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

Por: Wolf, WayneTipo de material: TextoTextoDetalles de publicación: Amsterdam ; Boston : Elsevier/Morgan Kaufmann Publishers, c2007Edición: 1a edDescripción: xx, 521 p. : ill. ; 24 cmISBN: 012369485X (alk. paper); 9780123694850 (alk. paper)Tema(s): Sistemas para computadoras incluídos | Computación de alto rendimiento | Embedded computer systems | High performance computing | Systèmes enfouis (Informatique) | SuperinformatiqueClasificación CDD: 004.16 Clasificación LoC:TK7895.E42 | W65 2007Otra clasificación: 54.31 | 54.52 | 54.54 Recursos en línea: Table of contents onlyTexto | Publisher descriptionTexto
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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Tipo de ítem Biblioteca actual Colección Signatura Copia número Estado Fecha de vencimiento Código de barras
Libro Libro Biblioteca Central Tijuana
Acervo General TK7895.E42 W65 2007 (Browse shelf(Abre debajo)) 1 Disponible TIJ087577
Libro Libro Biblioteca Central Tijuana
Acervo General TK7895.E42 W65 2007 (Browse shelf(Abre debajo)) 2 Disponible TIJ087578

Includes bibliographical references (p. 467-499) and index.

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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