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Hands-On GPU Computing with Python

You're reading from   Hands-On GPU Computing with Python Explore the capabilities of GPUs for solving high performance computational problems

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Product type Paperback
Published in May 2019
Publisher Packt
ISBN-13 9781789341072
Length 452 pages
Edition 1st Edition
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Author (1):
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Avimanyu Bandyopadhyay Avimanyu Bandyopadhyay
Author Profile Icon Avimanyu Bandyopadhyay
Avimanyu Bandyopadhyay
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Table of Contents (17) Chapters Close

Preface 1. Section 1: Computing with GPUs Introduction, Fundamental Concepts, and Hardware
2. Introducing GPU Computing FREE CHAPTER 3. Designing a GPU Computing Strategy 4. Setting Up a GPU Computing Platform with NVIDIA and AMD 5. Section 2: Hands-On Development with GPU Programming
6. Fundamentals of GPU Programming 7. Setting Up Your Environment for GPU Programming 8. Working with CUDA and PyCUDA 9. Working with ROCm and PyOpenCL 10. Working with Anaconda, CuPy, and Numba for GPUs 11. Section 3: Containerization and Machine Learning with GPU-Powered Python
12. Containerization on GPU-Enabled Platforms 13. Accelerated Machine Learning on GPUs 14. GPU Acceleration for Scientific Applications Using DeepChem 15. Other Books You May Enjoy Appendix A

Comparing PyCUDA to CUDA – an introductory perspective on reduction

Let's compare PyCUDA to CUDA in terms of simplicity in parallelization before we write our first PyCUDA program on PyCharm.

In the following table, we can explore the scope of PyCUDA with respect to CUDA so as to understand scenarios when PyCUDA could be advantageous to CUDA:

CUDA

PyCUDA

Based on C/C++ programming language

Based on the Python programming language

Uses C/C++ combined with specialized code to accelerate computations

Uses Python for GPUs to interface CUDA and accelerate computations

Reduction is a key feature in CUDA that is extremely important to maximize parallelization and efficiently harness threads.

Reduction in PyCUDA is much simpler to use than CUDA, considering the significance of reduction.

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