Introduction to Computer
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Jan 18, 2019
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About This Presentation
Basic knowledge about computer and its types, generations, etc.,
Slide Content
Introduction to Computers
By
Ms.A.Thamizhiniyal, M.C.A.,
M.Phil.,
Assistant Professor,
Bon Secours College for Women,
Thanjavur.
1
By
Ms.A.Thamizhiniyal, M.C.A.,
M.Phil.,
Assistant Professor,
Bon Secours College for Women,
Thanjavur.
1
2
What Is A Computer?
A computer is an electronic device, operating
under the control of instructions (software) stored
in its own memory unit, that can accept data
(input), manipulate data (process), and produce
information (output) from the processing.
Generally, the term is used to describe a collection
of devices that function together as a system.
What Is A Computer?
A computer is an electronic device, operating
under the control of instructions (software) stored
in its own memory unit, that can accept data
(input), manipulate data (process), and produce
information (output) from the processing.
Generally, the term is used to describe a collection
of devices that function together as a system.
3
Devices that comprise a computer system
Printer
(output)
Monitor
(output)
Speaker
(output)
Scanner
(input)
Mouse
(input)
Keyboard
(input)
System unit
(processor, memory…)
Storage devices
(CD-RW, Floppy,
Hard disk, zip,…)
Devices that comprise a computer system
Printer
(output)
Monitor
(output)
Speaker
(output)
Scanner
(input)
Mouse
(input)
Keyboard
(input)
System unit
(processor, memory…)
Storage devices
(CD-RW, Floppy,
Hard disk, zip,…)
4
What Does A Computer Do?
Computers can perform four general operations,
which comprise the information processing cycle.
Input
Process
Output
Storage
What Does A Computer Do?
Computers can perform four general operations,
which comprise the information processing cycle.
Input
Process
Output
Storage
5
What Do Computers Do?
Input, Process, Output, & Store
data
Input Process Output
Store Data
What Do Computers Do?
Input, Process, Output, & Store
data
Input Process Output
Store Data
6
Data and Information
All computer processing requires data, which is a
collection of raw facts, figures and symbols, such as
numbers, words, images, video and sound, given to the
computer during the input phase.
Computers manipulate data to create information.
Information is data that is organized, meaningful, and
useful.
During the output Phase, the information that has been
created is put into some form, such as a printed report.
The information can also be put in computer storage for
future use.
Data and Information
All computer processing requires data, which is a
collection of raw facts, figures and symbols, such as
numbers, words, images, video and sound, given to the
computer during the input phase.
Computers manipulate data to create information.
Information is data that is organized, meaningful, and
useful.
During the output Phase, the information that has been
created is put into some form, such as a printed report.
The information can also be put in computer storage for
future use.
7
Why Is A Computer So Powerful?
The ability to perform the information processing
cycle with amazing speed.
Reliability (low failure rate).
Accuracy.
Ability to store huge amounts of data and
information.
Ability to communicate with other computers.
Why Is A Computer So Powerful?
The ability to perform the information processing
cycle with amazing speed.
Reliability (low failure rate).
Accuracy.
Ability to store huge amounts of data and
information.
Ability to communicate with other computers.
8
How Does a Computer Know
what to do?
It must be given a detailed list of instructions,
called a compute program or software, that tells
it exactly what to do.
Before processing a specific job, the computer
program corresponding to that job must be stored
in memory.
Once the program is stored in memory the
compute can start the operation by executing the
program instructions one after the other.
How Does a Computer Know
what to do?
It must be given a detailed list of instructions,
called a compute program or software, that tells
it exactly what to do.
Before processing a specific job, the computer
program corresponding to that job must be stored
in memory.
Once the program is stored in memory the
compute can start the operation by executing the
program instructions one after the other.
9
What Are The Primary
Components Of A Computer ?
Input devices.
Central Processing Unit
(containing the control
unit and the
arithmetic/logic unit).
Memory.
Output devices.
Storage devices.
What Are The Primary
Components Of A Computer ?
Input devices.
Central Processing Unit
(containing the control
unit and the
arithmetic/logic unit).
Memory.
Output devices.
Storage devices.
