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software system and application software

1. The document discusses software systems and applications, outlining the functions of systems software like operating systems and utility programs, and application software. 2. It describes how operating systems control hardware and interface with application programs, and lists popular operating systems like Windows, Mac OS X, Linux, and enterprise systems. 3. The document outlines different types of application software including proprietary, off-the-shelf, and personal, workgroup, and enterprise applications that support individual, group, and organizational goals.

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Software: Systems and Application Software
2 Principles and Learning Objectives 1. Identify and briefly describe the functions of the two basic kinds of software 2. Outline the role of the operating system and identify the features of several popular operating systems 3. Discuss how application software can support personal, workgroup, and enterprise business objectives 4. Identify three basic approaches to developing application software and discuss the pros and cons of each 5. Outline the overall evolution and importance of programming languages and clearly differentiate among the generations of programming languages 6. Identify several key software issues and trends that have an impact on organizations and individuals
3 Why Learn About Software? • Software is indispensable for any computer system • Systems software needed for input, calculations, and output • Application software aids in productivity • Personal tasks using software – Income tax preparation – Keeping a budget – Internet research – Games
4 An Overview of Software • Computer programs: sequences of instructions for the computer • Documentation: describes program functions • Software – system software and application software
5 Systems Software • Systems software: coordinates the activities and functions of hardware and programs • Computer system platform: combination of a hardware configuration and systems software
6 Application Software • Application software: helps users solve particular problems • In most cases, application software resides on the computer’s hard disk • Application software can also be stored on CDs, DVDs, and flash or keychain storage devices
7 Supporting Individual, Group, and Organizational Goals • Organisation – people, workgroup, enterprise – supported with software and IS • Organisation needs to classify the software and IS uses to increase productivity – need to identify the scope of problems and opportunities • Sphere of influence: the scope of problems and opportunities addressed by a particular organisation • For most companies, the spheres of influence are personal, workgroup, and enterprise
8 Supporting Individual, Group, and Organizational Goals (continued) Table 4.1: Software Supporting Individuals, Workgroups, and Enterprises
9 Installing and Removing Software for PCs • Before you can use software, it must be installed on a computer • Software for personal computers typically comes on CDs or is downloaded from the Web • Most operating systems have an add/remove program feature for removing software – Does not work with all software – Does not always remove all elements of the software
10 Systems Software • Systems software – Controls operations of computer hardware – Supports application programs’ problem-solving capabilities • Types of systems software – Operating systems – Utility programs – Middleware
11 Operating Systems • Operating system (OS): set of programs that controls the computer hardware and acts as an interface with application programs • Kernel: ties all components of the OS together and regulates other programs
12 Types of Operating Systems (continued) • Various combinations of OSs, computers, and users – Single computer with a single user – Single computer with multiple users – Multiple computers – Special-purpose computers
13 Operating Systems (continued) • Activities performed by the operating system – Perform common computer hardware functions – Provide a user interface and input/output management – Provide a degree of hardware independence – Manage system memory – Manage processing tasks – Provide networking capability – Control access to system resources – Manage files
14 Operating Systems (continued) Figure 4.4: The Role of Systems Software The role of Systems Software –interface between users, application software and hardware
15 Operating Systems (continued) • OS acts as an intermediary between application and hardware • OS converts basic request into a set of details instruction that the hardware requires • Common hardware functions (e.g.) – Get input from keyboard or some other input device – Retrieve data from disks – Store data on disks – Display information on a monitor or printer
16 Operating Systems Functions 1. User interface and input/output management – User interface: allows individuals to access and command the computer system – Command-based user interface: requires that text commands be given to the computer to perform basic activities – Graphical user interface (GUI): uses icons and menus displayed on screen to send commands to the computer system
17 Operating Systems Functions (continued) 2. Hardware independence – Application program interface (API): allows applications to make use of the operating system 3. Memory management – Control how memory is accessed and maximize available memory and storage
18 Operating Systems Functions (continued) Figure 4.6: Application Program Interface Links Application Software to the Operating System
