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Hands-On GPU Programming with Python and CUDA

You're reading from   Hands-On GPU Programming with Python and CUDA Explore high-performance parallel computing with CUDA

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Product type Paperback
Published in Nov 2018
Publisher Packt
ISBN-13 9781788993913
Length 310 pages
Edition 1st Edition
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Author (1):
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Dr. Brian Tuomanen Dr. Brian Tuomanen
Author Profile Icon Dr. Brian Tuomanen
Dr. Brian Tuomanen
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Table of Contents (15) Chapters Close

Preface 1. Why GPU Programming? FREE CHAPTER 2. Setting Up Your GPU Programming Environment 3. Getting Started with PyCUDA 4. Kernels, Threads, Blocks, and Grids 5. Streams, Events, Contexts, and Concurrency 6. Debugging and Profiling Your CUDA Code 7. Using the CUDA Libraries with Scikit-CUDA 8. The CUDA Device Function Libraries and Thrust 9. Implementation of a Deep Neural Network 10. Working with Compiled GPU Code 11. Performance Optimization in CUDA 12. Where to Go from Here 13. Assessment 14. Other Books You May Enjoy

Performance Optimization in CUDA

In this penultimate chapter, we will cover some fairly advanced CUDA features that we can use for low-level performance optimizations. We will start by learning about dynamic parallelism, which allows kernels to launch and manage other kernels on the GPU, and see how we can use this to implement quicksort directly on the GPU. We will learn about vectorized memory access, which can be used to increase memory access speedups when reading from the GPU's global memory. We will then look at how we can use CUDA atomic operations, which are thread-safe functions that can operate on shared data without thread synchronization or mutex locks. We will learn about Warps, which are fundamental blocks of 32 or fewer threads, in which threads can read or write to each other's variables directly, and then make a brief foray into the world of PTX Assembly...

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