10
Uses of Computer
PC at Home
Common uses for the computer within the home
Computer games
Working from Home
Banking from Home
Connecting to the Web
Uses of Computer
PC at Home
Common uses for the computer within the home
Computer games
Working from Home
Banking from Home
Connecting to the Web
11
Uses of Computer
Office Applications
Stock Control
Stock control is ideal for automation and in many
companies it is now completely computerized. The stock
control system keeps track of the number of items in stock
and can automatically order replacement items when
required.
Accounts / Payroll
In most large organizations the accounts are
maintained by a computerized system. Due to the
repetitive nature of accounts a computer system is ideally
suited to this task and accuracy is guaranteed.
Uses of Computer
Office Applications
Stock Control
Stock control is ideal for automation and in many
companies it is now completely computerized. The stock
control system keeps track of the number of items in stock
and can automatically order replacement items when
required.
Accounts / Payroll
In most large organizations the accounts are
maintained by a computerized system. Due to the
repetitive nature of accounts a computer system is ideally
suited to this task and accuracy is guaranteed.
12
Uses of Computer
Automated Production Systems
Many car factories are almost completely automated and the cars
are assembled by computer-controlled robots. This automation is
becoming increasingly common throughout industry.
Design Systems
Many products are designed using CAD (Computer Aided
Design) programs to produce exact specifications and detailed
drawings on the computer before producing models of new
products.
Uses of Computer
Automated Production Systems
Many car factories are almost completely automated and the cars
are assembled by computer-controlled robots. This automation is
becoming increasingly common throughout industry.
Design Systems
Many products are designed using CAD (Computer Aided
Design) programs to produce exact specifications and detailed
drawings on the computer before producing models of new
products.
13
Uses of Computer
Computers in Daily Life
Accounts
Games
Educational
On-line banking
Smart ID cards
Supermarkets
Working from home (Tele-working)
Internet
Uses of Computer
Computers in Daily Life
Accounts
Games
Educational
On-line banking
Smart ID cards
Supermarkets
Working from home (Tele-working)
Internet
14
History of Computers
History of Computers
5s T'fo T9 u C.AfzuaTz0T
iznl,A Ca The Five Generations of
Computers
iznl,A Ca The Five Generations of
Computers
First generation computers
(1940-1956)
The first computers used vacuum tubes
for circuitry and magnetic
drums for memory.
They were often enormous and taking
up entire room.
First generation computers relied
on machine language.
. They were very expensive to operate
and in addition to using a great deal of
electricity, generated a lot of heat,
which was often the cause of
malfunctions.
The UNIVAC and ENIAC computers are
examples of first-generation computing
devices.
(1940-1956)
The first computers used vacuum tubes
for circuitry and magnetic
drums for memory.
They were often enormous and taking
up entire room.
First generation computers relied
on machine language.
. They were very expensive to operate
and in addition to using a great deal of
electricity, generated a lot of heat,
which was often the cause of
malfunctions.
The UNIVAC and ENIAC computers are
examples of first-generation computing
devices.
First generation computers
Second generation computers
(1956-1963)
• Transistors replaced vacuum tubes and ushered in the
second generation of computers.
•Second-generation computers moved from
cryptic binary machine language to symbolic.
• High-level programming languages were also being
developed at this time, such as early versions of COBOL
and FORTRAN.
•These were also the first computers that stored their
instructions in their memory.
(1956-1963)
• Transistors replaced vacuum tubes and ushered in the
second generation of computers.
•Second-generation computers moved from
cryptic binary machine language to symbolic.
• High-level programming languages were also being
developed at this time, such as early versions of COBOL
and FORTRAN.
•These were also the first computers that stored their
instructions in their memory.
Second generation computers
Third generation computers
(1964-1971)
The development of the integrated circuit was the hallmark
of the third generation of computers.
Transistors were miniaturized and placed on siliconchips,
called semiconductors.
Instead of punched cards and printouts, users interacted
with third generation computers through keyboards
and monitors and interfaced with an operating system.
Allowed the device to run many different applications at
one time.
(1964-1971)
The development of the integrated circuit was the hallmark
of the third generation of computers.
Transistors were miniaturized and placed on siliconchips,
called semiconductors.
Instead of punched cards and printouts, users interacted
with third generation computers through keyboards
and monitors and interfaced with an operating system.
Allowed the device to run many different applications at
one time.
Third generation computers
Fourth generation computers
(1971-present)
The microprocessor brought the fourth generation
of computers, as thousands of integrated circuits
were built onto a single silicon chip.
