Introduction to Computer
Computer
A computer is an electronic device, operating under the control of instructions stored in its own memory that can accept data (input), process the data according to specified rules, produce information (output), and store the information for future use
Computer Components
Any kind of computers consists of HARDWARE AND SOFTWARE.
Hardware:
Computer hardware is the collection of physical elements
that constitutes a computer system. Computer hardware refers to the physical
parts or components of a computer such as the monitor, mouse, keyboard,
computer data storage, hard drive disk (HDD), system unit (graphic cards, sound
cards, memory, motherboard and chips), etc. all of which are physical objects
that can be touched.3
Input Devices
Input device is any peripheral (piece
of computer hardware equipment to provide data and control signals to an
information processing system such as a computer or other information
appliance.
Input device Translate data from form that humans understand to one that
the computer can work with. Most common are keyboard and mouse
Example of Input Devices:-
|
1. Keyboard |
2. Mouse (pointing device) |
3. Microphone |
|
4. Touch screen |
5. Scanner |
6. Webcam |
|
7. Touchpads |
8. MIDI keyboard |
9. |
|
10. Graphics Tablets |
11. Cameras |
12. Pen Input |
|
13. Video Capture
Hardware |
14. Microphone |
15. Trackballs |
|
16. Barcode reader |
17. Digital camera |
18. Joystick |
|
19. Gamepad |
20. Electronic Whiteboard |
21. |
Note: The most common use keyboard is the
QWERTY keyboard. Generally standard Keyboard has 104 keys.
Central Processing Unit (CPU)
A CPU is brain of a computer. It is
responsible for all functions and processes. Regarding computing power, the CPU
is the most important element of a computer system.
The CPU is comprised of three main parts :
* Arithmetic Logic Unit
(ALU): Executes all arithmetic and logical operations. Arithmetic
calculations like as addition, subtraction, multiplication and division.
Logical operation like compare
numbers, letters, or special characters * Control Unit
(CU): controls and co-ordinates
computer components.
1. Read
the code for the next instruction to be executed.
2. Increment
the program counter so it points to the next instruction.
3. Read
whatever data the instruction requires from cells in memory.
4. Provide
the necessary data to an ALU or register.
5. If
the instruction requires an ALU or specialized hardware to complete, instruct
the hardware to perform the requested operation.
* Registers
:Stores the data that is to be executed next, "very fast storage
area".
Primary Memory:-
1. RAM: Random Access Memory (RAM) is a
memory scheme within the computer system responsible for storing data on a
temporary basis, so that it can be promptly accessed by the processor as and
when needed. It is volatile in nature, which means that data will be erased
once supply to the storage device is turned off. RAM stores data randomly and
the processor accesses these data randomly from the RAM storage. RAM is
considered "random access" because you can access any memory cell
directly if you know the row and column that intersect at that cell.
2. ROM (Read Only Memory): ROM is a
permanent form of storage. ROM stays active regardless of whether power supply
to it is turned on or off. ROM devices do not allow data stored on them to be
modified.
Secondary Memory:-
Stores data and programs permanently :its retained after the power is turned off
1. Hard drive
(HD): A hard disk is part of a unit, often called a "disk drive,"
"hard drive," or "hard disk drive," that store and provides
relatively quick access to large amounts of data on an electromagnetically
charged surface or set of surfaces.
2. Optical
Disk: an optical disc drive (ODD) is a disk drive that uses laser light as part
of the process of reading or writing data to or from optical discs. Some drives
can only read from discs, but recent drives are commonly both readers and
recorders, also called burners or writers. Compact discs, DVDs, and Blu-ray
discs are common types of optical media which can be read and recorded by such
drives. Optical drive is the generic name; drives are usually described as
"CD" "DVD", or "Bluray", followed by
"drive", "writer", etc. There are three main types of
optical media: CD, DVD, and Blu-ray disc. CDs can store up to 700 megabytes
(MB) of data and DVDs can store up to 8.4 GB of data. Blu-ray discs, which are
the newest type of optical media, can store up to 50 GB of data. This storage
capacity is a clear advantage over the floppy disk storage media (a magnetic
media), which only has a capacity of 1.44 MB.
3. Flash Disk
A storage module made of flash memory chips. A Flash disks
have no mechanical platters or access arms, but the term "disk" is
used because the data are accessed as if they were on a hard drive. The disk
storage structure is emulated.
Output devices
An output device is any piece of computer
hardware equipment used to communicate the results of data processing carried
out by an information processing system (such as a computer) which converts the
electronically generated information into humanreadable form.
Example on Output Devices:
|
1. Monitor |
2. LCD Projection
Panels |
|
3. Printers (all types) |
4. Computer Output Microfilm (COM) |
|
5. Plotters |
6. Speaker(s) |
|
7. Projector |
|
Note Basic
types of monitors are a.Cathode Ray Tube (CRT). B. Liquid Crystal Displays
(LCD). c.light-emitting diode (LED).
Printer
types: 1-Laser Printer. 2-Ink Jet Printer. 3-Dot Matrix Printer
Software
Software is a generic term for organized collections of
computer data and instructions, often broken into two major categories: system
software that provides the basic nontask-specific functions of the computer,
and application software which is used by users to accomplish specific tasks.
