Early Operating Systems

Early computers could perform only one job or task at a time. This is often called single-user batch processing. The computer runs a single program at a time while processing data in groups or batches. In these early systems, users generally submitted their jobs to a computer center on decks of punched cards and often had to wait hours or even days before printouts were returned to their desks.

Software systems called operating systems were developed to make using computers more convenient. Early operating systems smoothed and speeded up the transition between jobs, and hence increased the amount of work, or throughput, computers could process.

As computers became more powerful, it became evident that single-user batch processing was inefficient, because so much time was spent waiting for slow input/output devices to complete their tasks. It was thought that many jobs or tasks could share the resources of the computer to achieve better utilization. This is called multiprogramming. Multiprogramming involves the simultaneous operation of many jobs that are competing to share the computer's resources. With early multiprogramming operating systems, users still submitted jobs on decks of punched cards and waited hours or days for results.

In the 1960s, several groups in industry and the universities pioneered timesharing operating systems. Timesharing is a special case of multiprogramming in which users access the computer through terminals, typically devices with keyboards and screens. Dozens or even hundreds of users share the computer at once. The computer actually does not run them all simultaneously. Rather, it runs a small portion of one user's job, then moves on to service the next user, perhaps providing service to each user several times per second. Thus, the users' programs appear to be running simultaneously. An advantage of timesharing is that user requests receive almost immediate responses.

Introduction to Computers, the Internet and the World Wide Web

Introduction to Java Applications

Introduction to Classes and Objects

Control Statements: Part I

Control Statements: Part 2

Methods: A Deeper Look

Arrays

Classes and Objects: A Deeper Look

Object-Oriented Programming: Inheritance

Object-Oriented Programming: Polymorphism

GUI Components: Part 1

Graphics and Java 2D™

Exception Handling

Files and Streams

Recursion

Searching and Sorting

Data Structures

Generics

Collections

Introduction to Java Applets

Multimedia: Applets and Applications

GUI Components: Part 2

Multithreading

Networking

Accessing Databases with JDBC

Servlets

JavaServer Pages (JSP)

Formatted Output

Strings, Characters and Regular Expressions

Appendix A. Operator Precedence Chart

Appendix B. ASCII Character Set

Appendix C. Keywords and Reserved Words

Appendix D. Primitive Types

Appendix E. (On CD) Number Systems

Appendix F. (On CD) Unicode®

Appendix G. Using the Java API Documentation

Appendix H. (On CD) Creating Documentation with javadoc

Appendix I. (On CD) Bit Manipulation

Appendix J. (On CD) ATM Case Study Code

Appendix K. (On CD) Labeled break and continue Statements

Appendix L. (On CD) UML 2: Additional Diagram Types

Appendix M. (On CD) Design Patterns

Appendix N. Using the Debugger

Inside Back Cover



Java(c) How to Program
Java How to Program (6th Edition) (How to Program (Deitel))
ISBN: 0131483986
EAN: 2147483647
Year: 2003
Pages: 615

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