Operating systems : a modern perspective
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Bibliographic Information
Operating systems : a modern perspective
Addison Wesley, c2002
2nd ed.
- Lab update
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Note
Includes bibliograhical references(p 659-662) and index
Description and Table of Contents
Description
This Updated edition of Operating Systems, 2e brings this edition up-to-date in regards to the latest Operating Systems. It features material on the latest version of Windows 2000 and Linux, and also provides updated lab exercises for courses that do user-level programming projects in lab (whether they be using UNIX, Linux or Windows).
Gary Nutt provides an understanding of contemporary operating system practice through a complete discussion of operating system principles, supplemented with code, algorithms, implementation issues, and lab exercises. The book's flexible arrangement, which separates principles from practice, allows professors to choose the appropriate breadth and depth of each topic presentation, as well as the balance they wish to strike between principles and practice. Each chapter begins with a conceptual presentation, then moves into the underlying theory that supports the concept. Examples (generic and specific commercial OS examples) support these presentations.
Operating Systems also covers modern topics such as threads, concurrency, and distributed systems. It addresses both quantitative and qualitative theory, but is not overly mathematically sophisticated. It is an ideal text for professors who are interested in introducing students to core operating system concepts by and reinforcing these concepts with examples from and practice with popular real-world operating systems, namely Linux/UNIX and Windows 2000.
Table of Contents
(All chapters conclude with a Summary and Exercises.)
1. Introduction.
Computers And Software.
Operating System Strategies.
In the Hangar: The Evolution of Linux.
In the Hangar: The Microsoft Windows Family of Operating Systems.
2. Using the Operating System.
The Abstract Model of Computing.
Resources.
Processes.
Threads.
Objects.
Lab Exercise: A Shell Program.
Writing a Multithreaded Windows Console Application.
3. Operating System Organization.
Factors in OS Design.
Basic Functions.
Basic Implementation Considerations.
4. Computer Organization.
The von Neumann Architecture.
The Central Processing Unit.
Memory.
Performance Tuning: Speeding up the Machine.
Performance Tuning: Parallel Processors.
Devices.
Interrupts.
The Mode Bit Revisited: The Trap Instruction.
Lab Exercise: Kernel Timers.
5. Device Management.
Device Management Approaches.
Buffering.
Device Drivers.
Some Device Management Scenarios.
Laboratory Exercise: A Floppy Disk Driver.
6. Process Management.
The System View of Processes and Resources.
Initializing the Operating System.
Process Address Spaces.
The Process Abstraction.
The Resource Abstraction.
Process Hierarchy.
Laboratory Exercise: Observing OS Behavior.
7. Scheduling.
Scheduling Mechanisms.
Strategy Selection.
Nonpreemptive Strategies.
Preemptive Strategies.
8. Basic Synchronization Principles.
Interacting Processes.
Coordinating Processes.
Semaphores.
Shared Memory Multiprocessors.
Laboratory Exercise: Bounded Buffer Problem.
9. High-level Synchronization.
Alternative Synchronization Primitives.
Monitors.
Interprocess Communication.
Explicitly Ordering Event Execution.
Laboratory Exercise: Refining the Shell.
10. Deadlock.
Background.
A System Deadlock Model.
Prevention.
Avoidance.
Detection and Recovery.
11. Memory Management.
The Basics.
Memory Allocation.
Dynamic Address Relocation.
Memory Manager Strategies.
12. Virtual Memory.
Address Translation.
Paging.
Static Paging Algorithms.
Dynamic Paging Algorithms.
Performance Tuning: Taking Advantage of Pages with IPC.
In the Hangar: Windows 2000 Virtual Memory.
In the Hangar: Linux Virtual Memory.
Segmentation.
13. File Management.
Files.
Low-level File Implementations.
Supporting Other Storage Abstractions.
Memory-mapped Files.
Directories.
Directory Implementation.
Laboratory Exercise: A Simple File Manager.
14. Protection and Security.
Fundamentals.
Authentication.
Internal Access Authorization.
Implementing Internal Authorization.
Cryptography.
15. Networks.
From Computer Communications to Networks.
The ISO OSI Network Architecture Model.
Low-level Protocols.
The Network Layer.
The Transport Layer.
Using the Transport Layer.
Laboratory Exercise: Using TCP/IP.
16. Remote Files.
Sharing Information across the Network.
Remote Disk Systems.
Remote File Systems.
File-level Caching.
Directory Systems and Their Implementations.
17. Distributed Computing.
Distributing Process Management.
Message Passing.
Remote Procedure Call.
Distributed-memory Management.
18. Strategies and Examples.
OS Components and Relationships.
General Organizational Issues.
The Traditional UNIX Kernel.
The Linux Kernel.
Choices: An Object-oriented OS.
Microsoft Windows NT.
The Mach Operating System.
The CHORUS Operating System.
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