Hands-On GPU Programming with Python and CUDA: Explore high-performance parallel computing with CUDA
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Hands-On GPU Programming with Python and CUDA: Explore high-performance parallel computing with CUDA
Dr. Brian Tuomanen is an expert in CUDA and General-Purpose GPU Programming
Hands-On GPU Programming with Python and CUDA: Explore high-performance parallel computing with CUDA
Numéro d'article: 18642590

Hands-On GPU Programming with Python and CUDA: Explore high-performance parallel computing with CUDA

Numéro d'article: 18642590

KMF 32708

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Dr. Brian Tuomanen is an expert in CUDA and General-Purpose GPU Programming
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Ce qui se démarque

Practical Approach
Provides hands-on projects enabling learners to apply GPU programming concepts immediately, ensuring better understanding and retention of Python and CUDA programming techniques.
Comprehensive Resources
Offers extensive resources, including code examples and case studies, making complex GPU programming more accessible for both beginners and experienced developers alike.
Expert Insights
Written by industry professionals, the book features insights and best practices from real-world applications, helping readers to stay updated with the latest trends in GPU programming.

Détails du produit

Shop Hands-On GPU Programming with Python and CUDA: Explore high-performance parallel computing with CUDA online at a best price in Comoros. 1788993918
  • Expert author with extensive experience in CUDA and GPU programming
  • Bachelor's degree in Electrical Engineering from the University of Washington
  • Ph.D. in Mathematics from the University of Missouri
  • In-depth knowledge of high-performance parallel computing with CUDA
  • Previous experience in GPU integration and development at a start-up company
  • Speaker at the US Army Research Lab on General Purpose GPU programming
Item Weight1.2 lbs (540 grams)

À qui est-ce destiné ?

Suitable For
  • Data Scientists

    Ideal for data scientists looking to accelerate their computations and implement machine learning algorithms using GPU processing.

  • Students Learning

    Perfect for students who want to learn GPU programming and apply concepts using practical Python examples in CUDA.

  • AI Researchers

    Beneficial for AI researchers focused on optimizing deep learning models through the efficient use of GPU architectures.

Not Suitable For
  • Beginners in Programming

    Not suitable for complete programming novices without prior experience in Python or understanding of GPU concepts.

  • Casual Users

    Not recommended for casual users looking for basic computing solutions without the need for advanced programming skills.

  • Non-Technical Managers

    Unsuitable for managers or professionals who do not require hands-on programming or technical details involving GPU frameworks.

DESCRIPTION DU PRODUIT

Hands-On GPU Programming with Python and CUDA: Explore high-performance parallel computing with CUDA

Vous avez une question ? Chattez avec nous

Questions et réponses des clients

  • question: What prerequisites do I need to start with Hands-On GPU Programming with Python and CUDA?

    répondre: To effectively engage with Hands-On GPU Programming with Python and CUDA, having a background in Python programming and a basic understanding of computer architecture is essential. Familiarity with linear algebra concepts can also enhance your learning experience, as these concepts are often applied in GPU programming. This foundational knowledge will help you grasp the intricacies of parallel programming techniques and how to optimize code for better performance on GPU architectures.
  • question: Is this book suitable for beginners in GPU programming?

    répondre: Yes, this book is suitable for beginners who have a basic Python programming knowledge. The content is structured to guide readers through fundamental concepts of GPU programming and CUDA. It introduces core principles and gradually builds upon them, with practical examples to reinforce learning, making it an excellent choice for those starting out and looking to deepen their understanding of GPU technology.
  • question: What topics are covered in this book?

    répondre: Hands-On GPU Programming with Python and CUDA covers a wide range of topics including the fundamentals of GPU architecture, setting up the CUDA development environment, parallel programming concepts, optimization techniques, and hands-on projects. Additionally, it dives into real-world applications of GPU programming in fields such as deep learning, computer vision, and scientific computing, enabling readers to apply their skills in various practical scenarios.
  • question: How does this book facilitate hands-on learning?

    répondre: The book is designed with a hands-on approach, featuring coding examples, exercises, and projects that encourage practical implementation. Readers can follow along with the examples while working through exercises that reinforce their understanding. This interactive learning style enables learners to not only read and comprehend theoretical aspects but also directly apply their knowledge by coding real GPU-accelerated applications.
  • question: Can I use this book for self-study?

    répondre: Absolutely! This book is specifically crafted for self-study, allowing learners to progress at their own pace. With clear explanations, practical examples, and review questions at the end of each chapter, independent learners can effectively grasp GPU programming concepts. Whether you're coming from a software development background or are new to the field, the structure facilitates a self-contained educational experience.
  • question: What programming languages are primarily used in the book?

