Saturday, July 31, 2010

ComputerGuide: Recommendations and common questions

On this page:

Supported operating systems
New computer hardware minimum recommendations
Minimum requirements for existing hardware (i.e., a computer you already own)
What type of computer should I buy: Windows or Mac?
Should I get a desktop computer, a laptop, or a netbook?
Do I need to have a printer in the dorms at IUB?
Do I need an Ethernet card, wireless adapter, or modem?
What wireless protocols will work at IU?
Which Ethernet switches should I use?
Can I have my computer delivered to my residence hall at IU?
Can I get special computer deals as a student?
What software do I need to buy?

Supported operating systems

Windows

Windows 7, Vista (Enterprise or Ultimate), and XP Professional are the recommended Windows operating systems at IU. Adopters of Windows 7 and Vista may experience some application compatibility and hardware driver support issues, and UITS thus recommends that you first be sure your applications, devices, and hardware are fully supported by the respective vendors. For details and to run a compatibility scan, see Windows 7 compatibility starts here or Windows Vista Compatibility Center. UITS strongly discourages using Windows 95, 98, Me, or 2000 for reasons of security and full access to IU resources.
For more, see Recommended Windows operating systems at IU.

Mac

UITS recommends Mac OS X version 10.5.8 or greater, and strongly discourages use of older versions of Mac OS; older versions may have compatibility issues with some university online resources.

Mobile devices

iPhone, iPad, Droid, and other mobile devices can access the wireless network and use some online services at IU; however, not all online services have been optimized for these devices and their smaller screens.

Linux

IU has a license for students, faculty, and staff to use Red Hat Enterprise Linux. Numerous community-based distributions, such as Ubuntu Linux and Fedora Core, may prove suitable for some as they tend to offer more recent hardware drivers. For more about Linux distributions, see DistroWatch.com.
UITS also mirrors many popular Linux distributions.
Note: The Dell wireless bundle, which is a Broadcom chipset with Broadcom drivers, won't work with the IU Secure wireless network on laptops running Linux.
The Linux distributions installed on most netbook-class computers, such as Asus Eee PC and the Acer Aspire One, will not work with the IU Secure wireless network. These distributions are very limited in the software available to them and they do not tend to support the wireless security levels IU has in place.
The Dell devices that come with Linux use Ubuntu, which supports connecting with IU Secure, but will have difficulties if purchased with the Dell wireless bundle. Additionally, installing Ubuntu 10.04 on the Eee PC should allow you to connect to IU Secure.

New computer hardware minimum recommendations

To use all the technology services available at IU, UITS suggests the following minimum hardware components for a new purchase. IU students, faculty, and staff can take advantage of special computer deals; see ComputerGuide: Deals by vendor. Also, on this page, see Do I need an Ethernet card, wireless adapter, or modem?

Laptop

	New Windows laptop	New Mac laptop
Processor:	1.73GHz or higher Intel or AMD	2.4GHz Intel Core 2 Duo
Memory (RAM):	2GB	2GB
Hard drive:	120GB Ultra SATA	250GB SATA
Network card:	802.11b/g/n wireless card	Wireless built in
Optical drive:	24X DVD-ROM/CD-RW	8x dual-layer SuperDrive (DVD-R DL/DVD-RW/CD-RW)
Operating system:	Windows 7 Enterprise (recommended), Windows 7 Ultimate (recommended), Windows Vista Enterprise, Vista Ultimate, or XP Professional with Service Pack 3	Mac OS X 10.6 (Snow Leopard)

Desktop

	New Windows desktop	New Mac desktop
Processor:	2.2GHz or higher Intel or AMD	2.4GHz Intel Core 2 Duo
Memory (RAM):	2GB	2GB SDRAM
Hard drive:	120GB SATA	350GB SATA
Video card:	Non-integrated and DirectX compatible	NVIDIA GeForce 320M graphics
Optical drive:	24X DVD-ROM/CD-RW	8x dual-layer SuperDrive (DVD-R DL/DVD-RW/CD-RW)
Operating system:	Windows 7 Enterprise (recommended), Windows 7 Ultimate (recommended), Windows Vista Enterprise, Vista Ultimate, or XP Professional with Service Pack 3	Mac OS X 10.6 (Snow Leopard)

Minimum requirements for existing hardware (i.e., a computer you already own)

If you own a computer you plan to bring to campus, it should meet certain hardware requirements to function effectively within the IU computing environment. Do not use these specifications for a new computer purchase; instead, see the New computer hardware recommendations above.

	Minimum Windows requirements	Minimum Mac requirements
Processor:	1GHz or higher Intel or AMD	1.83 GHz Intel Core Duo
Memory (RAM):	512MB SDRAM	1GB SDRAM
Hard drive:	40GB Ultra ATA	80GB SATA
Video card:	DirectX compatible with 128MB RAM	ATI Radeon X1600 with 128MB RAM
Optical drive:	8X DVD-ROM	8X DVD-ROM
Operating system:	Windows XP	Mac OS X 10.5.8 (Leopard)

If you use a computer with the above specifications, you may find it sluggish when opening more than one program at once. If you need to only check email and do simple word processing, you may find these minimum hardware specifications adequate.
UITS strongly recommends that you use Windows 7, Vista, or XP Professional, or Mac OS X 10.5 or higher. When using older operating systems, you may find it difficult to use certain IU network services.
Note: When bringing your own computer to IU, be sure to bring all your software installation media and documentation.