The Intel 4004 chip, developed in 1971, located all
the components of the computer.
From the central processing unit and memory to
input/output controls—on a single chip.
. Fourth generation computers also saw the
development of GUIs, the mouse and
handheld devices.
(1971-present)
The microprocessor brought the fourth generation
of computers, as thousands of integrated circuits
were built onto a single silicon chip.
The Intel 4004 chip, developed in 1971, located all
the components of the computer.
From the central processing unit and memory to
input/output controls—on a single chip.
. Fourth generation computers also saw the
development of GUIs, the mouse and
handheld devices.
Fourth generation computers
Fifth generation computers
(present and beyond)
Fifth generation computing devices, based on artificial
intelligence.
Are still in development, though there are some
applications, such as voice recognition.
The use of parallel processing and superconductors is
helping to make artificial intelligence a reality.
The goal of fifth-generation computing is to develop
devices that respond to natural language input and are
capable of learning and self-organization.
(present and beyond)
Fifth generation computing devices, based on artificial
intelligence.
Are still in development, though there are some
applications, such as voice recognition.
The use of parallel processing and superconductors is
helping to make artificial intelligence a reality.
The goal of fifth-generation computing is to develop
devices that respond to natural language input and are
capable of learning and self-organization.
Fifth generation computers
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Types of Computers
Types of Computers
Microcomputer Minicomputer Mainframe Supercomputer
Types of Computers
Types of Computers
Microcomputer Minicomputer Mainframe Supercomputer
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Microcomputer
Can be classified into:
Desktop PCs
sits on desks, rarely moved, large and bulky.
Memory capacity, graphics capacity and software
availability vary from one computer to another Used
both for business and home applications
Microcomputer
Can be classified into:
Desktop PCs
sits on desks, rarely moved, large and bulky.
Memory capacity, graphics capacity and software
availability vary from one computer to another Used
both for business and home applications
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Microcomputer
Portable PCs
Can be moved easily from place to place
Weight may varies
Small PCs are popular known as laptop
Widely used by students, scientist, reporters, etc
Microcomputer
Portable PCs
Can be moved easily from place to place
Weight may varies
Small PCs are popular known as laptop
Widely used by students, scientist, reporters, etc
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Microcomputer Model
Desktop
NotebookLaptop
SubnotebookSubnotebook PalmtopPalmtop
Microcomputer Model
Desktop
NotebookLaptop
SubnotebookSubnotebook PalmtopPalmtop
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Microcomputer
Advantages
Small size
Low cost
Portability
Low Computing Power
Commonly used for personal applications
Disadvantages
Low processing speed
Microcomputer
Advantages
Small size
Low cost
Portability
Low Computing Power
Commonly used for personal applications
Disadvantages
Low processing speed
33
Uses of Microcomputer
Word Processing
Home entertainment
Home banking
Printing
Surfing the internet
etc
Uses of Microcomputer
Word Processing
Home entertainment
Home banking
Printing
Surfing the internet
etc
34
Minicomputer
Medium sized computer
Also called the minis
e.g. IBM36, HP9000, etc
Computing power lies between
microcomputer and mainframe computer
Minicomputer
Medium sized computer
Also called the minis
e.g. IBM36, HP9000, etc
Computing power lies between
microcomputer and mainframe computer
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MiniComputer
Characteristics
Bigger size than PCs
Expensive than PCs
Multi-User
Difficult to use
More computing power than PCs
Used by medium sized business organizations,
colleges, libraries and banks.
MiniComputer
Characteristics
Bigger size than PCs
Expensive than PCs
Multi-User
Difficult to use
More computing power than PCs
Used by medium sized business organizations,
colleges, libraries and banks.