19 4. Processing tasks – Multitasking: more than one program can run at the same time – Time-sharing: allows more than one person to use a computer system at the same time – Scalability: ability of the computer to handle an increasing number of concurrent users smoothly 5. Networking capability – Features and capabilities of the OS that aid users in connecting to a computer network Operating Systems (continued)
20 Operating Systems (continued) 6. Access to system resources and security – Protection against unauthorized access – Logins and passwords 7. File management – Ensures that files in secondary storage are available when needed and that they are protected from access by unauthorized users
21 Current Operating Systems Table 4.2: Popular Operating Systems Cross All Three Spheres of Influence
22 Current Operating Systems (continued) • Microsoft PC operating systems – PC-DOS and MS-DOS: early, command-driven OSs – Windows XP: greatly improved stability and security over previous versions of Windows – Windows XP N: for European market – Windows XP Professional X64: for computers with newer 64-bit capabilities – Windows XP Media Center Edition: incorporates additional multimedia features – Windows Vista--30 January 2007(Release Date) – Windows 7--22 October 2009 – Windows 8--26 October 2012 – Windows 8.1--18 October 2013 – Windows 10 --29 July 2015
23 Current Operating Systems (continued) • Apple operating systems – Often provide cutting edge tools in graphics and music not available from Microsoft – Mac OS X • Jaguar (OS X.2) • Panther (OS X.3) • Tiger (OS X.4): support for 64-bit computing, Dashboard, Spotlight, etc. • Mac OS X 10.5 Leopard • Mac OS X 10.6 Snow Leopard • Mac OS X 10.7 Lion--October 20, 2010 • OS X 10.8 Mountain Lion • OS X 10.9 Mavericks • OS X 10.10 Yosemite--June 2, 2014 • OS X 10.11 El Capitan--June 8, 2015
24 Current Operating Systems (continued) • Linux – Developed by Linus Torvalds in 1991 – Open-source product – Only the kernel of an OS – Several distributions available with capabilities/applications that form a complete OS • Examples: Red Hat Linux, Caldera OpenLinux
25 Workgroup Operating Systems • Windows Server • UNIX • NetWare • Red Hat Linux • Mac OS X Server
26 Enterprise Operating Systems • z/OS • MPE/iX • HP-UX • Linux
27 Operating Systems for Small Computers, Embedded Computers, and Special-Purpose Devices • Palm OS • Windows Embedded • Windows Mobile
28 Utility Programs • Help to perform maintenance or correct problems with a computer system • Common types of utility programs: – Hardware utilities – Virus-detection and recovery utilities – File-compression utilities – Spam and pop-up blocker utilities
29 Utility Programs (continued) • Network and Internet utilities • Server and mainframe utilities • Other utilities – Manages and protects corporate documents – Helps people with visual disabilities use the Internet – Monitors employees – Searches for files and documents
30 Middleware • Middleware: software that allows different systems to communicate and exchange data • Middleware can also be used as an interface between the Internet and older legacy systems • e.g. ?
31 Application Software • Primary function is to apply the power of the computer to give individuals, workgroups, and the entire enterprise the ability to solve problems and perform specific tasks • Application programs interact with systems software; systems software then directs computer hardware to perform the necessary tasks
32 Overview of Application Software • Proprietary software: one-of-a-kind program for a specific application, usually developed and owned by a single company • Off-the-shelf software: existing software program that is purchased
33 Overview of Application Software (continued) Figure 4.13: Types of Application Software
34 Overview of Application Software (continued) Table 4.4: A Comparison of Proprietary and Off-the-Shelf Software
35 Overview of Application Software (continued) Table 4.4: A Comparison of Proprietary and Off-the-Shelf Software (continued)
36 Personal Application Software • Serves the needs of an individual user • Includes personal productivity software – Enables users to improve their personal effectiveness
37 Personal Application Software (continued) Table 4.5: Examples of Personal Productivity Software
38 Personal Application Software (continued) Table 4.5: Examples of Personal Productivity Software (continued)
39 Personal Application Software (continued) • Software suite: collection of single application programs packaged in a bundle – Microsoft Office: most popular general-purpose software suite – Other general-purpose software suites: Corel’s WordPerfect Office, Lotus SmartSuite, Sun Microsystems’s StarOffice • Integrated application packages: offer a range of capabilities for less money than software suites – Example: Microsoft Works
40 Personal Application Software (continued) Table 4.6: Major Components of Leading Software Suites
41 Workgroup Application Software • Workgroup application software: support teamwork, whether people are in the same location or dispersed around the world • Groupware: software that helps groups of people work together more efficiently and effectively
42 Workgroup Application Software (continued) Table 4.7: Ernst & Young’s “Three Cs” Rule for Groupware
43 Enterprise Application Software • Software that benefits an entire organization • Enterprise resource planning (ERP) software: set of integrated programs that manage a company’s vital business operations for an entire multisite, global organization
44 Enterprise Application Software (continued) Table 4.8: Examples of Enterprise Application Software
45 Application Software for Information, Decision Support, and Specialized Purposes • Specialized application software for information, decision support, and other purposes is available in every industry • Examples – Genetic researchers use software to visualize and analyze the human genome – Music executives use decision support software to help pick the next hit – Decision support software is used to increase the cure rate for cancer
