William Stallings在計算機安全、計算機網(wǎng)絡(luò)和計算機系統(tǒng)結(jié)構(gòu)的技術(shù)開發(fā)的廣泛領(lǐng)域作出了獨特的貢獻。他撰寫了多部著作,并在許多ACM和IEEE出版物上發(fā)表文章,包括IEEE和ACM的計算評論會議。 他先后11次獲得年度*佳計算機科學教科書獎和學術(shù)作者協(xié)會獎。William Stallings在計算機安全、計算機網(wǎng)絡(luò)和計算機系統(tǒng)結(jié)構(gòu)的技術(shù)開發(fā)的廣泛領(lǐng)域作出了獨特的貢獻。他撰寫了多部著作,并在許多ACM和IEEE出版物上發(fā)表文章,包括IEEE和ACM的計算評論會議。 他先后11次獲得年度*佳計算機科學教科書獎和學術(shù)作者協(xié)會獎。
圖書目錄
Contents Chapter 0 Reader’s and Instructor’s Guide 0.1 Outline of the Book 0.2 A Roadmap for Readers and Instructors 0.3 Why Study Computer Organization and Architecture? 0.4 Internet and Web Resources Part One Overview Chapter 1 Introduction 1.1 Organization and Architecture 1.2 Structure and Function 1.3 Key Terms and Review Questions Chapter 2 Computer Evolution and Performance 2.1 A Brief History of Computers 2.2 Designing for Performance 2.3 Multicore, MICs, and GPGPUs 2.4 The Evolution of the Intel x86 Architecture 2.5 Embedded Systems and the Arm 2.6 Performance Assessment 2.7 Recommended Reading 2.8 Key Terms, Review Questions, and Problems Part Two?The Computer System Chapter 3 A Top-Level View of Computer Function and Interconnection 3.1 Computer Components 3.2 Computer Function 3.3 Interconnection Structures 3.4 Bus Interconnection 3.5 Point-to-Point Interconnect 3.6 PCI Express 3.7 Recommended Reading 3.8 Key Terms, Review Questions, and Problems Chapter 4 Cache Memory 4.1 Computer Memory System Overview 4.2 Cache Memory Principles 4.3 Elements of Cache Design 4.4 Pentium 4 Cache Organization 4.5 Arm Cache Organization 4.6 Recommended Reading 4.7 Key Terms, Review Questions, and Problems Appendix 4A Performance Characteristics of Two-Level Memories Chapter 5 Internal Memory 5.1 Semiconductor Main Memory 5.2 Error Correction 5.3 Advanced Dram Organization 5.4 Recommended Reading 5.5 Key Terms, Review Questions, and Problems Chapter 6 External Memory 6.1 Magnetic Disk 6.2 Raid 6.3 Solid State Drives 6.4 Optical Memory 6.5 Magnetic Tape 6.6 Recommended Reading 6.7 Key Terms, Review Questions, and Problems Chapter 7 Input/Output 7.1 External Devices 7.2 I/O Modules 7.3 Programmed I/O 7.4 Interrupt-Driven I/O 7.5 Direct Memory Access 7.6 I/O Channels and Processors 7.7 The External Interface: Thunderbolt and Infiniband 7.8 IBM zEnterprise 196 I/O Structure 7.9 Recommended Reading 7.10 Key Terms, Review Questions, and Problems Chapter 8 Operating System Support 8.1 Operating System Overview 8.2 Scheduling 8.3 Memory Management 8.4 Pentium Memory Management 8.5 ARM Memory Management 8.6 Recommended Reading 8.7 Key Terms, Review Questions, and Problems Part three Arithmetic and Logic Chapter 9 Number Systems 9.1 The Decimal System 9.2 Positional Number Systems 9.3 The Binary System 9.4 Converting Between Binary and Decimal 9.5 Hexadecimal Notation 9.6 Recommended Reading 9.7 Key Terms and Problems Chapter 10 Computer Arithmetic 10.1 The Arithmetic and Logic Unit 10.2 Integer Representation 10.3 Integer Arithmetic 10.4 Floating-Point Representation 10.5 Floating-Point Arithmetic 10.6 Recommended Reading 