Operating Systems Internal and Design Principles William Stallings English

By:

Stallings William

Material type: Text

TextPublication details: India Pearson 2018Edition: 9th ed 2018Description: 732p. ; Soft Bound 16*23 cmISBN:

978-93-528-6671-7

DDC classification:

23 005.43 STA

Contents:

1. Computer System Overview 1.1. Basic Elements 1.2. Evolution of the Microprocessor 1.3. Instruction Execution 1.4. Interrupts 1.5. The Memory Hierarchy 1.6. Cache Memory 1.7. Direct Memory Access 1.8. Multiprocessor and Multicore Organization 1.9. Key Terms, Review Questions, and Problems 1A. Performance Characteristics of Two-Level Memories 2. Operating System Overview 2.1. Operating System Objectives and Functions 2.2. The Evolution of Operating Systems 2.3. Major Achievements 2.4. Developments Leading to Modern Operating Systems 2.5. Fault Tolerance 2.6. Os Design Considerations for Multiprocessor and Multicore 2.7. Microsoft Windows Overview 2.8. Traditional Unix Systems 2.9. Modern Unix Systems 2.10. Linux 2.11. Android 2.12. Key Terms, Review Questions, and Problems II. Processes 3. Process Description and Control 3.1. What is a Process? 3.2. Process States 3.3. Process Description 3.4. Process Control 3.5. Execution of the Operating System 3.6. Unix Svr4 Process Management 3.7. Summary 3.8. Key Terms, Review Questions, and Problems 4. Threads 4.1. Processes and Threads 4.2. Types of Threads 4.3. Multicore and Multithreading 4.4. Windows Process and Thread Management 4.5. Solaris Thread and Smp Management 4.6. Linux Process and Thread Management 4.7. Android Process and Thread Management 4.8. Mac OS X Grand Central Dispatch 4.9. Summary 4.10. Key Terms, Review Questions, and Problems 5. Concurrency: Mutual Exclusion and Synchronization 5.1. Mutual Exclusion: Software Approaches 5.2. Principles of Concurrency 5.3. Mutual Exclusion: Hardware Support 5.4. Semaphores 5.5. Monitors 5.6. Message Passing 5.7. Readers/Writers Problem 5.8. Summary 5.9. Key Terms, Review Questions, and Problems 6. Concurrency: Deadlock and Starvation 6.1. Principles of Deadlock 6.2. Deadlock Prevention 6.3. Deadlock Avoidance 6.4. Deadlock Detection 6.5. An Integrated Deadlock Strategy 6.6. Dining Philosophers Problem 6.7. Unix Concurrency Mechanisms 6.8. Linux Kernel Concurrency Mechanisms 6.9. Solaris Thread Synchronization Primitives 6.10. Windows Concurrency Mechanisms 6.11. Android Interprocess Communication 6.12. Summary 6.13. Key Terms, Review Questions, and Problems III. Memory 7. Memory Management 7.1. Memory Management Requirements 7.2. Memory Partitioning 7.3. Paging 7.4. Segmentation 7.5. Summary 7.6. Key Terms, Review Questions, and Problems 7A. Loading and Linking 8. Virtual Memory 8.1. Hardware and Control Structures 8.2. Operating System Software 8.3. Unix and Solaris Memory Management 8.4. Linux Memory Management 8.5. Windows Memory Management 8.6. Android Memory Management 8.7. Summary 8.8. Key Terms, Review Questions, and Problems IV. Scheduling 9. Uniprocessor Scheduling 9.1. Types of Processor Scheduling 9.2. Scheduling Algorithms 9.3. Traditional Unix Scheduling 9.4. Summary 9.5. Key Terms, Review Questions, and Problems 10. Multiprocessor, Multicore, and Real-Time Scheduling 10.1. Multiprocessor and Multicore Scheduling 10.2. Real-Time Scheduling 10.3. Linux Scheduling 10.4. Unix Svr4 Scheduling 10.5. Unix Freebsd Scheduling 10.6. Windows Scheduling 10.7. Summary 10.8. Key Terms, Review Questions, and Problems V. Input/Output and Files 11. I/O Management and Disk Scheduling 11.1. I/O Devices 11.2. Organization of the I/O Function 11.3. Operating System Design Issues 11.4. I/O Buffering 11.5. Disk Scheduling 11.6. Raid 11.7. Disk Cache 11.8. Unix Svr4 I/O 11.9. Linux I/O 11.10. Windows I/O 11.11. Summary 11.12. Key Terms, Review Questions, and Problems 12. File Management 12.1. Overview 12.2. File Organization and Access 12.3. B-Trees 12.4. File Directories 12.5. File Sharing 12.6. Record Blocking 12.7. Secondary Storage Management 12.8. Unix File Management 12.9. Linux Virtual File System 12.10. Windows File System 12.11. Android File Management 12.12. Summary 12.13. Key Terms, Review Questions, and Problems VI. Embedded Systems 13 Embedded Operating Systems 13.1. Embedded Systems 13.2. Characteristics of Embedded Operating Systems 13.3. Embedded Linux 13.4. Tinyos 13.5. Key Terms, Review Questions, and Problems 14. Virtual Machines 14.1. Virtual Machine Concepts 14.2. Hypervisors 14.3. Container Virtualization 14.4. Processor Issues 14.5. Memory Management 14.6. I/O Management 14.7. Vmware Esxi 14.8. Microsoft Hyper-V and Xen Variants 14.9. Java Vm 14.10. Linux Vserver Virtual Machine Architecture 14.11. Summary 14.12. Key Terms, Review Questions, and Problems 15. Operating System Security 15.1. Intruders and Malicious Software 15.2. Buffer Overflow 15.3. Access Control 15.4. Unix Access Control 15.5. Operating Systems Hardening 15.6. Security Maintenance 15.7. Windows Security 15.8. Summary 15.9. Key Terms, Review Questions, and Problems 16. Cloud and IoT Operating Systems 16.1. Cloud Computing 16.2. Cloud Operating Systems 16.3. The Internet of Things 16.4. IoT Operating Systems 16.5. Key Terms and Review Questions Appendix A. Topics in Concurrency Appendix B. Programming and Operating System Projects References Credits Index