46 Programming Languages • Sets of keywords, symbols, and a system of rules for constructing statements by which humans can communicate instructions to be executed by a computer • Different languages have different characteristics • Syntax: a set of rules associated with a programming language
47 The Evolution of Programming Languages Table 4.9: The Evolution of Programming Languages
48 The Evolution of Programming Languages (continued) • Visual, object-oriented, and artificial intelligence languages are easier for nonprogrammers to use than older generation languages • Visual languages use a graphical or visual interface for program development • Object-oriented programming languages are based on objects • Compiler: a special software program that converts programmer’s source code into machine- language instructions consisting of binary digits
49 The Evolution of Programming Languages (continued) Figure 4.21: Reusable Code in Object-Oriented Programming
50 The Evolution of Programming Languages (continued) Figure 4.23: How a Compiler Works
51 Software Issues and Trends • Because software is such an important part of today’s computer systems, software issues have received increased attention • Major software issues and trends discussed in the text – Software bugs, copyright, software licensing, open- source software, shareware and public domain software, multiorganizational software development, software upgrades, and global software support
Shareware and Freeware The term shareware is used in contrast to open- source software, in which the source code is available for anyone to inspect and alter, and freeware, which is software distributed at no cost to the user but without source code being made available. Principles of Information Systems, Eighth Edition 52
53 Software Bugs • Software bug: defect in a computer program that keeps it from performing as it is designed to perform • Tips for reducing impact of software bugs – Register all software so that you can receive bug alerts, fixes, and patches – Check the manual or read-me files for work-arounds – Access support area of the manufacturer’s Web site for patches – Install the latest software updates
54 Copyrights and Licenses • Most software products are protected by law using copyright or licensing provisions – In some cases, you are given unlimited use of software on one or two computers – In other cases, you pay for your usage—if you use the software more, you pay more • Some software now requires that you register or activate it before it can be fully used
55 Open-Source Software • Open-source software: software freely available to anyone in a form that can be easily modified • Some widely used open-source software packages: Linux OS, Free BSD, Apache, Sendmail, Perl • Open-source software is often more reliable and secure than commercial software • Open-source systems can contain hidden costs, particularly for user support or solving problems with the software
56 Open-Source Software (continued) Table 4.10: Examples of Open-Source Software
57 Shareware, Freeware, and Public Domain Software • Shareware and freeware: software that is very inexpensive or free, but whose source code cannot be modified • Public domain software: shareware and freeware that is in the public domain
58 Software Upgrades • Software companies revise their programs and sell new versions periodically • Revised software may or may not offer any major additional capabilities • Revised software can contain bugs or errors • Software upgrades usually cost much less than the original purchase price
59 Global Software Support • Vendors face the challenge of providing adequate support for their software customers in all locations of the world • Trend of outsourcing global support to one or more third-party distributors
60 Summary • Computer programs: sequences of instructions for the computer • Systems software: coordinates the activities of hardware and programs • Applications software: helps users solve particular problems • Operating system (OS): set of computer programs that controls the computer hardware and acts as an interface with application programs
61 Summary (continued) • Graphical user interface (GUI): user interface that uses icons and menus displayed on screen to send commands to the computer system • Time-sharing: allows more than one person to use a computer system at the same time • Proprietary software: one-of-a-kind program for a specific application, usually developed and owned by a single company • Off-the-shelf software: existing software program that is purchased
62 Summary (continued) • Enterprise resource planning (ERP) software: manages a company’s vital business operations for an entire multisite, global organization • Programming languages: allow humans to communicate instructions to be executed by a computer • Most software products are protected by law using copyright or licensing provisions • Open-source software is freely available to anyone in a form that can be easily modified

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software system and application software

  • 1.
  • 2.
    2 Principles and LearningObjectives 1. Identify and briefly describe the functions of the two basic kinds of software 2. Outline the role of the operating system and identify the features of several popular operating systems 3. Discuss how application software can support personal, workgroup, and enterprise business objectives 4. Identify three basic approaches to developing application software and discuss the pros and cons of each 5. Outline the overall evolution and importance of programming languages and clearly differentiate among the generations of programming languages 6. Identify several key software issues and trends that have an impact on organizations and individuals
  • 3.
