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Distributed Data Systems with Azure Databricks

You're reading from   Distributed Data Systems with Azure Databricks Create, deploy, and manage enterprise data pipelines

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Product type Paperback
Published in May 2021
Publisher Packt
ISBN-13 9781838647216
Length 414 pages
Edition 1st Edition
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Author (1):
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Alan Bernardo Palacio Alan Bernardo Palacio
Author Profile Icon Alan Bernardo Palacio
Alan Bernardo Palacio
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Table of Contents (17) Chapters Close

Preface 1. Section 1: Introducing Databricks
2. Chapter 1: Introduction to Azure Databricks FREE CHAPTER 3. Chapter 2: Creating an Azure Databricks Workspace 4. Section 2: Data Pipelines with Databricks
5. Chapter 3: Creating ETL Operations with Azure Databricks 6. Chapter 4: Delta Lake with Azure Databricks 7. Chapter 5: Introducing Delta Engine 8. Chapter 6: Introducing Structured Streaming 9. Section 3: Machine and Deep Learning with Databricks
10. Chapter 7: Using Python Libraries in Azure Databricks 11. Chapter 8: Databricks Runtime for Machine Learning 12. Chapter 9: Databricks Runtime for Deep Learning 13. Chapter 10: Model Tracking and Tuning in Azure Databricks 14. Chapter 11: Managing and Serving Models with MLflow and MLeap 15. Chapter 12: Distributed Deep Learning in Azure Databricks 16. Other Books You May Enjoy

Using the Horovod distributed learning library in Azure Databricks

horovod is a library for distributed deep learning training. It supports commonly used frameworks such as TensorFlow, Keras, and PyTorch. As mentioned before, it is based on the tensorflow-allreduce library and implements the ring allreduce algorithm in order to ease the migration from single-graphics processing unit (GPU) training to parallel-GPU distributed training.

In order to do this, we adapt a single-GPU training script of a deep learning model to use the horovod library during the training process. Once we have adapted the script, it can run on single or multiple GPUs without changes to the code.

The horovod library uses a data parallelization strategy by allowing efficient distribution of the training to multiple GPUs in parallel in an optimized way, by implementing the ring allreduce algorithm to overcome communication limitations.

It is implemented in a way that each GPU gets a mini-batch of data...

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