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Item type	Current library	Collection	Call number	Status	Date due	Barcode
Books	Tetso College Library Computer Science	Non-fiction	005.43 STA (Browse shelf(Opens below))	Available		10395
Books	Tetso College Library Computer Science	Non-fiction	005.43 STA (Browse shelf(Opens below))	Available		10394

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1. Computer System Overview

1.1. Basic Elements

1.2. Evolution of the Microprocessor

1.3. Instruction Execution

1.4. Interrupts

1.5. The Memory Hierarchy

1.6. Cache Memory

1.7. Direct Memory Access

1.8. Multiprocessor and Multicore Organization

1.9. Key Terms, Review Questions, and Problems

1A. Performance Characteristics of Two-Level Memories

2. Operating System Overview

2.1. Operating System Objectives and Functions

2.2. The Evolution of Operating Systems

2.3. Major Achievements

2.4. Developments Leading to Modern Operating Systems

2.5. Fault Tolerance

2.6. Os Design Considerations for Multiprocessor and Multicore

2.7. Microsoft Windows Overview

2.8. Traditional Unix Systems

2.9. Modern Unix Systems

2.10. Linux

2.11. Android

2.12. Key Terms, Review Questions, and Problems

II. Processes

3. Process Description and Control

3.1. What is a Process?

3.2. Process States

3.3. Process Description

3.4. Process Control

3.5. Execution of the Operating System

3.6. Unix Svr4 Process Management

3.7. Summary

3.8. Key Terms, Review Questions, and Problems

4. Threads

4.1. Processes and Threads

4.2. Types of Threads

4.3. Multicore and Multithreading

4.4. Windows Process and Thread Management

4.5. Solaris Thread and Smp Management

4.6. Linux Process and Thread Management

4.7. Android Process and Thread Management

4.8. Mac OS X Grand Central Dispatch

4.9. Summary

4.10. Key Terms, Review Questions, and Problems

5. Concurrency: Mutual Exclusion and Synchronization

5.1. Mutual Exclusion: Software Approaches

5.2. Principles of Concurrency

5.3. Mutual Exclusion: Hardware Support

5.4. Semaphores

5.5. Monitors

5.6. Message Passing

5.7. Readers/Writers Problem

5.8. Summary

5.9. Key Terms, Review Questions, and Problems

6. Concurrency: Deadlock and Starvation

6.1. Principles of Deadlock

6.2. Deadlock Prevention

6.3. Deadlock Avoidance

6.4. Deadlock Detection

6.5. An Integrated Deadlock Strategy

6.6. Dining Philosophers Problem

6.7. Unix Concurrency Mechanisms

6.8. Linux Kernel Concurrency Mechanisms

6.9. Solaris Thread Synchronization Primitives

6.10. Windows Concurrency Mechanisms

6.11. Android Interprocess Communication

6.12. Summary

6.13. Key Terms, Review Questions, and Problems

III. Memory

7. Memory Management

7.1. Memory Management Requirements

7.2. Memory Partitioning

7.3. Paging

7.4. Segmentation

7.5. Summary