    répondre: The primary programming language used in this book is Python, along with CUDA for GPU programming. The combination allows readers to leverage Python’s simplicity and flexibility while harnessing the power of CUDA to optimize performance. This dual-language approach caters to Python developers who want to step into the world of GPU programming, making it accessible without overwhelming newcomers with complex syntax.
  • question: Are there any online resources or communities associated with this book?

    répondre: Yes, readers can find online resources such as forums, tutorials, and relevant coding communities that discuss GPU programming and CUDA techniques. Joining platforms like GitHub or Stack Overflow can provide additional support and exchange ideas with peers. Engaging with these communities enhances the learning experience with real-world discussions and additional project opportunities that relate to the book's content.
  • question: What kind of projects can I expect to create after reading this book?

    répondre: After completing the book, readers can expect to create various projects that leverage GPU acceleration. This includes applications in machine learning, real-time image processing, or scientific simulations. By applying the knowledge gained from the book, you'll be able to tackle projects that require intensive computation and can produce significant performance improvements by utilizing GPU capabilities.
  • question: Can this book help me in my career in data science or AI?

    répondre: Definitely! With the increasing reliance on GPU acceleration in data science and artificial intelligence, knowledge of GPU programming is a valuable asset. This book equips you with essential skills to implement machine learning models and optimize data processing tasks, enhancing your resume. Proficiency in these areas is in high demand, making you a more competitive candidate in technology-focused roles.
  • question: Where can I buy Hands-On GPU Programming with Python and CUDA in Comoros?

    répondre: You can buy Hands-On GPU Programming with Python and CUDA at Ubuy. Ubuy offers a seamless shopping experience, providing access to various educational resources, including programming books, through an intuitive platform. Browse Ubuy to find this title and expand your library with essential programming knowledge.

Parallel Programming Editorial Review

**Editorial Review** "Hands-On GPU Programming with Python and CUDA" has been well-received by its users, particularly for its practical application and comprehensive coverage of GPU programming. Reviewers Consistently emphasize the book's clarity and thoroughness, making it an invaluable resource for both beginner programmers and seasoned engineers. The step-by-step approach allows users to seamlessly implement high-performance heterogeneous computing programs in Python, thereby enhancing productivity and illustrating the power of GPU acceleration without compromising the user-friendly nature of Python's development environment. Many users noted that the book utilizes PyCUDA, which facilitates programming on platforms such as Google Colab with GPU runtimes—an attractive feature for those who might not have access to NVIDIA GPUs. While the current code is predominantly in Python 2, several reviewers acknowledged the need for adaptation to Python 3, along with existing resources to assist with this transition. The author's commitment to customer support has also been highlighted positively, particularly when a reviewer reached out for help while waiting for an updated edition. This responsiveness adds a personal touch that fosters a sense of community among readers. Importantly, beyond the practical implementation of code, the book delves into the theoretical Constructs of CUDA C and the principles of massively parallelized systems design, appealing to a wide range of readers, including researchers and application developers. Overall, the book has been lauded as an essential guide for anyone aiming to enhance performance in GPU-centric applications or gain a deep understanding of GPU programming concepts. **

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Avantages

  • Comprehensive and clear explanations of GPU programming fundamentals.
  • Practical hands-on coding examples using PyCUDA.
  • Suitable for both beginners and experienced programmers.
  • Excellent support and communication from the author.
  • Ideal for maximizing performance in GPU applications.

Les inconvénients

  • Primarily written in Python 2, which may require users to adapt code for Python 3.

Historique des prix du produit

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KMF 32708

Commandez maintenant et recevez votre commande aux alentours du Jeudi, Juin 25

QTY:

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Ubuy s'engage à protéger votre sécurité et votre confidentialité. Notre système avancé de sécurité des paiements garantit la confidentialité en chiffrant vos informations lors de la transmission grâce aux protocoles AES (Advanced Encryption Standards) et SSL (Secure Socket Layer). Vos coordonnées de paiement sont 100 % sécurisées car nous ne partageons pas vos informations de paiement avec des vendeurs tiers.

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Caractéristiques et avantages

  • Bachelor of Science in Electrical Engineering from the University of Washington
  • Completed his PhD in Mathematics at the University of Missouri
  • Has spoken at the US Army Research Lab about GPU programming
  • Lead GPU integration and development at a Maryland based startup
  • Currently lives and works in the Seattle area