Software
Types
A. System software is responsible for
controlling, integrating, and managing the individual hardware components of a
computer system so that other software and the users of the system see it as a
functional unit without having to be concerned with the low-level details such
as transferring data from memory to disk, or rendering text onto a display.
Generally, system software consists of an operating system and some fundamental
utilities such as disk formatters, file managers, display managers, text
editors, user authentication (login) and management tools, and networking and
device control software.
B. Application software is used to
accomplish specific tasks other than just running the computer system.
Application software may consist of a single program, such as an image viewer;
a small collection of programs (often called a software package) that work
closely together to accomplish a task, such as a spreadsheet or text processing
system; a larger collection (often called a software suite) of related but
independent programs and packages that have a common user interface or shared
data format, such as Microsoft Office, which consists of closely integrated
word processor, spreadsheet, database, etc.; or a software system, such as a
database management system, which is a collection of fundamental programs that
may provide some service to a variety of other independent applications.
Comparison Application Software and
System Software
|
|
System Software
|
Application Software |
|
|
Computer
software, or just software is a general term primarily used for digitally
stored data such as computer programs and other kinds of information read and
written by computers. App comes under computer software though it has a wide
scope now. |
Application software, also known as an application
or an "app", is computer software designed to help the user to
perform specific tasks. |
|
Example: |
1) Microsoft
Windows 2) Linux 3) Unix 4) Mac OSX 5) DOS |
1) Opera
(Web Browser) 2) Microsoft
Word (Word Processing) 3) Microsoft
Excel (Spreadsheet software) 4) MySQL
(Database Software) 5) Microsoft
PowerPoint (Presentation Software) 6) Adobe
Photoshop (Graphics Software) |
|
Interaction: |
Generally, users do not interact with system software as it
works in the background. |
Users
always interact with application software while doing different
activities. |
|
Dependency: |
System software can run independently of the application
software. |
Application software cannot run without the presence of the
system software. |
Unit of Measurements
Storage measurements: The basic unit
used in computer data storage is called a bit (binary digit). Computers use
these little bits, which are composed of ones and zeros, to do things and talk
to other computers. All your files, for instance, are kept in the computer as
binary files and translated into words and pictures by the software (which is
also ones and zeros). This two number system, is called a “binary number
system” since it has only two numbers in it. The decimal number system in
contrast has ten unique digits, zero through nine.
Computer Storage units
|
Bit |
BIT |
0 or 1 |
|
Kilobyte |
KB |
1024 bytes |
|
Megabyte |
MB |
1024 kilobytes |
|
Gigabyte |
GB |
1024 megabytes |
|
Terabyte |
TB |
1024 gigabytes |
Size example
• 1
bit - answer to an yes/no question
• 1
byte - a number from 0 to 255.
• 90
bytes: enough to store a typical line of text from a book.
• 4
KB: about one page of text.
• 120
KB: the text of a typical pocket book.
• 3 MB
- a three minute song (128k bitrate)
• 650-900
MB - an CD-ROM
•
1 GB -114 minutes of uncompressed CD-quality
audio at 1.4 Mbit/s • 8-16 GB - size of a normal flash drive
Speed measurement:
The speed of Central Processing Unit (CPU) is measured by Hertz (Hz), Which
represent a CPU cycle. The speed of CPU is known as Computer Speed.
|
CPU SPEED MEASURES |
|
|
1 hertz or Hz |
1 cycle per second |
|
1 MHz |
1 million cycles per second or 1000 Hz |
|
1 GHz |
1 billion cycles per second
or 1000 MHz |
Computers classification***
Computers can be generally classified by size and power as
follows, though there is Considerable overlap:
• Personal
computer: A small, single-user computer based on a microprocessor. In addition
to the microprocessor, a personal computer has a keyboard for entering data, a
monitor for displaying information, and a storage device for saving data.
• workstation
: A powerful, single-user computer. A workstation is like a personal computer,
but it has a more powerful microprocessor and a higher-quality monitor.
• minicomputer
: A multi-user computer capable of supporting from 10 to hundreds of users
simultaneously.
• mainframe
: A powerful multi-user computer capable of supporting many hundreds or
thousands of users simultaneously.
• supercomputer
: An extremely fast computer that can perform hundreds of millions of
instructions per second.
Laptop and Smartphone Computers
LAPTOP:
A laptop is a battery or AC-powered personal computer that can be easily
carried and used in a variety of locations. Many laptops are designed to have
all of the functionality of a desktop computer, whichmeans they can generally
run the same software and open the same types of files. However, some laptops,
such as netbooks, sacrifice some functionality in order to be even more
portable.
Netbook:
A netbook is a type of laptop that is designed to be even more portable.
Netbooks are often cheaper than laptops or desktops. They are generally less
powerful than other types of computers, but they provide enough power for email
and internet access, which is where the name "netbook" comes from.
Mobile
Device: A mobile device is basically any handheld computer. It is designed
to be extremely portable, often fitting in the palm of your hand or in your
pocket. Some mobile devices are more powerful, and they allow you to do many of
the same things you can do with a desktop or laptop
computer. These include tablet computers, e-readers, and smartphones.