    3 Why Learn AboutSoftware? • Software is indispensable for any computer system • Systems software needed for input, calculations, and output • Application software aids in productivity • Personal tasks using software – Income tax preparation – Keeping a budget – Internet research – Games
  • 4.
    4 An Overview ofSoftware • Computer programs: sequences of instructions for the computer • Documentation: describes program functions • Software – system software and application software
  • 5.
    5 Systems Software • Systemssoftware: coordinates the activities and functions of hardware and programs • Computer system platform: combination of a hardware configuration and systems software
  • 6.
    6 Application Software • Applicationsoftware: helps users solve particular problems • In most cases, application software resides on the computer’s hard disk • Application software can also be stored on CDs, DVDs, and flash or keychain storage devices
  • 7.
    7 Supporting Individual, Group,and Organizational Goals • Organisation – people, workgroup, enterprise – supported with software and IS • Organisation needs to classify the software and IS uses to increase productivity – need to identify the scope of problems and opportunities • Sphere of influence: the scope of problems and opportunities addressed by a particular organisation • For most companies, the spheres of influence are personal, workgroup, and enterprise
  • 8.
    8 Supporting Individual, Group,and Organizational Goals (continued) Table 4.1: Software Supporting Individuals, Workgroups, and Enterprises
  • 9.
    9 Installing and RemovingSoftware for PCs • Before you can use software, it must be installed on a computer • Software for personal computers typically comes on CDs or is downloaded from the Web • Most operating systems have an add/remove program feature for removing software – Does not work with all software – Does not always remove all elements of the software
  • 10.
    10 Systems Software • Systemssoftware – Controls operations of computer hardware – Supports application programs’ problem-solving capabilities • Types of systems software – Operating systems – Utility programs – Middleware
  • 11.
    11 Operating Systems • Operatingsystem (OS): set of programs that controls the computer hardware and acts as an interface with application programs • Kernel: ties all components of the OS together and regulates other programs
  • 12.
    12 Types of OperatingSystems (continued) • Various combinations of OSs, computers, and users – Single computer with a single user – Single computer with multiple users – Multiple computers – Special-purpose computers
  • 13.
    13 Operating Systems (continued) •Activities performed by the operating system – Perform common computer hardware functions – Provide a user interface and input/output management – Provide a degree of hardware independence – Manage system memory – Manage processing tasks – Provide networking capability – Control access to system resources – Manage files
  • 14.
    14 Operating Systems (continued) Figure4.4: The Role of Systems Software The role of Systems Software –interface between users, application software and hardware
  • 15.
    15 Operating Systems (continued) •OS acts as an intermediary between application and hardware • OS converts basic request into a set of details instruction that the hardware requires • Common hardware functions (e.g.) – Get input from keyboard or some other input device – Retrieve data from disks – Store data on disks – Display information on a monitor or printer
  • 16.
    16 Operating Systems Functions 1.User interface and input/output management – User interface: allows individuals to access and command the computer system – Command-based user interface: requires that text commands be given to the computer to perform basic activities – Graphical user interface (GUI): uses icons and menus displayed on screen to send commands to the computer system
  • 17.
    17 Operating Systems Functions (continued) 2.Hardware independence – Application program interface (API): allows applications to make use of the operating system 3. Memory management – Control how memory is accessed and maximize available memory and storage
  • 18.
    18 Operating Systems Functions (continued) Figure4.6: Application Program Interface Links Application Software to the Operating System
  • 19.
    19 4. Processing tasks –Multitasking: more than one program can run at the same time – Time-sharing: allows more than one person to use a computer system at the same time – Scalability: ability of the computer to handle an increasing number of concurrent users smoothly 5. Networking capability – Features and capabilities of the OS that aid users in connecting to a computer network Operating Systems (continued)
  • 20.
    20 Operating Systems (continued) 6.Access to system resources and security – Protection against unauthorized access – Logins and passwords 7. File management – Ensures that files in secondary storage are available when needed and that they are protected from access by unauthorized users
  • 21.
    21 Current Operating Systems Table4.2: Popular Operating Systems Cross All Three Spheres of Influence
  • 22.