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Uses of Minicomputer
Control of Automated Teller Machine
(ATMs)
Payroll
Hospital patients registration
Inventory Control for supermarket
Insurance claims processing
Small bank accounting and customer details
tracking
Uses of Minicomputer
Control of Automated Teller Machine
(ATMs)
Payroll
Hospital patients registration
Inventory Control for supermarket
Insurance claims processing
Small bank accounting and customer details
tracking
38
Minicomputer
Advantage
Cater to multiple users
Lower costs than mainframes
Disadvantage
Large
Bulky
Minicomputer
Advantage
Cater to multiple users
Lower costs than mainframes
Disadvantage
Large
Bulky
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Mainframe
Known as enterprise
servers
Occupies entire rooms or
floors
Used for centralized
computing
Serve distributed users and
small servers in a computing
network
Mainframe
Known as enterprise
servers
Occupies entire rooms or
floors
Used for centralized
computing
Serve distributed users and
small servers in a computing
network
40
Main Frame
Large, fast and expensive computer
Cost millions of dollar
e.g. IBM3091, ICL39, etc
Characteristics:
Bigger in size than minicomputers
Very expensive
Support a few hundred users simultaneously (Multi-Users)
Difficult to use
More computing power than minicomputers
Have to be kept in a special air-conditioned room
Used in big business organizations and government departments
Main Frame
Large, fast and expensive computer
Cost millions of dollar
e.g. IBM3091, ICL39, etc
Characteristics:
Bigger in size than minicomputers
Very expensive
Support a few hundred users simultaneously (Multi-Users)
Difficult to use
More computing power than minicomputers
Have to be kept in a special air-conditioned room
Used in big business organizations and government departments
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Mainframe
Advantage
Supports many users and instructions
Large memory
Disadvantage
Huge size
Expensive
Mainframe
Advantage
Supports many users and instructions
Large memory
Disadvantage
Huge size
Expensive
44
Supercomputer
Fastest and expensive
Used by applications for
molecular chemistry, nuclear
research, weather reports, and
advanced physics
Consists of several computers
that work in parallel as a single
system
Supercomputer
Fastest and expensive
Used by applications for
molecular chemistry, nuclear
research, weather reports, and
advanced physics
Consists of several computers
that work in parallel as a single
system
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Super Computer
Advantage
Speed
Disadvantage
Generate a large amount of
heat during operation
Super Computer
Advantage
Speed
Disadvantage
Generate a large amount of
heat during operation
46
Computer System
A computer system consists of three primary
units:
Input units – accept data
Processor unit – processes data by performing
comparisons and calculations
Output units – present the results
Computer System
A computer system consists of three primary
units:
Input units – accept data
Processor unit – processes data by performing
comparisons and calculations
Output units – present the results
47
COMPUTER SYSTEM
KEYBOARD
PROCESSOR
MONITOR
PRINTER
Storage
devices
COMPUTER SYSTEM
KEYBOARD
PROCESSOR
MONITOR
PRINTER
Storage
devices
48
Input Devices
Data are facts, numbers and characters that are
entered into the computer via keyboard.
Other types of input devices are mouse, joystick,
light pens, scanners, camera, etc.
Input Devices
Data are facts, numbers and characters that are
entered into the computer via keyboard.
Other types of input devices are mouse, joystick,
light pens, scanners, camera, etc.
49
Computer Input DevicesComputer Input Devices
Keyboard
Mouse/Trackball
Joystick
Light pen
Pointing Stick
Touchpad
Touch screen
Bar code reader
Scanner
Microphone
Graphics Tablet
Digital Cameras
Computer Input DevicesComputer Input Devices
Keyboard
Mouse/Trackball
Joystick
Light pen
Pointing Stick
Touchpad
Touch screen
Bar code reader
Scanner
Microphone
Graphics Tablet
Digital Cameras
50
Processor Unit
Two main parts:
CPU – where the actual processing takes
place; and
Main memory – where data are stored.
The contents of main memory can be
transferred to auxiliary storage devices such as
hard disks, floppy diskettes, zip disks, compact
disks, or USB flash disk.
Processor Unit
Two main parts:
CPU – where the actual processing takes
place; and
Main memory – where data are stored.
The contents of main memory can be
transferred to auxiliary storage devices such as
hard disks, floppy diskettes, zip disks, compact
disks, or USB flash disk.
51
The microprocessor, the brains of the
computer. Referred to a CPU or processor
Housed on a tiny silicon chip
Chip contains millions of switches and
pathways that help your computer make
important decisions.
Central Processing UnitCentral Processing Unit
The microprocessor, the brains of the
computer. Referred to a CPU or processor
Housed on a tiny silicon chip
Chip contains millions of switches and
pathways that help your computer make
important decisions.
Central Processing UnitCentral Processing Unit
52
•CPU knows which switches to turn on and
which to turn off because it receives its
instructions from computer programs
(software).