What type of computer should I buy: Windows or Mac?

Both operating systems are well supported at IU. The most useful software packages (i.e., word processing, spreadsheets, communication software, and web browsers) look similar and perform well on both platforms. Some academic programs that rely heavily on business-oriented software are better served by the Windows platform, but some programs that rely heavily on graphics and multimedia software are better served by the Mac platform.
Consult your department to see what is recommended. IU has a diverse environment; choose the computer you prefer, or the one that best fits your budget. Be sure you use the New computer hardware minimum recommendations to make your purchase.
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Should I get a desktop computer, a laptop, or a netbook?

A netbook is a type of mobile computer, defined by size, price, horsepower, and operating system. They are small, inexpensive, and have limited functionality. Unfortunately, the distributions of Linux bundled with many netbooks do not work with IU's wireless network, IU Secure. Most netbooks running Windows are compatible with IU Secure.
Laptops allow you to take your work with you and connect to IU Secure, available in most areas on campus. IU's minimum hardware specifications for used laptops are the same as for used desktops. Other factors that you may want to consider when making your decision include:

Comfort: Desktop systems are easier to work at when you spend long hours on the computer. A laptop keyboard can be hard on your hands and posture. A desktop system is easier on your eyes, arms, back, and hands simply because of positioning and the ergonomic design of most keyboards, mice, and monitors. However, you can use equipment such as a docking station, extended keyboard, second monitor, and external mouse to make it more comfortable to use the laptop for extended periods of time.
Footprint (desk space): Surprisingly, a laptop can have a rather large footprint, depending on the model, and could take up as much room on the desk as a desktop keyboard, mouse, and monitor, especially when compared to today's flat screen monitors.
Mobility: If you need to take your computer to class or on the road, then of course a laptop is the best choice. Keep in mind that you might have to connect and disconnect all peripherals each time you take your laptop with you. If this might be a problem, consider a docking station. Many students plan to carry their laptop to campus every day, but change their mind after the first few weeks.
Cost: Laptop computers are more expensive than desktop computers, especially if you buy external equipment such as a docking station and second monitor. In general, hardware for desktop computers is easier and less expensive to service and upgrade.
Energy use: Laptops typically use less electricity than desktop computers; see How can I minimize my computer's impact on the environment?

Do I need to have a printer in the dorms at IUB?

You do not need to bring a printer to campus, as printers are available in the Student Technology Centers and Residential Technology Centers (STCs/RTCs), but you may find it convenient to have a printer in your room. If you don't bring a printer to school and you live in campus housing, you can use the Printer Configuration Utility to configure your computer to print to the network printers in your residence hall or apartment building.

Do I need an Ethernet card, wireless adapter, or modem?

If you live on campus, you must have an Ethernet card installed in your computer and an IU Network ID before you can use the campus network cable in your dorm room. Each double-occupancy dorm room on campus has one phone jack and two Ethernet jacks. If your computer does not have an Ethernet card but does have a wireless card, you should be able to access the Internet over the wireless network from your dorm room.
If you live off campus, you may have a choice of using an Ethernet connection offered by your leasing agent or getting cable modem or DSL service. These options both require a network card to connect. Contact your leasing office about available Ethernet connections. To set up cable modem service, contact a local cable company; to set up DSL service, contact a local phone company.
If you live off campus and will not be using an Ethernet connection provided by your apartment complex, DSL, or a cable modem service, you must have a 56K V.90 modem in your computer in order to dial into the IU network.
Mac and Windows systems have built-in Ethernet cards; many models also offer modems.

What wireless protocols will work at IU?

Secure wireless access is widely available at IUB, IUPUI, and IU East over 802.11 b/g. Many access points also support 802.11n in the 5GHz spectrum.
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Which Ethernet switches should I use?

Routers are only allowed in selected areas on campus; see At IU, may I add a wireless access point to my campus housing residence, classroom, or office? However, Ethernet hubs, repeaters, and switches are a cost-effective way to provide network connectivity to multiple devices via a single data jack. Unfortunately, improperly implemented switches can result in network problems for an entire building or even, in some rare cases, an entire campus.
To prevent network problems, end-user Ethernet switches on the IU network must meet the basic requirements published by UITS. For an explanation of these requirements, and for testing instructions, see At IU, is my Ethernet switch compatible with the campus network?
UITS recommends the following Ethernet switches:

D-Link 8-Port 10/100/1000 Desktop Switch
Netgear Prosafe 8-Port Gigabit Desktop Switch
Linksys Business Series 5-Port 10/100/1000 Gigabit Switch
HP ProCurve 408 8-Port 10/100 Switch

For detailed information, see At IU, what switches are recommended for use on the campus network?

Can I have my computer delivered to my residence hall at IU?

