Parallel Computer Organization and Design (H) (絕)
- 20本以上,享 8.5折
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- 一般書籍
- ISBN:9780521886758
- 作者:Michel Dubois, Murali Annavaram, Per Stenstrom
- 版次:1
- 年份:2012
- 出版商:Cambridge University
- 頁數/規格:542頁/精裝單色
書籍介紹
本書特色
目錄
作者介紹
Description
Teaching fundamental design concepts and the challenges of emerging technology, this textbook prepares students for a career designing the computer systems of the future. In-depth coverage of complexity, power, reliability and performance, coupled with treatment of parallelism at all levels, including ILP and TLP, provides the state-of-the-art training that students need. The whole gamut of parallel architecture design options is explained, from core microarchitecture to chip multiprocessors to large-scale multiprocessor systems. All the chapters are self-contained, yet concise enough that the material can be taught in a single semester, making it perfect for use in senior undergraduate and graduate computer architecture courses. The book is also teeming with practical examples to aid the learning process, showing concrete applications of definitions. With simple models and codes used throughout, all material is made open to a broad range of computer engineering/science students with only a basic knowledge of hardware and software.
Teaching fundamental design concepts and the challenges of emerging technology, this textbook prepares students for a career designing the computer systems of the future. In-depth coverage of complexity, power, reliability and performance, coupled with treatment of parallelism at all levels, including ILP and TLP, provides the state-of-the-art training that students need. The whole gamut of parallel architecture design options is explained, from core microarchitecture to chip multiprocessors to large-scale multiprocessor systems. All the chapters are self-contained, yet concise enough that the material can be taught in a single semester, making it perfect for use in senior undergraduate and graduate computer architecture courses. The book is also teeming with practical examples to aid the learning process, showing concrete applications of definitions. With simple models and codes used throughout, all material is made open to a broad range of computer engineering/science students with only a basic knowledge of hardware and software.
Features
- In-depth coverage of key design issues: complexity, power and reliability, as well as performance
- Covers core microarchitecture, chip multiprocessors and large-scale multiprocessor systems
- Contains many examples and end-of-chapter problems, with a solutions manual and lecture slides available online
Table of Contents
1. Introduction;
2. Impact of technology;
3. Processor microarchitecture;
4. Memory hierarchies;
5. Multiprocessor systems;
6. Interconnection networks;
7. Coherence, synchronization, and memory consistency;
8. Chip multiprocessors;
9. Quantitative evaluations.
1. Introduction;
2. Impact of technology;
3. Processor microarchitecture;
4. Memory hierarchies;
5. Multiprocessor systems;
6. Interconnection networks;
7. Coherence, synchronization, and memory consistency;
8. Chip multiprocessors;
9. Quantitative evaluations.
Michel DuboisUniversity of Southern California
Murali AnnavaramUniversity of Southern California
Per StenstromChalmers University of Technology, Gothenberg
Murali AnnavaramUniversity of Southern California
Per StenstromChalmers University of Technology, Gothenberg
