engineering, model building, hyperparameter tuning, deployment, and serving
    • Develop a range of image classification models from simple linear models to high-performing convolutional neural networks (CNNs) with batch normalization, augmentation, and transfer learning
    • Forecast time-series values using CNNs, recurrent neural networks (RNNs), and LSTMs
    • Apply ML to natural language text using CNNs, RNNs, LSTMs, reusable word embeddings, and encoder-decoder generative models
    • Implement content-based, collaborative, hybrid, and neural recommendation models in TensorFlow

Course Outline

1 - Machine Learning on Google Cloud Platform

  • Effective ML
  • Fully Managed ML

2 - Explore the Data

  • Exploring the Dataset
  • BigQuery
  • BigQuery and AI Platform Notebooks

3 - Creating the Dataset

  • Creating a Dataset

4 - Build the Model
  • Build the Model

5 - Operationalize the Model

  • Operationalizing the Model
  • Cloud AI Platform
  • Train and Deploy with Cloud AI Platform
  • BigQuery ML
  • Deploying and Predicting with Cloud AI Platform

6 - Architecting Production ML Systems

  • The Components of an ML System
  • The Components of an ML System: Data Analysis and Validation
  • The Components of an ML System: Data Transformation + Trainer
  • The Components of an ML System: Tuner + Model Evaluation and Validation
  • The Components of an ML System: Serving
  • The Components of an ML System: Orchestration + Workflow
  • The Components of an ML System: Integrated Frontend + Storage
  • Training Design Decisions
  • Serving Design Decisions
  • Designing from Scratch

7 - Ingesting Data for Cloud-Based Analytics and ML

  • Data On-Premises
  • Large Datasets
  • Data on Other Clouds
  • Existing Databases

8 - Designing Adaptable ML Systems

  • Adapting to Data
  • Changing Distributions
  • Right and Wrong Decisions
  • System Failure
  • Mitigating Training-Serving Skew Through Design
  • Debugging a Production Model

9 - Designing High-Performance ML Systems

  • Training
  • Predictions
  • Why Distributed Training?
  • Distributed Training Architectures
  • Faster Input Pipelines
  • Native TensorFlow Operations
  • TensorFlow Records
  • Parallel Pipelines
  • Data Parallelism with All Reduce
  • Parameter Server Approach
  • Inference

10 - Hybrid ML Systems

  • Machine Learning on Hybrid Cloud
  • KubeFlow
  • Embedded Models
  • TensorFlow Lite
  • Optimizing for Mobile

11 - Welcome to Image

    Understanding with TensorFlow on GCP
  • Images as Visual Data
  • Structured vs. Unstructured Data

12 - Linear and DNN Models

  • Linear Models
  • DNN Models Review
  • Review: What is Dropout?

13 - Convolutional Neural Networks (CNNs)

  • Understanding Convolutions
  • CNN Model Parameters
  • Working with Pooling Layers
  • Implementing CNNs with TensorFlow

14 - Dealing with Data Scarcity

  • The Data Scarcity Problem
  • Data Augmentation
  • Transfer Learning
  • No Data, No Problem

15 - Going Deeper Faster

  • Batch Normalization
  • Residual Networks
  • Accelerators (CPU vs GPU, TPU)
  • TPU Estimator
  • Neural Architecture Search

16 - Pre-built ML Models for Image Classification

  • Pre-Built ML Models
  • Cloud Vision API
  • AutoML Vision
  • AutoML Architecture

17 - Working with Sequences

  • Sequence Data and Models
  • From Sequences to Inputs
  • Modeling Sequences with Linear Models
  • Modeling Sequences with DNNs
  • Modeling Sequences with CNNs
  • The Variable-Length problem

18 - Recurrent Neural Networks

  • Introducing Recurrent Neural Networks
  • How RNNs Represent the Past
  • The Limits of What RNNs Can Represent
  • The Vanishing Gradient Problem

19 - Dealing with Longer Sequences

  • LSTMs and GRUs
  • RNNs in TensorFlow
  • Deep RNNs
  • Improving our Loss Function
  • Working with Real Data

20 - Text Classification

  • Working with Text
  • Text Classification
  • Selecting a Model
  • Python vs Native TensorFlow

21 - Reusable Embeddings

  • Historical Methods of Making Word Embeddings
  • Modern Methods of Making Word Embeddings
  • Introducing TensorFlow Hub
  • Using TensorFlow Hub Within an Estimator

22 - Recurrent Neural NetworksEncoder-Decoder Models

  • Introducing Encoder-Decoder Networks
  • Attention Networks
  • Training Encoder-Decoder Models with TensorFlow
  • Introducing Tensor2Tensor
  • AutoML Translation
  • Dialogflow

23 - Recommendation Systems Overview

  • Types of Recommendation Systems
  • Content-Based or Collaborative
  • Recommendation System Pitfalls

24 - Content-Based Recommendation Systems

  • Content-Based Recommendation Systems
  • Similarity Measures
  • Building a User Vector
  • Making Recommendations Using a User Vector
  • Making Recommendations for Many Users
  • Using Neural Networks for Content-Based Recommendation Systems

25 - Collaborative Filtering

    Recommendation Systems
  • Types of User Feedback Data
  • Embedding Users and Items
  • Factorization Approaches
  • The ALS Algorithm
  • Preparing Input Data for ALS
  • Creating Sparse Tensors For Efficient WALS Input
  • Instantiating a WALS Estimator: From Input to Estimator
  • Instantiating a WAL Estimator: Decoding TFRecords
  • Instantiating a WALS Estimator: Recovering Keys
  • Instantiating a WALS Estimator: Training and Prediction
  • Issues with Collaborative Filtering
  • Cold Starts

26 - Neural Networks for Recommendation Systems

  • Hybrid Recommendation System
  • Context-Aware Recommendation Systems
  • Context-Aware Algorithms
  • Contextual Postfiltering
  • Modeling Using Context-Aware Algorithms

27 - Building an End-to-End Recommendation System

  • Architecture Overview
  • Cloud Composer Overview
  • Cloud Composer: DAGs
  • Cloud Composer: Operators for ML9
  • Cloud Composer: Scheduling
  • Cloud Composer: Triggering Workflows with Cloud Functions
  • Cloud Composer: Monitoring and Logging

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Class Dates & Times

Class times are listed Mountain time

This is a 5-day class

Price (CAD): $4,103.15

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