Embedded system design
著者
書誌事項
Embedded system design
Springer, c2006
大学図書館所蔵 全3件
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  香川
  愛媛
  高知
  福岡
  佐賀
  長崎
  熊本
  大分
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注記
Bibliography: p. 212-226
Includes index
内容説明・目次
内容説明
Until the late eighties, information processing was associated with large mainframe computers and huge tape drives. During the nineties, this trend shifted towards information processing with personal computers, or PCs. The trend towards miniaturization continues. In the future, most of the information processing systems will be quite small and embedded into larger products such as transportation and fabrication equipment. Hence, these kinds of systems are called embedded systems. It is expected that the total market volume of embedded systems will be significantly larger than that of traditional information processing systems such as PCs and mainframes. Embedded systems share a number of common characteristics. For example, they must be dependable, efficient, meet real-time constraints and require customized user interfaces (instead of generic keyboard and mouse interfaces). Therefore, it makes sense to consider common principles of embedded system design. "Embedded System Design" starts with an introduction into the area and a survey of specification languages for embedded systems.
A brief overview is provided of hardware devices used for embedded systems and also presents the essentials of software design for embedded systems. Real-time operating systems and real-time scheduling are covered briefly. Techniques for implementing embedded systems are also discussed, using hardware/software codesign. It closes with a survey on validation techniques. "Embedded System Design" can be used as a text book for courses on embedded systems and as a source, which provides pointers to relevant material in the area for PhD students and teachers. The book assumes a basic knowledge of information processing hardware and software.
目次
Preface. Acknowledgements. 1: Introduction. 1.1. Terms and scope. 1.2. Application areas. 1.3. Growing importance of embedded systems. 1.4. Structure of this book. 2: Specifications. 2.1. Requirements. 2.2. Models of computation. 2.3. StateCharts. 2.4. General language characteristics. 2.5. SDL. 2.6. Petri nets. 2.7. Message Sequence Charts. 2.8. UML. 2.9. Process networks. 2.10. Java. 2.11. VHDL. 2.12. SystemC. 2.13.Verilog and System Verilog. 2.14. SpecC. 2.15. Additional languages. 2.16. Levels of hardware modeling. 2.17. Language comparison. 2.18. Dependability requirements. 3: Embedded system hardware. 3.1. Introduction. 3.2. Input. 3.3. Communication. 3.4. Processing units. 3.5. Memories. 3.6. Output. 4: Embedded operating systems, middleware, and scheduling. 4.1. Prediction of execution times. 4.2. Scheduling in real-time systems. 4.3. Embedded operating systems. 4.4. Middleware. 5: Implementing embedded systems: hardware/software codesign. 5.1. Task level concurrency management. 5.2. High-level optimizations. 5.3. Hardware/software partitioning. 5.4. Compilers for embedded systems. 5.5. Voltage scaling and power management. 5.6. Actual design flows and tools. 6: Validation. 6.1. Introduction. 6.2. Simulation. 6.3. Rapid prototyping and emulation. 6.4. Test. 6.5. Fault simulation. 6.6. Fault injection. 6.7. Risk- and dependability analysis. 6.8. Formal verification. Bibliography. About the Author. List of Figures. Index.
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