    22 Current Operating Systems(continued) • Microsoft PC operating systems – PC-DOS and MS-DOS: early, command-driven OSs – Windows XP: greatly improved stability and security over previous versions of Windows – Windows XP N: for European market – Windows XP Professional X64: for computers with newer 64-bit capabilities – Windows XP Media Center Edition: incorporates additional multimedia features – Windows Vista--30 January 2007(Release Date) – Windows 7--22 October 2009 – Windows 8--26 October 2012 – Windows 8.1--18 October 2013 – Windows 10 --29 July 2015
  • 23.
    23 Current Operating Systems(continued) • Apple operating systems – Often provide cutting edge tools in graphics and music not available from Microsoft – Mac OS X • Jaguar (OS X.2) • Panther (OS X.3) • Tiger (OS X.4): support for 64-bit computing, Dashboard, Spotlight, etc. • Mac OS X 10.5 Leopard • Mac OS X 10.6 Snow Leopard • Mac OS X 10.7 Lion--October 20, 2010 • OS X 10.8 Mountain Lion • OS X 10.9 Mavericks • OS X 10.10 Yosemite--June 2, 2014 • OS X 10.11 El Capitan--June 8, 2015
  • 24.
    24 Current Operating Systems (continued) •Linux – Developed by Linus Torvalds in 1991 – Open-source product – Only the kernel of an OS – Several distributions available with capabilities/applications that form a complete OS • Examples: Red Hat Linux, Caldera OpenLinux
  • 25.
    25 Workgroup Operating Systems •Windows Server • UNIX • NetWare • Red Hat Linux • Mac OS X Server
  • 26.
    26 Enterprise Operating Systems •z/OS • MPE/iX • HP-UX • Linux
  • 27.
    27 Operating Systems forSmall Computers, Embedded Computers, and Special-Purpose Devices • Palm OS • Windows Embedded • Windows Mobile
  • 28.
    28 Utility Programs • Helpto perform maintenance or correct problems with a computer system • Common types of utility programs: – Hardware utilities – Virus-detection and recovery utilities – File-compression utilities – Spam and pop-up blocker utilities
  • 29.
    29 Utility Programs (continued) •Network and Internet utilities • Server and mainframe utilities • Other utilities – Manages and protects corporate documents – Helps people with visual disabilities use the Internet – Monitors employees – Searches for files and documents
  • 30.
    30 Middleware • Middleware: softwarethat allows different systems to communicate and exchange data • Middleware can also be used as an interface between the Internet and older legacy systems • e.g. ?
  • 31.
    31 Application Software • Primaryfunction is to apply the power of the computer to give individuals, workgroups, and the entire enterprise the ability to solve problems and perform specific tasks • Application programs interact with systems software; systems software then directs computer hardware to perform the necessary tasks
  • 32.
    32 Overview of ApplicationSoftware • Proprietary software: one-of-a-kind program for a specific application, usually developed and owned by a single company • Off-the-shelf software: existing software program that is purchased
  • 33.
    33 Overview of ApplicationSoftware (continued) Figure 4.13: Types of Application Software
  • 34.
    34 Overview of ApplicationSoftware (continued) Table 4.4: A Comparison of Proprietary and Off-the-Shelf Software
  • 35.
    35 Overview of ApplicationSoftware (continued) Table 4.4: A Comparison of Proprietary and Off-the-Shelf Software (continued)
  • 36.
    36 Personal Application Software •Serves the needs of an individual user • Includes personal productivity software – Enables users to improve their personal effectiveness
  • 37.
    37 Personal Application Software (continued) Table4.5: Examples of Personal Productivity Software
  • 38.
    38 Personal Application Software (continued) Table4.5: Examples of Personal Productivity Software (continued)
  • 39.
    39 Personal Application Software (continued) •Software suite: collection of single application programs packaged in a bundle – Microsoft Office: most popular general-purpose software suite – Other general-purpose software suites: Corel’s WordPerfect Office, Lotus SmartSuite, Sun Microsystems’s StarOffice • Integrated application packages: offer a range of capabilities for less money than software suites – Example: Microsoft Works
  • 40.
    40 Personal Application Software (continued) Table4.6: Major Components of Leading Software Suites
  • 41.
    41 Workgroup Application Software •Workgroup application software: support teamwork, whether people are in the same location or dispersed around the world • Groupware: software that helps groups of people work together more efficiently and effectively
  • 42.
    42 Workgroup Application Software (continued) Table4.7: Ernst & Young’s “Three Cs” Rule for Groupware
  • 43.
    43 Enterprise Application Software •Software that benefits an entire organization • Enterprise resource planning (ERP) software: set of integrated programs that manage a company’s vital business operations for an entire multisite, global organization
  • 44.
