08677nam 2200529 450 991015476470332120230110114244.097812920968589781292096865(MiAaPQ)EBC5174931(MiAaPQ)EBC5176169(MiAaPQ)EBC5138825(MiAaPQ)EBC5833742(MiAaPQ)EBC5483492(Au-PeEL)EBL5138825(OCoLC)1024254731(EXLCZ)99371000000060764520210331d2016 uy 0engurcnu||||||||rdacontentrdamediardacarrierComputer organization and architecture [electronic resource]designing for performance /William StallingsTenth, global edition.Boston :Pearson,[2016]©20161 online resource (861 pages) illustrations (some color)Always learningIncludes bibliographical references and index.Cover -- Inside Front Cover -- Title Page -- Copyright Page -- Dedication -- Contents -- Foreword -- Preface -- About the Author -- Part One Introduction -- Chapter 1 Basic Concepts and Computer Evolution -- 1.1 Organization and Architecture -- 1.2 Structure and Function -- 1.3 A Brief History of Computers -- 1.4 The Evolution of the Intel x86 Architecture -- 1.5 Embedded Systems -- 1.6 Arm Architecture -- 1.7 Cloud Computing -- 1.8 Key Terms, Review Questions, and Problems -- Chapter 2 Performance Issues -- 2.1 Designing for Performance -- 2.2 Multicore, Mics, and Gpgpus -- 2.3 Two Laws that Provide Insight: Ahmdahl's Law and Little's Law -- 2.4 Basic Measures of Computer Performance -- 2.5 Calculating the Mean -- 2.6 Benchmarks and Spec -- 2.7 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 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 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 DDR Dram -- 5.4 Flash Memory -- 5.5 Newer Nonvolatile Solid-State Memory Technologies -- 5.6 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 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 Direct Cache Access -- 7.7 I/O Channels and Processors -- 7.8 External Interconnection Standards -- 7.9 IBM zEnterprise EC12 I/O Structure -- 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 Intel x86 Memory Management -- 8.5 Arm Memory Management -- 8.6 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 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 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 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 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 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 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 Key Terms, Review Questions, and Problems -- Chapter 16 Instruction-Level Parallelism and Superscalar Processors -- 16.1 Overview -- 16.2 Design Issues -- 16.3 Intel Core Microarchitecture -- 16.4 ARM Cortex-A8 -- 16.5 ARM Cortex-M3 -- 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 Cloud Computing -- 17.8 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 Heterogeneous Multicore Organization -- 18.5 Intel Core i7-990X -- 18.6 ARM Cortex-A15 MPCore -- 18.7 IBM zEnterprise EC12 Mainframe -- 18.8 Key Terms, Review Questions, and Problems -- Chapter 19 General-Purpose Graphic Processing Units -- 19.1 Cuda Basics -- 19.2 GPU versus CPU -- 19.3 GPU Architecture Overview -- 19.4 Intel's Gen8 GPU -- 19.5 When to Use a GPU as a Coprocessor -- 19.6 Key Terms and Review Questions -- Part Six T he Control Unit -- Chapter 20 Control Unit Operation -- 20.1 Micro-Operations.20.2 Control of the Processor -- 20.3 Hardwired Implementation -- 20.4 Key Terms, Review Questions, and Problems -- Chapter 21 Microprogrammed Control -- 21.1 Basic Concepts -- 21.2 Microinstruction Sequencing -- 21.3 Microinstruction Execution -- 21.4 TI 8800 -- 21.5 Key Terms, Review Questions, and Problems -- Appendix A Projects for Teaching Computer Organization and Architecture -- A.1 Interactive Simulations -- A.2 Research Projects -- A.3 Simulation Projects -- A.4 Assembly Language Projects -- A.5 Reading/Report Assignments -- A.6 Writing Assignments -- A.7 Test Bank -- Appendix B Assembly Language and Related Topics -- B.1 Assembly Language -- B.2 Assemblers -- B.3 Loading and Linking -- B.4 Key Terms, Review Questions, and Problems -- References -- Index -- Credits.For graduate and undergraduate courses in computer science, computer engineering, and electrical engineering   Fundamentals of Processor and Computer Design Computer Organization and Architecture is a comprehensive coverage of the entire field of computer design updated with the most recent research and innovations in computer structure and function. With clear, concise, and easy-to-read material, the Tenth Edition is a user-friendly source for students studying computers. Subjects such as I/O functions and structures, RISC, and parallel processors are explored integratively throughout, with real world examples enhancing the text for student interest. With brand new material and strengthened pedagogy, this text engages students in the world of computer organization and architecture.Always learning.Computer architectureComputer architecture.004.22Stallings William59711MiAaPQMiAaPQMiAaPQBOOK9910154764703321Computer organization and architecture42082UNINA