操作系统实用教程 : 螺旋方法
操作系统实用教程 : 螺旋方法封面图

操作系统实用教程 : 螺旋方法

(美) 埃尔玛斯里 (Elmasri,R.) , (美) 加里克 (Garrick,A.G.) , (美) 莱文 (Levine,D.) , 著

出版社:机械工业出版社

年代:2010

定价:45.0

书籍简介:

本书通过螺旋方法来解释操作系统。在讲解各种进程及其他概念时,螺旋方法在开始的时候就帮助学生完全理解了一个简单、实用的完整操作系统,这样就使得教师不必不断地“跳转话题”。这是一种非常有效的教学方法,能够激励学生去探索更高级的概念。

作者介绍:

Ramez Elmasri,得克萨斯大学阿灵顿分校教授。他于1980年在美国斯坦福大学获得计算机科学硕士和博士学位。其研究兴趣是传感器网络和RFID、生物信息介质、查询个性化和系统集成。 A. Gil Carrick,曾执教于得克萨斯大学阿灵顿分校。他是计算机科学荣誉协会Upsilon Pi Epsilon的成员。 David Levine,一直讲授操作系统、软件工程、网络和计算体系结构等课程。他的研究兴趣包括移动计算、移动对象和分布式计算。

书籍目录:

Preface vi

Part 1 Operating Systems Overview and Background

Chapter 1

Getting Started

1.1 Introduction

1.2 What Are Operating Systems All about?

1.3 User veusus System View of an OS

1.4 Some OS Terms. Basic Concepts, and Illustrations

1.5 A Small Historical Diversion

1.6 Summary

Chapter 2

Operating System Concepts, Components and Architectures

2.1 Introduction:What Does the OS DSs

2.2 Resources Managed by the OS and Major OS Modules

2.3 The Process Concept and OS Process Information

2.4 Functional Classes of OSs

2.5 Architectural Approaches to Building an OS

2.6 Some OS Implement Techniques and Issues

2.7 Minimalist versus Maximalist Approaches to OS Functionality and Back ward Compatibility

2.8 Summary

Part 2

Building Operating Systems Incrementally:A Breadth-Oriented Spiral Approach

Chapter 3

A Simple,Single-Process Operating System

3.1 Introduction:Monitors and CP

3.2 Characteristics of a Simple PC System

3.3 Input Output Management

3.4 Disk Management and the File System

3.5 Process and Memory Manage me

3.6 Summary

Chapter 4

A Single-User Multitasking

Operating System

4.1 Introduction:A Simple Multitasking System

4.2 The Palm OS Environment and System Layout

4.3 Process Scheduling and System Layout

4.6 Basic Input and Output

4.7 Display Management

4.8 Event-Driven Programs

4.9 Summary

Chapter 5

A Single-User Multitasking/Multithreading Operating System

5.1 Introduction 89

5.2 The Origin of the Macintosh Computer

5.3 The Macintosh OS——System

5.4 System2

5.5 System3

5.6 System4

5.7 System5

5.8 System6

5.9 System7

5.10 System8

5.11 System9

5.12 Mac OS X

5.13 Summary

Chapter 6

A Multiple-User Operating System

6.1 Introduction

6.2 The Multiuser OS Envtronment

6.3 Processes and Threads

6.4 Summary

Chapter 7

Parallel and Distributed Computing, Clusters, and Grids

7.1 Introduction

7.2 Key Concepts

7.3 Parallel Distributed Processing

7.4 Distributed System Architectures

7.5 How Operating System Concepts Differ in SMPs, Cluster, and Grids

7.6 Examples

7.7 Summary

Part 3

CPU and Memory Management

Chapter 8

Process Management: Concepts, Threads, and Scheduling

8.1 Introduction to Processes

8.2 Process Descriptor-Processes Control Block

8.3 Process States and

8.4 Process Scheduling

8.8 0ne Good Process Deserves Another

8.6 Threads

8.7 Case Studies

8.7 Summary

Chapter 9

Mere Process Management : Interprocess Communication, Synchronization, and Deadlocks