    44 Enterprise Application Software (continued) Table4.8: Examples of Enterprise Application Software
  • 45.
    45 Application Software forInformation, Decision Support, and Specialized Purposes • Specialized application software for information, decision support, and other purposes is available in every industry • Examples – Genetic researchers use software to visualize and analyze the human genome – Music executives use decision support software to help pick the next hit – Decision support software is used to increase the cure rate for cancer
  • 46.
    46 Programming Languages • Setsof keywords, symbols, and a system of rules for constructing statements by which humans can communicate instructions to be executed by a computer • Different languages have different characteristics • Syntax: a set of rules associated with a programming language
  • 47.
    47 The Evolution ofProgramming Languages Table 4.9: The Evolution of Programming Languages
  • 48.
    48 The Evolution ofProgramming Languages (continued) • Visual, object-oriented, and artificial intelligence languages are easier for nonprogrammers to use than older generation languages • Visual languages use a graphical or visual interface for program development • Object-oriented programming languages are based on objects • Compiler: a special software program that converts programmer’s source code into machine- language instructions consisting of binary digits
  • 49.
    49 The Evolution ofProgramming Languages (continued) Figure 4.21: Reusable Code in Object-Oriented Programming
  • 50.
    50 The Evolution ofProgramming Languages (continued) Figure 4.23: How a Compiler Works
  • 51.
    51 Software Issues andTrends • Because software is such an important part of today’s computer systems, software issues have received increased attention • Major software issues and trends discussed in the text – Software bugs, copyright, software licensing, open- source software, shareware and public domain software, multiorganizational software development, software upgrades, and global software support
  • 52.
    Shareware and Freeware Theterm shareware is used in contrast to open- source software, in which the source code is available for anyone to inspect and alter, and freeware, which is software distributed at no cost to the user but without source code being made available. Principles of Information Systems, Eighth Edition 52
  • 53.
    53 Software Bugs • Softwarebug: defect in a computer program that keeps it from performing as it is designed to perform • Tips for reducing impact of software bugs – Register all software so that you can receive bug alerts, fixes, and patches – Check the manual or read-me files for work-arounds – Access support area of the manufacturer’s Web site for patches – Install the latest software updates
  • 54.
    54 Copyrights and Licenses •Most software products are protected by law using copyright or licensing provisions – In some cases, you are given unlimited use of software on one or two computers – In other cases, you pay for your usage—if you use the software more, you pay more • Some software now requires that you register or activate it before it can be fully used
  • 55.
    55 Open-Source Software • Open-sourcesoftware: software freely available to anyone in a form that can be easily modified • Some widely used open-source software packages: Linux OS, Free BSD, Apache, Sendmail, Perl • Open-source software is often more reliable and secure than commercial software • Open-source systems can contain hidden costs, particularly for user support or solving problems with the software
  • 56.
    56 Open-Source Software (continued) Table4.10: Examples of Open-Source Software
  • 57.
    57 Shareware, Freeware, andPublic Domain Software • Shareware and freeware: software that is very inexpensive or free, but whose source code cannot be modified • Public domain software: shareware and freeware that is in the public domain
  • 58.
    58 Software Upgrades • Softwarecompanies revise their programs and sell new versions periodically • Revised software may or may not offer any major additional capabilities • Revised software can contain bugs or errors • Software upgrades usually cost much less than the original purchase price
  • 59.
    59 Global Software Support •Vendors face the challenge of providing adequate support for their software customers in all locations of the world • Trend of outsourcing global support to one or more third-party distributors
  • 60.
    60 Summary • Computer programs:sequences of instructions for the computer • Systems software: coordinates the activities of hardware and programs • Applications software: helps users solve particular problems • Operating system (OS): set of computer programs that controls the computer hardware and acts as an interface with application programs
  • 61.
    61 Summary (continued) • Graphicaluser interface (GUI): user interface that uses icons and menus displayed on screen to send commands to the computer system • Time-sharing: allows more than one person to use a computer system at the same time • Proprietary software: one-of-a-kind program for a specific application, usually developed and owned by a single company • Off-the-shelf software: existing software program that is purchased
  • 62.
    62 Summary (continued) • Enterpriseresource planning (ERP) software: manages a company’s vital business operations for an entire multisite, global organization • Programming languages: allow humans to communicate instructions to be executed by a computer • Most software products are protected by law using copyright or licensing provisions • Open-source software is freely available to anyone in a form that can be easily modified