Note: Although the university will take all reasonable precautions, IU cannot assume liability for your personal possessions, including computers shipped to the residence halls.
Note: All shipments must arrive no sooner than three days prior to your moving in.
To have your computer delivered to your residence hall or on-campus apartment, specify the following delivery address when ordering your computer:

IUB	IUPUI
Indiana University Your Residence Hall Bloomington, IN 47406 Attn: Your Name	IUPUI Your Residence Hall Indianapolis, IN 46202 Attn: Your Name

Replace "Your Name" with your full name and "Your Residence Hall" with the name of the building you will be living in (e.g., Teter Quad). Your computer will be shipped to that building. If it arrives too early, it will be rejected and returned to the sender. If it arrives no more than three days prior to move-in, staff will place it in your room. Although you will have to set up the computer yourself, Technology Center Consulting (TCC) will be available to assist you in getting your computer connected to the campus networ

Basic Knowledge and Skills

Basic Computer Knowledge for Beginners

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By Alex Cosper, eHow Contributing Writer

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Basic website: tangentsunset.com.

Jumping on a computer for the first time can be fun and easy as long as you keep in mind that computers were designed to make life easier, not more complex. Unlike technology of the past, which was based on the all-in-one concept, PC systems usually come in parts, divided into hardware and software, although Mac systems are all-in-one. Hardware makes up the physical elements of the computer, such as the hard drive, whereas software provides the operating system and the programs that allow you to create computer files.

Multiple Brands

Since the 1990s, the most popular operating system has been Microsoft Windows, which appeals to the business community, while Apple MacIntosh (aka "Mac") has been a favorite among graphic artists, musicians and other high-end media users. Windows and its offspring (XP, Vista) run on a PC, which has come to mean any personal computer besides a Mac. Both Macs and PCs are powered by a chip known as the central processing unit or CPU. Intel and AMD are leading manufacturers of computer chips. Other popular PC brands include Hewlett Packard and Dell.

Files and Folders

The most basic product that can be created on a computer is a file. A file can be a letter, a report, a photo, a song, a video and anything else that can be produced digitally. A file is expressed by its file name followed by a dot and an extension. The extension makes it easy to recognize what type of file it is. For example, many documents are saved with the ".doc" extension, so "calendar.doc" would be an example of a file named "calendar" saved as a Word document. There are many different file extensions. You can organize files by putting them in folders, just like how a filing cabinet is a storage unit for folders filled with files. You can also store folders within folders.

Creating Files

Creating a computer file is a very simple procedure. It involves a few clicks. At the top of every program is usually an option called "File." Click "File" and then you'll see a drop-down menu that includes choices such as "New," "Open" and "Save." By clicking "New" you can start a new file. When you click "Open" you'll be able to open an existing file. "Save" is what you click as soon as you decide you want to archive the file for later use. Once you know how to create and store files you will want to learn more about specific software programs that will speed up your work. Microsoft Office is a suite of programs commonly used for general office functions.

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Computer Basics for Beginners

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By Elizabeth Chaplin, eHow Contributing Writer

Article Rating: (3 Ratings

Computer Basics for Beginners

For anyone who has ever owned a computer, knowing the basics is a piece of cake. However, if you're a new computer owner, it may not seem so easy. The most important thing is to understand the basic--yet vital--components of your computer first; then you can move onward and upward from there.

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The Components

Just one of the many types of desktop computers
Any desktop computer that you purchase will have the same basic elements: a monitor, a keyboard, a mouse and a central processing unit, or CPU. Each of these components are easily locatable and should be within easy access at all times. The monitor is the screen with which you can view games, business documents, the Internet and more. The keyboard is much like a typewriter and can be used for word processing. The mouse is a small, hand-held pointing device that is used to guide the digital cursor across the monitor screen. The CPU is the most important, as it is essentially the "brains" of your computer.

Monitor

A standard flat-screen monitor
The monitor of your desktop computer is fundamental in that it allows you to see what your computer is doing. It can be turned on with the push of a button, which is usually located in the lower right- or left-hand corner of the monitor itself. Screen size and shape can vary depending on what type of computer you have. It is much like a television set, but you control the outcome using the other components of your computer--the mouse and keyboard. Play games, reply to emails and even watch videos using your monitor.

Keyboard

A basic keyboard
The keyboard is an arrangement of buttons--or keys--that allow you to input words and commands. Set up much like a typewriter, the keyboard uses the modern QWERTY key configuration including letters and numbers. There are also command keys such as the Enter/Return, Backspace, Shift and Cntrl.

Mouse

A standard mouse with two buttons
A computer mouse is usually a small plastic tool with one or two buttons; this serves as a pointing device that appears on your monitor screen. When you move the mouse, a cursor appears--usually as a small arrow--on your screen. Double-clicking the left mouse button allows you to open programs and files. When the right mouse button is clicked, a menu appears that allows you to choose other options for the program/file you want to access.

Central Processing Unit (CPU)

The CPU, which houses the hard drive, CD/DVD and USB drives
The CPU is the most essential part of your workstation. It carries out the calculations your computer needs to perform effectively. It is attached to a motherboard, which is the "body" of your computer. There are many other components to your CPU, such as the hard drive, power supply and removable media. The hard drive is the internal memory; everything you save (such as photos and documents) is stored on your hard drive. The power supply is what keeps your computer running, and is plugged into an electrical wall socket or power strip. A fan keeps the power supply cool while it is running. The removable media components can include--but aren't limited to--the CD/DVD and USB drives. Files from your computer can also be stored using removable media.

