You're reading from Distributed Machine Learning with Python Accelerating model training and serving with distributed systems

Product type Paperback

Published in Apr 2022

Publisher Packt

ISBN-13 9781801815697

Length 284 pages

Edition 1st Edition

Languages

Python

Tools

PyTorch

Concepts

Machine Learning

Author (1):

Guanhua Wang

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Table of Contents (17) Chapters

Preface

1. Section 1 – Data Parallelism

2. Chapter 1: Splitting Input Data FREE CHAPTER

3. Chapter 2: Parameter Server and All-Reduce

4. Chapter 3: Building a Data Parallel Training and Serving Pipeline

5. Chapter 4: Bottlenecks and Solutions

6. Section 2 – Model Parallelism

7. Chapter 5: Splitting the Model

8. Chapter 6: Pipeline Input and Layer Split

9. Chapter 7: Implementing Model Parallel Training and Serving Workflows

10. Chapter 8: Achieving Higher Throughput and Lower Latency

11. Section 3 – Advanced Parallelism Paradigms

12. Chapter 9: A Hybrid of Data and Model Parallelism

13. Chapter 10: Federated Learning and Edge Devices

14. Chapter 11: Elastic Model Training and Serving

15. Chapter 12: Advanced Techniques for Further Speed-Ups

16. Other Books You May Enjoy

Chapter 7: Implementing Model Parallel Training and Serving Workflows

In this chapter, we will discuss how to implement a simple model parallelism pipeline. As opposed to data parallelism, where each GPU holds a full copy of a model, in model parallelism, we need to split a model properly among all GPUs in use.

Before diving into the details, we'll qualify our discussion with the following assumptions about both hardware and workload:

We will use homogenous GPUs for the same model parallel training or serving job.
Each model training or serving task will occupy the whole hardware exclusively, which means there will be no preemption or interruption during the running of our model training or serving task.
For GPUs within a machine, they are connected with either PCIe, NVLink, or NVSwitch.
For GPUs among different machines, they are connected with general Ethernet links of 10 Gbps to 100 Gbps bandwidth.
For the model parallel training part, we will mainly...

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You're reading from Distributed Machine Learning with Python Accelerating model training and serving with distributed systems

Table of Contents (17) Chapters

Chapter 7: Implementing Model Parallel Training and Serving Workflows

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You're reading from Distributed Machine Learning with Python Accelerating model training and serving with distributed systems

Table of Contents (17) Chapters

Chapter 7: Implementing Model Parallel Training and Serving Workflows

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