9.1 Why Have Cooperating Processes?

9.2 Interprocess Communication

9.3 Synchronization

9.4 Deadlocks

9.5 Summary

Chapter 10

Basic Memory Management

10.1 Introduction: Why Manage Primary Memory?

10.2 Binding Model: Steps in Development Cycle

10.3 A Single Process

10.4 Multiple Processes with a Fixed Number of Processes

10.5 Multiple Processes with a Variable Number of Processes

10.6 Summary

Chapter 11

Advanced Memory Management

11.1 Why Do We Need Hardware Help?

11.2 Paging

11.3 Segmentation

11.4 Segmentation with Paging

11.5 Demand Paging

11.6 Special Memory Management Topics

11.7 Summary

Part 4

A Depth-Oriented Presentation of OS

Concepts: Files Systems and Input/Output

Chapter 12

12.1 Introduction

12.2 Directories

12.3 Access Methods

12.4 Frees pace Tracking

12.5 File Allocation

12.6 Summary

Chapter 13

File Systems-Examples and Mom Features

13.1 Introduction

13.2 Case Studies

13.3 Mounting

13.4 Multiple Pile Systems and Redirection

13.5 Memory Mapped Files

13.6 Pile System Utilities

13.7 Log-Based File Systems

13.8 Summary

Chapter 14

Disk Scheduling and input/Output Management

14.1 Introduction

14.2 Device Characteristies

14.3 I/O Technology

14.4 Physical Disk Organization

14.5 Logical Disk Organization

14.6 RAID 309

14.7 Disk Operation Scheduling

14.8 DMA and Disk Hardware Features

14.9 Summary

Part 5

Networks, Distributed Systems, and Security

Chapter 15

Introduction to Computer Networks

15.1 Why Do We Want to Network Computers?

15.2 The Basics

15.3 Spplication Layer Protocols

15.4 TCP/IP

15.5 The Data Link Layer

15.6 WANs

15.7 The Physical Layer

15.8 Network Management

15.9 Summary

Chapter 16

16.1 Introduction: Problems and Threats

16.2 OS Protection

16.3 Policies,Mechanisms , and Techniques

16.4 Communication Security

16.8 Security Administration

16.6 Summary

Chapter 17

Distributed Operating Systems

17.1 Introduction

17.2 Distributed Application Models

17.3 Abstractions:Processes, Threads, and Machines

17.4 Naming

17.8 Other Distributed Models

17.6 Synchronization

17.7 Fault Tolerance

17.8 Summary

Part 6

Case Studies

Chapter 18

Windows NT through Vista

18.1 Introduction:Windows NT Family History

18.2 The User OS Environment

18.3 Process Scheduling

18.4MemoryManngelaent

18.5 File Support

18.6 Basic Input and Output

18.7 GUI Programming

18.8 Networking

18.9 Symmetric Multiprocessing

18.10 Startup Speed of XP

18.11 Summary

Chapter 19

Linux:A Case Study

19.1 Introduction

19.2 Process Scheduling

19.3 Memory Management

19.4 File Support

19.5 Basic Input and Output

19.6 GUI Programming

19.7 Networking

19.8 Security

19.9 Symmetric Multiprocessing

19.10 Other Linux Variants

19.11 Summary

Chapter 20

Palm OS:A Class Case Study

20.1 Overview

20.2 The Multi-Process OS Environment

20.3 Palm Process Scheduling

20.4 Palm Memory Management

20.5 File Support

20.6 Input/Output Subsystems

20.7 GUI Programming

20.8 Network Programming

20.9 Programming Environment

20.10 Similar Systems and Current Developments

20.11 Summary

Appendix

Overview of Computer System and Architecture Concepts

A.1 Typical Computer System Components

A.2 The Processor or Central Processing unit

A.3 The Memory Unit and Storage Hierarchies

A.4 Input and Output

A.5 The Network

A.6 A More Detailed Picture

A.7 Summary

内容摘要:

《操作系统实用教程:螺旋方法(英文版)》采用螺旋方法和深度导向方法讲解操作系统原理。首先介绍一些基本的背景和定义,然后描述一个非常简单的操作系统,之后将它演化为具有更多特性的更复杂的操作系统。这样循序渐进、逐步深入,可以使学生更透彻地理解操作系统的本质。
《操作系统实用教程:螺旋方法(英文版)》分为六个部分:第一部分介绍一些总体背景信息;第二部分采用螺旋方法,按照复杂度递增的次序。介绍五类操作系统;第三部分到第五部分采用深度导向方法详细地探讨操作系统的各个主题:从进程到内存管理,再到文件系统;第六部分通过三个实例更深入地研究这些系统的特性是如何实现的。

编辑推荐:

《操作系统实用教程:螺旋方法(英文版)》特色:对于所讨论的操作系统。书中适当介绍一些当时的行业历史,有时还涉及关键的企业或个人,这样能帮助学生更好地理解操作系统。涵盖在设备中的现代操作系统,而不仅仅是通常的计算机中的操作系统。讨论算法级解决方案,而没有列出实际代码。便于使用不同编程语言实现。每章末都有一些练习题,便于学生巩固所学知识。

书籍规格:

书籍详细信息
书名操作系统实用教程 : 螺旋方法站内查询相似图书
丛书名经典原版书库
9787111310945
如需购买下载《操作系统实用教程 : 螺旋方法》pdf扫描版电子书或查询更多相关信息,请直接复制isbn,搜索即可全网搜索该ISBN
出版地北京出版单位机械工业出版社
版次1版印次1
定价(元)45.0语种英文
尺寸22 × 15装帧平装
页数 526 印数 3000

书籍信息归属:

操作系统实用教程 : 螺旋方法是机械工业出版社于2010.7出版的中图分类号为 TP316 的主题关于 操作系统-教材-英文 的书籍。