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Computer Knowledge

When it comes to your computer, how many times have you said things to yourself like "it's not fast enough", "it froze AGAIN", or even asked "why won't my video game play"?

If this sounds like you, then your computer may not be running to the best of its ability; or maybe your computer needs have changed, but your computer has not. However, buying a brand new computer is not the only way to get what you want out of your computer system. Maybe all you need is a simple component upgrade to get your computer up to par. The information on Computer Knowledge For You can set you up with the building blocks for a faster, more efficient running computer. Before you venture into the world of computers alone and risk unnecessary mistakes, take the time to look over this website. It will provide you with valuable and straightforward knowledge to help you achieve your computer goals. Whether you are considered "computer illiterate" or find yourself in the category of "geek" much like myself, the knowledge I am going to reveal to you can save you a lot of time and trouble.

Computer Components

Computer Components are all of the hardware or parts that make a computer system operate. It is essential for anybody that uses a computer today to know the basic knowledge about computer components and how a computer operates. Knowing this valuable information can help you one day if you ever have to perform maintenance or upgrade your computer. You can consider the computer components section your introduction to computers.

Basic Computer Components

Computers come in all different shapes and forms (examples: desktops, laptops), but the main components that make up a computer pretty much stay the same. Components can also be refereed to as; hardware or parts. Throughout this website I will explain the various components in a PC computer, and try my best to give you the information you need to better understand how your computer works. Some of this information is considered basic computer knowledge, but there is no better place to start with than with the basics. Knowing this valuable information can help you if you are going to buy, repair, maintain or even build your own computer.

Computer Components

Every computer Consists of the following basic components:

Computer Case - Where all of the components are stored.
CPU - It is basically the brain of your computer. The CPU is a used to process everything from basic to complex functions in a computer.
RAM - RAM is memory that attaches to the motherboard. RAM is hardware used to temporarily store and access data.
Motherboard - A Motherboard is the most important component in a computer system. All of the other hardware in a computer system connect to the motherboard.
Power Supply - A Power Supply is the sends power to all of the other hardware so they can operate.
Hard Drive - A Hard Drive is used for permanently storing files and programs.
Disk Drives - Disk Drives can be a floppy drive, CD drive, DVD drive or other possible file storage devices that are used in a computer.
Video Card - A Video Card is the part of a computer system that converts binary code from the CPU so you can view it on a monitor.
Monitor - The part of a computer that allows you to see what the computer is processing.
Keyboard - A keyboard allows a computer user to enter text commands into a computer system.
Mouse - A mouse allows a computer user to use a point and click interface to enter commands.

Using a picture of the inside of a computer, I have labeled where each component is inside the computer. This will be the most helpful if you are looking for information before you repair or upgrade the components in your computer.

Know the Different Computers

Computers apart from a physical entity have also been synchronized into the daily lives of people in several forms. Categorically a computer system can be divided into 3 main forms that are being used widely. They are the desktop, laptop and palmtop. However, part from these three categories of computer system, it has also been divide into different types depending on their use and are hence are divided basically in an uncategorized way. There has been automation in almost every sphere of human life where these uncategorized computers play a very important role. The un-categorized computers are:-

Personal Computers – Also widely known as PC these are the computers that are basically for the household and are mostly used by the people who like to work from home or is the type of computer that is completely used from the home. The configuration of a personal computer basically depends on the requirement of the user and the type of work they need to extract from the computer system.

Workstation Computers – these types of computer systems are widely used by the engineers and several technicians. The main difference between the PC and the workstation computers are the computation speed of the CPU which is enhanced by much advanced configuration as compared to the PC. The processors of these computers are designed to meet the graphics demand and designing purpose as desired by the user. These computers can handle voluminous data efficiently that is required as per the requirement.

Supercomputers – These computers are mainly used for computational purposes and are quite advanced in use as well as in the configuration as compared to the personal computers and the workstation computers. The configuration is mainly advanced in terms of its RAM and memory storage as well as the frequency of operation and the use is for tedious mathematical calculations etc.

Mainframe Computers – this category of computers is of standard configuration but is used on much wider scale by educational institutions and such large domains for as a server computer that serves the requests to around 500-600 computers.

Apart from these categories of computers based on the use, computer systems are also divided on the basis of their electronic nature. They are:-

Analog Computers – As quite obvious from the name, these computers are based on analog techniques and uses analog signals. They proceed after measuring the changes that are physical in nature such as pressure; temperature etc. and accordingly the pre decided arithmetic and logical operations are performed.

Digital Computers – They are the computers that have very high programming speed. This is because they operate on two digital states i.e. high and low which gives them an edge as compared to the analog computers.

Hybrid Computers – A mixture of both analog and digital computers yields the hybrid computers. They have operations of which some resemble to the operations of digital computer techniques and some of the analog computer techniques. In short, it is a combination of the main points of the analog and digital computers

Computer Basics that you must know nowadays

One can’t undermine the importance of computer in a person’s life in today’s world. No matter in which field you are working or what you are studying, if you are not using computer then it can be said that you are unnecessarily missing out on a big advantage. There are people who have this phobia for computers and they think that it is too complicated to handle. Operating a computer hardly requires any special skill that you need to possess. All that you need to do is get to know certain computer basics which will provide you with a general idea about the functioning of a computer and then nothing will seem difficult.