10.7 Key Terms, Review Questions, and Problems Chapter 11 Digital Logic 11.1 Boolean Algebra 11.2 Gates 11.3 Combinational Circuits 11.4 Sequential Circuits 11.5 Programmable Logic Devices 11.6 Recommended Reading 11.7 Key Terms and Problems Part Four The Central Processing Unit Chapter 12 Instruction Sets: Characteristics and Functions 12.1 Machine Instruction Characteristics 12.2 Types of Operands 12.3 Intel x86 and Arm Data Types 12.4 Types of Operations 12.5 Intel x86 and ARM Operation Types 12.6 Recommended Reading 12.7 Key Terms, Review Questions, and Problems Appendix 12A Little-, Big-, and Bi-Endian Chapter 13 Instruction Sets: Addressing Modes and Formats 13.1 Addressing Modes 13.2 x86 and ARM Addressing Modes 13.3 Instruction Formats 13.4 x86 and ARM Instruction Formats 13.5 Assembly Language 13.6 Recommended Reading 13.7 Key Terms, Review Questions, and Problems Chapter 14 Processor Structure and Function 14.1 Processor Organization 14.2 Register Organization 14.3 Instruction Cycle 14.4 Instruction Pipelining 14.5 The x86 Processor Family 14.6 The Arm Processor 14.7 Recommended Reading 14.8 Key Terms, Review Questions, and Problems Chapter 15 Reduced Instruction Set Computers 15.1 Instruction Execution Characteristics 15.2 The Use of a Large Register File 15.3 Compiler-Based Register Optimization 15.4 Reduced Instruction Set Architecture 15.5 RISC Pipelining 15.6 MIPS R4000 15.7 Sparc 15.8 RISC Versus CISC Controversy 15.9 Recommended Reading 15.10 Key Terms, Review Questions, and Problems Chapter 16 Instruction-Level Parallelism and Superscalar Processors 16.1 Overview 16.2 Design Issues 16.3 Pentium 4 16.4 Arm Cortex-A8 16.5 Recommended Reading 16.6 Key Terms, Review Questions, and Problems Part Five Parallel Organization Chapter 17 Parallel Processing 17.1 Multiple Processor Organizations 17.2 Symmetric Multiprocessors 17.3 Cache Coherence and the MESI Protocol 17.4 Multithreading and Chip Multiprocessors 17.5 Clusters 17.6 Nonuniform Memory Access 17.7 Vector Computation 17.8 Recommended Reading 17.9 Key Terms, Review Questions, and Problems Chapter 18 Multicore Computers 18.1 Hardware Performance Issues 18.2 Software Performance Issues 18.3 Multicore Organization 18.4 Intel x86 Multicore Organization 18.5 ARM11 MPCore 18.6 Ibm zEnterprise 196 Mainframe 18.7 Recommended Reading 18.8 Key Terms, Review Questions, and Problems Appendix A Projects for Teaching Computer Organization and Architecture Appendix B Assembly Language and Related Topics Glossary References Index Online Chapters1 Part Six The Control Unit 19-1 Chapter 19 Control Unit Operation 19-1 19.1 Micro-operations 19-3 19.2 Control of the Processor 19-13 19.3 Hardwired Implementation 19-30 19.4 Recommended Reading 19-35 19.5 Key Terms, Review Questions, and Problems 19-35 Chapter 20 Microprogrammed Control 20-1 20.1 Basic Concepts 20-3 20.2 Microinstruction Sequencing 20-16 20.3 Microinstruction Execution 20-26 20.4 TI 8800 20-45 20.5 Recommended Reading 20-59 20.6 Key Terms, Review Questions, and Problems 20-60