7.6. Key Terms, Review Questions, and Problems

7A. Loading and Linking

8. Virtual Memory

8.1. Hardware and Control Structures

8.2. Operating System Software

8.3. Unix and Solaris Memory Management

8.4. Linux Memory Management

8.5. Windows Memory Management

8.6. Android Memory Management

8.7. Summary

8.8. Key Terms, Review Questions, and Problems

IV. Scheduling

9. Uniprocessor Scheduling

9.1. Types of Processor Scheduling

9.2. Scheduling Algorithms

9.3. Traditional Unix Scheduling

9.4. Summary

9.5. Key Terms, Review Questions, and Problems

10. Multiprocessor, Multicore, and Real-Time Scheduling

10.1. Multiprocessor and Multicore Scheduling

10.2. Real-Time Scheduling

10.3. Linux Scheduling

10.4. Unix Svr4 Scheduling

10.5. Unix Freebsd Scheduling

10.6. Windows Scheduling

10.7. Summary

10.8. Key Terms, Review Questions, and Problems

V. Input/Output and Files

11. I/O Management and Disk Scheduling

11.1. I/O Devices

11.2. Organization of the I/O Function

11.3. Operating System Design Issues

11.4. I/O Buffering

11.5. Disk Scheduling

11.6. Raid

11.7. Disk Cache

11.8. Unix Svr4 I/O

11.9. Linux I/O

11.10. Windows I/O

11.11. Summary

11.12. Key Terms, Review Questions, and Problems

12. File Management

12.1. Overview

12.2. File Organization and Access

12.3. B-Trees

12.4. File Directories

12.5. File Sharing

12.6. Record Blocking

12.7. Secondary Storage Management

12.8. Unix File Management

12.9. Linux Virtual File System

12.10. Windows File System

12.11. Android File Management

12.12. Summary

12.13. Key Terms, Review Questions, and Problems

VI. Embedded Systems

13 Embedded Operating Systems

13.1. Embedded Systems

13.2. Characteristics of Embedded Operating Systems

13.3. Embedded Linux

13.4. Tinyos

13.5. Key Terms, Review Questions, and Problems

14. Virtual Machines

14.1. Virtual Machine Concepts

14.2. Hypervisors

14.3. Container Virtualization

14.4. Processor Issues

14.5. Memory Management

14.6. I/O Management

14.7. Vmware Esxi

14.8. Microsoft Hyper-V and Xen Variants

14.9. Java Vm

14.10. Linux Vserver Virtual Machine Architecture

14.11. Summary

14.12. Key Terms, Review Questions, and Problems

15. Operating System Security

15.1. Intruders and Malicious Software

15.2. Buffer Overflow

15.3. Access Control

15.4. Unix Access Control

15.5. Operating Systems Hardening

15.6. Security Maintenance

15.7. Windows Security

15.8. Summary

15.9. Key Terms, Review Questions, and Problems

16. Cloud and IoT Operating Systems

16.1. Cloud Computing

16.2. Cloud Operating Systems

16.3. The Internet of Things

16.4. IoT Operating Systems

16.5. Key Terms and Review Questions

Appendix A. Topics in Concurrency

Appendix B. Programming and Operating System Projects

References

Credits

Index

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