If you don’t have any idea about how a computer works then the first thing that you should do is to get acquainted with all the devices of a computer. Have a clear idea about the various input and output devices of a computer and know which device is used for what purpose. It may sound strange but it is true that initially people often find it difficult to put the mouse pointer at a desired place on the screen. Certain things like knowing the difference between a hardware and software or what are the various operating systems that are available and used mostly can increase your computer knowledge remarkably.

An operating system can be called as the main driver of your computer which makes it possible for you to perform various computer activities by linking different hardware to different applications. The most widely used Operating Systems are the ones made by Windows like Windows XP, Windows Vista etc. There are other Operating Systems like MAC or Linux which are mainly used for specialized purposes.

As most people use the Windows Operating Systems so if you want to know the computer basics then it is sensible for you to start with MS Office. MS Office is a program consisting mainly of MS Word, MS Excel and MS PowerPoint which makes writing, calculating and making presentations convenient for us. MS Word is used all across the globe by everyone for writing purposes. It is an application which makes you write error free English in whatever size or font you prefer. It has a built in thesaurus which can provide you with a god stock of words and it also detect any spelling mistake or grammatical error in your writing. MS Excel is mainly used by people for data entry. It is a spreadsheet where you can put quantitative details in an organized manner. By using this application, you can do long and tiresome calculations within no time. MS PowerPoint is an application used by people in order to make presentations.

Among computer basics, another thing which should be known to you is how to use the internet. Visiting a website, sending mails, chatting etc. are some of the things which you should be aware of. There are various Internet Browsers using which you can access the internet. Knowing how to use an internet browser is extremely important nowadays. Computer is also a device which you can use effectively for entertainment purposes like listening music or watching movies. So, when you are learning the computer basics, knowing how to operate a media player in a computer might also become handy

Computer Components that make your Computer work

Computers have become an indispensable part of our lives. From a 5 year old kid to the CEO of some big multinational company, none can think of spending a day without using computers. Be it for entertainment purposes, communication purposes or for office purposes, this is a device which invariably comes first in the minds of people. There are certain things which are responsible for the way your computer works. A single fault in one of the various computer components of your computer can result in sluggish or no performance at all. It is thus important for everyone using computers to be aware of the computer components which make a computer cater to all your requirements.

The motherboard of your computer is the most important component. It is in the motherboard that other important components like the microprocessor, memory and drive controllers reside. The performance of your computer largely depends on the microprocessor you are using. A processor is the component which receives all the instructions entered by you in the computer and then it makes the computer work accordingly. The most commonly used processors are the Pentium processors like Celeron and Xeon. Memory is the component that retains and stores data in your computer. Also referred to as RAM (Random Access Memory), the memory of a computer is directly attached on the motherboard of the computer and it excels the computer’s performance. Besides these, other devices supporting sound or graphics are also installed on the motherboard of a computer

Of the other computer components, the first thing that needs to be mentioned is the Hard Disk of your computer. A Hard Disk is the device that stores data permanently on your computer. Hard Disks generally come in sizes of 10 GB, 40 GB, 160 GB, etc. People nowadays have stopped using 10 GB disks as they have become passé. With so many information now needed to be stored in a computer, 160 GB has become a minimum. Even when it comes to memory, no one can think of a memory below 256 MB.

CD- ROMs have made way for DVD- ROMs as DVDs can contain far more data compared to CDs. A DVD- ROM is a device which makes DVDs run on your computer. If you want you can also buy a DVD Writer which will enable you to make DVDs of your own. Along with CD- ROMs people used to count on Floppy Drives when they needed to store small sized files in a floppy. Still it is also very much one among the various computer components but its use has decreased to a significant level since the advent of Pen Drives. The USB Drive of a computer has become more important as by plugging a Pen Drive into it one can store or transfer huge amount of data.

Lastly, certain computer components like Monitor, Mouse and Keyboard must be mentioned because without these, one can’t think about working in a computer. Other devices like speakers, printers and scanners have also contributed in making computer the most useful machine of the century.

Computer science

Computer science:or computing science
(sometimes abbreviated CS) is the study of the theoretical foundations of information and computation, and of practical techniques for their implementation and application in computer systems. It is frequently described as the systematic study of algorithmic processes that create, describe, and transform information. Computer science has many sub-fields; some, such as computer graphics, emphasize the computation of specific results, while others, such as computational complexity theory, study the properties of computational problems. Still others focus on the challenges in implementing computations. For example, programming language theory studies approaches to describe computations, while computer programming applies specific programming languages to solve specific computational problems, and human-computer interaction focuses on the challenges in making computers and computations useful, usable, and universally accessible to people.
The general public sometimes confuses computer science with careers that deal with computers (such as the noun Information Technology), or think that it relates to their own experience of computers, which typically involves activities such as gaming, web-browsing, and word-processing. However, the focus of computer science is more on understanding the properties of the programs used to implement software such as games and web-browsers, and using that understanding to create new programs or improve existing ones.

