High-performance embedded computing : architectures, applications, and methodologies /

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Over the past several years, embedded systems have emerged as an integral though unseen part of many consumer, industrial, and military devices. The explosive growth of these systems has resulted in embedded computing becoming an increasingly important discipline. The need for designers of high-perf...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Wolf, Marilyn, 1958-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; Boston : Elsevier/Morgan Kaufmann Publishers, �2007.
Edición:1st ed.
Temas:
Embedded computer systems.
High performance computing.
Syst�emes enfouis (Informatique)
Superinformatique.
COMPUTERS > Hardware > Personal Computers > General.
COMPUTERS > Hardware > Handheld Devices.
COMPUTERS > Microprocessors.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1 Embedded Computing
  • 1.1 The Landscape of High-Performance Embedded Computing
  • 1.2 Example Applications
  • 1.3 Design Goals
  • 1.4 Design Methodologies
  • 1.5 Models of Computation
  • 1.6 Reliability, Safety, and Security
  • 1.7 Consumer Electronics Architectures
  • 1.8 Summary and a Look Ahead
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • 2 CPUs
  • 2.1 Introduction
  • 2.2 Comparing Processors
  • 2.3 RISC Processors and Digital Signal Processors
  • 2.4 Parallel Execution Mechanisms
  • 2.5 Variable-Performance CPU Architectures
  • 2.6 Processor Memory Hierarchy
  • 2.7 Additional CPU Mechanisms
  • 2.8 CPU Simulation
  • 2.9 Automated CPU Design
  • 2.10 Summary
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • 3 Programs
  • 3.1 Introduction
  • 3.2 Code Generation and Back-End Compilation
  • 3.3 Memory-Oriented Optimizations
  • 3.4 Program Performance Analysis
  • 3.5 Models of Computation and Programming
  • 3.6 Summary
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • 4 Processes and Operating Systems
  • 4.1 Introduction
  • 4.2 Real-Time Process Scheduling
  • 4.3 Languages and Scheduling
  • 4.4 Operating System Design
  • 4.5 Verification
  • 4.6 Summary
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • 5 Multiprocessor Architectures
  • 5.1 Introduction
  • 5.2 Why Embedded Multiprocessors?
  • 5.3 Multiprocessor Design Techniques
  • 5.4 Multiprocessor Architectures
  • 5.5 Processing Elements
  • 5.6 Interconnection Networks
  • 5.7 Memory Systems
  • 5.8 Physically Distributed Systems and Networks
  • 5.9 Multiprocessor Design Methodologies and Algorithms
  • 5.10 Summary
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • 6 Multiprocessor Software
  • 6.1 Introduction
  • 6.2 What Is Different About Embedded Multiprocessor Software?
  • 6.3 Real-Time Multiprocessor Operating Systems
  • 6.4 Services and Middleware for Embedded Multiprocessors
  • 6.5 Design Verification
  • 6.6 Summary
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • 7 Hardware/Software Co-Design
  • 7.1 Introduction
  • 7.2 Design Platforms
  • 7.3 Performance Analysis
  • 7.4 Hardware/Software Co-Synthesis Algorithms
  • 7.5 Hardware/Software Co-Simulation
  • 7.6 Summary
  • What We Learned
  • Further Reading
  • Questions
  • Lab Exercises
  • Glossary.

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