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ISBN
| 9789811361944 | |
DDC
| 004.11 | |
Tác giả CN
| Geshi, Masaaki | |
Nhan đề
| The Art of High Performance Computing for Computational Science, Vol. 1 : Techniques of Speedup and Parallelization for General Purposes / Masaaki Geshi | |
Lần xuất bản
| 1st ed. | |
Thông tin xuất bản
| Springer Singapore : Singapore, 2019 | |
Mô tả vật lý
| 219 pages : 119 illustrations, 39 illustrations in color. | |
Tóm tắt
| This book provides basic and practical techniques of parallel computing and related methods of numerical analysis for researchers who conduct numerical calculation and simulation. Although the techniques provided in this book are field-independent, these methods can be used in fields such as physics, chemistry, biology, earth sciences, space science, meteorology, disaster prevention, and manufacturing. In particular, those who develop software code in these areas will find this book useful. The contents are suitable for graduate students and researchers in computational science rather than novices at programming or informed experts in computer science. Starting with an introduction to the recent trends in computer architecture and parallel processing, Chapter 1 explains the basic knowledge of speedup programs with simple examples of numerical computing. Chapters 2 - 4 detail the basics of parallel programming, the message passing interface (MPI), and OpenMP and discuss hybrid parallelization techniques. Showing an actual example of adaptation, Chapter 5 gives an overview of performance tuning and communication optimizations. To deal with dense matrix calculations, Chapter 6 details the basics and practice of linear algebra calculation libraries BLAS and LAPACK, including some examples that can be easily reproduced by readers using free software. Focusing on sparse matrix calculations, Chapter 7 explains high performance algorithms for numerical linear algebra. Chapter 8 introduces the fast Fourier transform in large-scale systems from the basics. Chapter 9 explains optimization and related topics such as debug methods and version control systems. Chapter 10 discusses techniques for increasing computation accuracy as an essential topic in numerical calculation. This is the first of the two volumes that grew out of a series of lectures in the K computer project in Japan. The second volume will focus on advanced techniques and examples of applications in materials science. | |
Thuật ngữ chủ đề
| Chemistry | |
Thuật ngữ chủ đề
| Computer science | |
Thuật ngữ chủ đề
| Computer simulation | |
Khoa
| Khoa Công nghệ Thông tin | |
Địa chỉ
| Thư Viện Đại học Nguyễn Tất Thành |
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| 100 | |aGeshi, Masaaki |
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| 245 | |aThe Art of High Performance Computing for Computational Science, Vol. 1 : Techniques of Speedup and Parallelization for General Purposes / |cMasaaki Geshi |
|---|
| 250 | |a1st ed. |
|---|
| 260 | |aSpringer Singapore : |bSingapore, |c2019 |
|---|
| 300 | |a219 pages : |b119 illustrations, 39 illustrations in color. |
|---|
| 520 | |aThis book provides basic and practical techniques of parallel computing and related methods of numerical analysis for researchers who conduct numerical calculation and simulation. Although the techniques provided in this book are field-independent, these methods can be used in fields such as physics, chemistry, biology, earth sciences, space science, meteorology, disaster prevention, and manufacturing. In particular, those who develop software code in these areas will find this book useful. The contents are suitable for graduate students and researchers in computational science rather than novices at programming or informed experts in computer science. Starting with an introduction to the recent trends in computer architecture and parallel processing, Chapter 1 explains the basic knowledge of speedup programs with simple examples of numerical computing. Chapters 2 - 4 detail the basics of parallel programming, the message passing interface (MPI), and OpenMP and discuss hybrid parallelization techniques. Showing an actual example of adaptation, Chapter 5 gives an overview of performance tuning and communication optimizations. To deal with dense matrix calculations, Chapter 6 details the basics and practice of linear algebra calculation libraries BLAS and LAPACK, including some examples that can be easily reproduced by readers using free software. Focusing on sparse matrix calculations, Chapter 7 explains high performance algorithms for numerical linear algebra. Chapter 8 introduces the fast Fourier transform in large-scale systems from the basics. Chapter 9 explains optimization and related topics such as debug methods and version control systems. Chapter 10 discusses techniques for increasing computation accuracy as an essential topic in numerical calculation. This is the first of the two volumes that grew out of a series of lectures in the K computer project in Japan. The second volume will focus on advanced techniques and examples of applications in materials science. |
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| 650 | |aComputer science |
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| 650 | |aComputer simulation |
|---|
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| 852 | |aThư Viện Đại học Nguyễn Tất Thành |
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