1 History
2 Major achievements
3 Areas of computer science
- 3.1 Theoretical computer science
  - 3.1.1 Theory of computation
- 3.2 Algorithms and data structures
- 3.3 Computer elements and architecture
- 3.4 Computational science
- 3.5 Artificial Intelligence
- 3.6 Software Engineering
4 Relationship with other fields
5 Computer science education
6 See also
7 References
8 Further reading
9 External links
- 9.1 Webcasts

History

Wikiversity has learning materials about computing

Main article: History of computer science

The early foundations of what would become computer science predate the invention of the modern digital computer. Machines for calculating fixed numerical tasks, such as the abacus, have existed since antiquity. Wilhelm Schickard built the first mechanical calculator in 1623. Charles Babbage designed a difference engine in Victorian times helped by Ada Lovelace.Around 1900, punch-card machineswere introduced. However, all of these machines were constrained to perform a single task, or at best some subset of all possible tasks.
During the 1940s, as newer and more powerful computing machines were developed, the term computer came to refer to the machines rather than their human predecessors.As it became clear that computers could be used for more than just mathematical calculations, the field of computer science broadened to study computation in general. Computer science began to be established as a distinct academic discipline in the 1950s and early 1960s. The first computer science degree program in the United States was formed at Purdue University in 1962. Since practical computers became available, many applications of computing have become distinct areas of study in their own right.
Although many initially believed it was impossible that computers themselves could actually be a scientific field of study, in the late fifties it gradually became accepted among the greater academic population.s the now well-known IBM brand that formed part of the computer science revolution during this time. IBM (short for International Business Machines) released the IBM 704 and later the IBM 709 computers, which were widely used during the exploration period of such devices. "Still, working with the IBM [computer] was frustrating...if you had misplaced as much as one letter in one instruction, the program would crash, and you would have to start the whole process over again".During the late 1950s, the computer science discipline was very much in its developmental stages, and such issues were commonplace.
Time has seen significant improvements in the usability and effectiveness of computer science technology. Modern society has seen a significant shift from computers being used solely by experts or professionals to a more widespread user base.

Major achievements

This section requires expansion.

The German military used the Enigma machine during World War II for communication they thought to be secret. The large-scale decryption of Enigma traffic at Bletchley Park was an important factor that contributed to Allied victory in WWII.

Despite its short history as a formal academic discipline, computer science has made a number of fundamental contributions to science and society. These include:

The start of the "digital revolution," which includes the current Information Age and the Internet.
A formal definition of computation and computability, and proof that there are computationally unsolvable and intractable problems.
The concept of a programming language, a tool for the precise expression of methodological information at various levels of abstraction.
In cryptography, breaking the Enigma machine was an important factor contributing to the Allied victory in World War II.
Scientific computing enabled advanced study of the mind, and mapping of the human genome became possible with the Human Genome Project.Distributed computing projects such as Folding@home explore protein folding.
Algorithmic trading has increased the efficiency and liquidity of financial markets by using artificial intelligence, machine learning, and other statistical and numerical techniques on a large scale.

Areas of computer science

As a discipline, computer science spans a range of topics from theoretical studies of algorithms and the limits of computation to the practical issues of implementing computing systems in hardware and softwar The Computer Sciences Accreditation Board (CSAB – which is made up of representatives of the Association for Computing Machinery (ACM), the Institute of Electrical and Electronics Engineers Computer Society (IEEE), and the Association for Information Systems (AIS) – identifies four areas that it considers crucial to the discipline of computer science: theory of computation, algorithms and data structures, programming methodology and languages, and computer elements and architecture. In addition to these four areas, CSAB also identifies fields such as software engineering, artificial intelligence, computer networking and communication, database systems, parallel computation, distributed computation, computer-human interaction, computer graphics, operating systems, and numerical and symbolic computation as being important areas of computer science

Theoretical computer science

The broader field of theoretical computer science encompasses both the classical theory of computation and a wide range of other topics that focus on the more abstract, logical, and mathematical aspects of computing.

$P \rightarrow Q \,$
Mathematical logic	Automata theory	Number theory	Graph theory
$\Gamma\vdash x: Int$
Type theory	Category theory	Computational geometry	Quantum computing theory

Theory of computation

According to Peter J. Denning, the fundamental question underlying computer science is, "What can be (efficiently) automated? The study of the theory of computation is focused onanswering fundamental questions about what can be computed and what amount of resources are required to perform those computations. In an effort to answer the first question, computability theory examines which computational problems are solvable on various theoretical models of computation. The second question is addressed by computational complexity theory, which studies the time and space costs associated with different approaches to solving a computational problem.
The famous "P=NP?" problem, one of the Millennium Prize Problem is an open problem in the theory of computation.

	P = NP ?	GNITIRW-TERCES
Computability theory	Computational complexity theory	Cryptography

Algorithms and data structures

$O (n 2)$
Analysis of algorithms	Algorithms	Data structures

Computer elements and architecture

Computational science

Computational science (or scientific computing) is the field of study concerned with constructing mathematical models and quantitative analysis techniques and using computers to analyse and solve scientific problems. In practical use, it is typically the application of computer simulation and other forms of computation to problems in various scientific disciplines.