Tablet Computers: Like laptops,
tablet computers are designed to be portable. However, they provide a very
different computing experience. The most obvious difference is that tablet
computers don't have keyboards or touchpads. Instead, the entire screen is
touch-sensitive, allowing you to type on a virtual keyboard and use your finger
as a mouse pointer. Tablet computers are mostly designed for consuming media,
and they are optimized for tasks like web browsing, watching videos, reading
e-books, and playing games. For many people, a "regular" computer
like a desktop or laptop is still needed in order to use some programs.
However, the convenience of a tablet computer means that it may be ideal as a
second computer.
Smartphones:
A smartphone is a powerful mobile phone that is designed to run a variety
of applications in addition to phone service. They are basically small tablet
computers, and they can be used for web browsing, watching videos, reading
e-books, playing games and more.
Data, Information and Knowledge
Data: Facts and
figures which relay something specific, but which are not organized in any way
and which provide no further information regarding patterns, context, etc. So
data means "unstructured facts and figures that have the least impact on
the typical manager."
Information: For
data to become information, it must be contextualized, categorized, calculated
and condensed. Information thus paints a bigger picture; it is data with
relevance and purpose. It may convey a trend in the environment, or perhaps
indicate a pattern of sales for a given period of time. Essentially information
is found "in answers to questions that begin with such words as who, what,
where, when, and how many".
Knowledge:
Knowledge is closely linked to doing and implies know-how and understanding.
The knowledge possessed by each individual is a product of his experience, and
encompasses the norms by which he evaluates new inputs from his surroundings.
The content of the human mind can be classified into four
categories:
1. Data:
symbols
2. Information:
data that are processed to be useful; provides answers to "who",
"what", "where", and "when" questions
3. Knowledge:
application of data and information; answers "how" questions
4. Wisdom:
evaluated understanding.
We need to understand that processing data produced
Information and process Information produces Knowledge and so on
Characteristics of Computer
Speed, accuracy, diligence, storage capability and
versatility are some of the key characteristics of a computer. A brief overview
of these characteristics are
• Speed:
The computer can process data very fast, at the rate of millions of
instructions per second. Some calculations that would have taken hours and days
to complete otherwise, can be completed in a few seconds using the computer.
For example, calculation and generation of salary slips of thousands of employees
of an organization, weather forecasting that requires analysis of a large
amount of data related to temperature, pressure and humidity of various places,
etc.
• Accuracy:
Computer provides a high degree of accuracy. For example, the computer can accurately
give the result of division of any two numbers up to 10 decimal places.
• Diligence:
When used for a longer period of time, the computer does not get tired or
fatigued. It can perform long and complex calculations with the same speed and
accuracy from the start till the end.
• Storage
Capability: Large volumes of data and information can be stored in the computer
and also retrieved whenever required. A limited amount of data can be stored,
temporarily, in the primary memory. Secondary storage devices like floppy disk
and compact disk can store a large amount of data permanently.
• Versatility:
Computer is versatile in nature. It can perform different types of tasks with
the same ease. At one moment you can use the computer to prepare a letter
document and in the next moment you may play music or print a document.
Computers have several limitations too. Computer can only perform tasks that it
has been programmed to do.
Computer cannot do any work without instructions from the
user. It executes instructions as specified by the user and does not take its
own decisions.
Computer Viruses*
Viruses: A virus is a small piece of
software that piggybacks on real programs. For example, a virus might attach
itself to a program such as a spreadsheet program. Each time the spreadsheet
program runs, the virus runs, too, and it has the chance to reproduce (by
attaching to other programs) or wreak havoc.
•E-mail viruses: An e-mail virus
travels as an attachment to e-mail messages, and usually replicates itself by
automatically mailing itself to dozens of people in the victim's e-mail address
book. Some e-mail viruses don't even require a double-click -- they launch when
you view the infected message in the preview pane of your e-mail software
[source: Johnson].
•Trojan horses: A Trojan horse is
simply a computer program. The program claims to do one thing (it may claim to
be a game) but instead does damage when you run it (it may erase your hard
disk). Trojan horses have no way to replicate automatically.
•Worms: A worm is a small piece of
software that uses computer networks and security holes to replicate itself. A
copy of the worm scans the network for another machine that has a specific
security hole. It copies itself to the new machine using the security hole, and
then starts replicating from there, as well.
What are some tips to avoid viruses and lessen
their impact?*
• Install
anti-virus software from a reputable vendor. Update it and use it regularly.
• In
addition to scanning for viruses on a regular basis, install an "on
access" scanner (included in most anti-virus software packages) and
configure it to start each time you start up your computer. This will protect
your system by checking for viruses each time you run an executable file.
• Use
a virus scan before you open any new programs or files that may contain
executable code. This includes packaged software that you buy from the store as
well as any program you might download from the Internet.
• If
you are a member of an online community or chat room, be very careful about
accepting files or clicking links that you find or that people send you within
the community.
• Make sure you back up your data (documents, bookmark files, important email messages, etc.) on disc so that in the event of a viruses
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