Numerical analysis	Computational physics	Computational chemistry	Bioinformatics

Artificial Intelligence

This branch of computer science aims to create synthetic systems which solve computational problems, reason and/or communicate like animals and humans do. This theoretical and applied subfield requires a very rigorous and integrated expertise in multiple subject areas such as applied mathematics, logic, semiotics, electrical engineering, philosophy of mind, neurophysiology, and social intelligence which can be used to advance the field of intelligence research or be applied to other subject areas which require computational understanding and modelling such as in finance or the physical sciences. It all started with the grandfather of computer science and artificial intelligence, Alan Turing, who proposed the Turing Test for the purpose of answering the ultimate question... "Can computers think ?".


Machine Learning	Computer vision	Image Processing	Pattern Recognition

Cognitive Science	Data Mining	Evolutionary Computation	Information Retrieval

Knowledge

Software Engineering

Main article: Software engineering

The IEEE Computer Society's Software Engineering Body of Knowledge defines "software engineering" as the application of a systematic, disciplined, quantifiable approach to the development, operation, and maintenance of software, and the study of these approaches; that is, the application of engineering to softwar In 2004, a newly established degree of software engineering established by both ACM and IEEE was formed to address these issues; a document called CCSE was written to explain the details. In addition those with degrees in information technology or management information systems are often found to be necessary supportive roles for both software engineering and computational work.


Operating systems	Computer networks	Databases	Computer security

Ubiquitous

Relationship with other fields

Despite its name, a significant amount of computer science does not involve the study of computers themselves. Because of this, several alternative names have been proposed. Certain departments of major universities prefer the term computing science, to emphasize precisely that difference. Danish scientist Peter Naur suggested the term datalogy, to reflect the fact that the scientific discipline revolves around data and data treatment, while not necessarily involving computers. The first scientific institution to use the term was the Department of Datalogy at the University of Copenhagen, founded in 1969, with Peter Naur being the first professor in datalogy. The term is used mainly in the Scandinavian countries. Also, in the early days of computing, a number of terms for the practitioners of the field of computing were suggested in the Communications of the ACM – turingineer, turologist, flow-charts-man, applied meta-mathematician, and applied epistemologis Three months later in the same journal, comptologist was suggested, followed next year by hypologis The term computics has also been suggested.^[In continental Europe, names such as informatique (French), Informatik (German) or informatica (Dutch), derived from information and possibly mathematics or automatic, are more common than names derived from computer/computation.
The renowned computer scientist Edsger Dijkstra stated, "Computer science is no more about computers than astronomy is about telescopes." The design and deployment of computers and computer systems is generally considered the province of disciplines other than computer science. For example, the study of computer hardware is usually considered part of computer engineering, while the study of commercial computer systems and their deployment is often called information technology or information systems. However, there has been much cross-fertilization of ideas between the various computer-related disciplines. Computer science research has also often crossed into other disciplines, such as philosophy, cognitive science, linguistics, mathematics, physics, statistics, and economics.
Computer science is considered by some to have a much closer relationship with mathematics than many scientific disciplines, with some observers saying that computing is a mathematical science. Early computer science was strongly influenced by the work of mathematicians such as Kurt Gödel and Alan Turing, and there continues to be a useful interchange of ideas between the two fields in areas such as mathematical logic, category theory, domain theory, and algebra.
The relationship between computer science and software engineering is a contentious issue, which is further muddied by disputes over what the term "software engineering" means, and how computer science is defined. David Parnas, taking a cue from the relationship between other engineering and science disciplines, has claimed that the principal focus of computer science is studying the properties of computation in general, while the principal focus of software engineering is the design of specific computations to achieve practical goals, making the two separate but complementary disciplines.
The academic, political, and funding aspects of computer science tend to depend on whether a department formed with a mathematical emphasis or with an engineering emphasis. Computer science departments with a mathematics emphasis and with a numerical orientation consider alignment computational science. Both types of departments tend to make efforts to bridge the field educationally if not across all research.

Computer science education

Some universities teach computer science as a theoretical study of computation and algorithmic reasoning. These programs often feature the theory of computation, analysis of algorithms, formal methods, concurrency theory, databases, computer graphics, and systems analysis, among others. They typically also teach computer programming, but treat it as a vessel for the support of other fields of computer science rather than a central focus of high-level study.
Other colleges and universities, as well as secondary schools and vocational programs that teach computer science, emphasize the practice of advanced programming rather than the theory of algorithms and computation in their computer science curricula. Such curricula tend to focus on those skills that are important to workers entering the software industry. The practical aspects of computer programming are often referred to as software engineering. However, there is a lot of disagreement over the meaning of the term, and whether or not it is the same thing as programming.

References

Comer, D. E.; Gries, D., Mulder, M. C., Tucker, A., Turner, A. J., and Young, P. R. (Jan. 1989). "Computing as a discipline". Communications of the ACM 32 (1): 9. doi:10.1145/63238.63239. http://cs.gmu.edu/cne/pjd/GP/CompDisc.pdf. "Computer science and engineering is the systematic study of algorithmic processes-their theory, analysis, design, efficiency, implementation, and application-that describe and transform information.".
Wegner, P. (October 13–15, 1976). "Research paradigms in computer science". Proceedings of the 2nd international Conference on Software Engineering. San Francisco, California, United States: IEEE Computer Society Press, Los Alamitos, CA. "Computer science is the study of information structures"
"Computer science is the study of computation." Computer Science Department, College of Saint Benedict, Saint John's University
"Computer Science is the study of all aspects of computer systems, from the theoretical foundations to the very practical aspects of managing large software projects." Massey University
"Common myths and preconceptions about Cambridge Computer Science" Computer Science Department, University of Cambridge
Nigel Tout (2006). "Calculator Timeline". Vintage Calculator Web Museum. http://www.vintagecalculators.com/html/calculator_time-line.html. Retrieved 2006-09-18.
"Science Museum - Introduction to Babbage". http://www.sciencemuseum.org.uk/on-line/babbage/index.asp. Retrieved 2006-09-24.
Notes found in "Ada, The Enchantress of Numbers," by Betty Alexandra Toole Ed.D. Strawberry Press, Mill Valley, CA". http://www.scottlan.edu/Lriddle/women/ada-love.htm. Retrieved 2006-05-04.
"IBM Punch Cards in the U.S. Army". http://www.pattonhq.com/ibm.html. Retrieved 2006-09-24.
The Association for Computing Machinery (ACM) was founded in 1947.
Denning, P.J. (2000). "Computer Science: The Discipline" (PDF). Encyclopedia of Computer Science. http://web.archive.org/web/20060525195404/http://www.idi.ntnu.no/emner/dif8916/denning.pdf.
CAM.ac.uk
Computer science pioneer Samuel D. Conte dies at 85 July 1, 2002
Levy, Steven (1984). Hackers: Heroes of the Computer Revolution. Doubleday. ISBN 0-385-19195-2.
David Kahn, The Codebreakers, 1967, ISBN 0-684-83130-9.
Cornell.edu
Constable, R.L. (March 2000) (PDF). Computer Science: Achievements and Challenges circa 2000. http://www.cs.cornell.edu/cis-dean/bgu.pdf.
Abelson, H.; G.J. Sussman with J. Sussman (1996). Structure and Interpretation of Computer Programs (2nd ed.). MIT Press. ISBN 0-262-01153-0. "The computer revolution is a revolution in the way we think and in the way we express what we think. The essence of this change is the emergence of what might best be called procedural epistemology — the study of the structure of knowledge from an imperative point of view, as opposed to the more declarative point of view taken by classical mathematical subjects."
Black box traders are on the march The Telegraph, August 26, 2006
Computing Sciences Accreditation Board (28 May 1997). "Computer Science as a Profession". http://web.archive.org/web/20080617030847/http://www.csab.org/comp_sci_profession.html. Retrieved 2010-05-23.
Committee on the Fundamentals of Computer Science: Challenges and Opportunities, National Research Council (2004). Computer Science: Reflections on the Field, Reflections from the Field. National Academies Press. ISBN 978-0-309-09301-9. http://www.nap.edu/catalog.php?record_id=11106#toc.
Computer Sciences Accreditation Board
Clay Mathematics Institute P=NP
SWEBOK executive editors, Alain Abran, James W. Moore ; editors, Pierre Bourque, Robert Dupuis. (2004). Pierre Bourque and Robert Dupuis. ed. Guide to the Software Engineering Body of Knowledge - 2004 Version. IEEE Computer Society. pp. 1–1. ISBN 0-7695-2330-7. http://www.swebok.org.
Communications of the ACM 1(4):p.6
Communications of the ACM 2(1):p.4
IEEE Computer 28(12):p.136
Parnas, David L. (1998). "Software Engineering Programmes are not Computer Science Programmes". Annals of Software Engineering 6: 19–37. doi:10.1023/A:1018949113292. , p. 19: "Rather than treat software engineering as a subfield of computer science, I treat it as an element of the set, Civil Engineering, Mechanical Engineering, Chemical Engineering, Electrical Engineering, .."

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Major fields of computer science

Mathematical foundations	Mathematical logic · Set theory · Number theory · Graph theory · Type theory · Category theory · Numerical analysis · Information theory

Theory of computation	Automata theory · Computability theory · Computational complexity theory · Quantum computing theory

Algorithms and data structures	Analysis of algorithms · Algorithm design · Computational geometry

Programming languages and Compilers	Parsers · Interpreters · Procedural programming · Object-oriented programming · Functional programming · Logic programming · Programming paradigms

Concurrent, Parallel, and Distributed systems	Multiprocessing · Grid computing · Concurrency control

Software engineering	Requirements analysis · Software design · Computer programming · Formal methods · Software testing · Software development process

System architecture	Computer architecture · Computer organization · Operating systems

Telecommunication & Networking	Computer audio · Routing · Network topology · Cryptography

Databases	Database management systems · Relational databases · SQL · Transactions · Database indexes · Data mining

Artificial intelligence	Automated reasoning · Computational linguistics · Computer vision · Evolutionary computation · Expert systems · Machine learning · Natural language processing · Robotics

Computer graphics	Visualization · Computer animation · Image processing

Human–computer interaction	Computer accessibility · User interfaces · Wearable computing · Ubiquitous computing · Virtual reality

Scientific computing	Artificial life · Bioinformatics · Cognitive science · Computational chemistry · Computational neuroscience · Computational physics · Numerical algorithms · Symbolic mathematics

Note: Computer science can also be split up into different topics or fields according to the ACM Computing Classification System.

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