•CPU has two primary sections:
• Arithmetic/logic unit
• Control unit
•CPU knows which switches to turn on and
which to turn off because it receives its
instructions from computer programs
(software).
•CPU has two primary sections:
• Arithmetic/logic unit
• Control unit
53
Arithmetic/logic unit (ALU):Arithmetic/logic unit (ALU):
- Performs arithmetic computations and logical
operations; by combining these two operations
the ALU can execute complex tasks.
- Arithmetic operations include addition,
subtractions, multiplication, and division.
- Logical operations involve comparisons.
Arithmetic/logic unit (ALU):Arithmetic/logic unit (ALU):
- Performs arithmetic computations and logical
operations; by combining these two operations
the ALU can execute complex tasks.
- Arithmetic operations include addition,
subtractions, multiplication, and division.
- Logical operations involve comparisons.
54
Control UnitControl Unit:
•Uses programming instructions, it controls
the flow of information through the processor
by controlling what happens inside the
processor.
•We communicate with the computer through
programming languages.
Examples: COBOL, C++, HTML,
Java Script or VisualBasic.net
Control UnitControl Unit:
•Uses programming instructions, it controls
the flow of information through the processor
by controlling what happens inside the
processor.
•We communicate with the computer through
programming languages.
Examples: COBOL, C++, HTML,
Java Script or VisualBasic.net
55
MemoryMemory
Found on the motherboard
Short term
Random Access Memory (RAM)Random Access Memory (RAM)
Long term
Read Only Memory (ROM)Read Only Memory (ROM)
MemoryMemory
Found on the motherboard
Short term
Random Access Memory (RAM)Random Access Memory (RAM)
Long term
Read Only Memory (ROM)Read Only Memory (ROM)
56
Random Access Memory (RAM)Random Access Memory (RAM)
•Memory on the motherboard that is short
term; where data, information, and program
instructions are stored temporarily on a RAM
chip or a set of RAM chips.
•Known as the main memory.
•This memory is considered volatile.
•The computer can read from and write to
RAM.
Random Access Memory (RAM)Random Access Memory (RAM)
•Memory on the motherboard that is short
term; where data, information, and program
instructions are stored temporarily on a RAM
chip or a set of RAM chips.
•Known as the main memory.
•This memory is considered volatile.
•The computer can read from and write to
RAM.
57
•When the computer is turned off or if
there is loss of power, what ever is stored
in RAM disappears.
•“Temporary Memory” – Short Term
•When the computer is turned off or if
there is loss of power, what ever is stored
in RAM disappears.
•“Temporary Memory” – Short Term
58
Read-Only Memory (ROM)Read-Only Memory (ROM)
•Memory on the motherboard that is
long term; where the specific
instructions that are needed for the
computer to operate are stored.
•This memory is nonvolatile and your
computer can only read from a ROM
chip.
Read-Only Memory (ROM)Read-Only Memory (ROM)
•Memory on the motherboard that is
long term; where the specific
instructions that are needed for the
computer to operate are stored.
•This memory is nonvolatile and your
computer can only read from a ROM
chip.
59
•The instructions remain on the chip
regardless if the power is turned on or
off.
•Most common is the BIOS ROM; where
the computer uses instructions contained
on this chip to boot or start the system
when you turn on your computer.
•“Permanent Memory” – Long Term
•The instructions remain on the chip
regardless if the power is turned on or
off.
•Most common is the BIOS ROM; where
the computer uses instructions contained
on this chip to boot or start the system
when you turn on your computer.
•“Permanent Memory” – Long Term
60
Output Unit
After the data has been
processed, the results are output in
the form of useful information.
Output units such as monitors
and printers make the result
accessible for use by people.
Output Unit
After the data has been
processed, the results are output in
the form of useful information.
Output units such as monitors
and printers make the result
accessible for use by people.
61
Computer Output DevicesComputer Output Devices
MonitorMonitor: screen that display
information such as text,
numbers, and pictures-
softcopy.
PrinterPrinter: gives you
information from the
computer in printed form –
hardcopy.
SpeakersSpeakers: allow you
to hear voice, music,
and other sounds
from your computer.
ModemModem: allows you to
use your computer to
communicate with
other computers.
Computer Output DevicesComputer Output Devices
MonitorMonitor: screen that display
information such as text,
numbers, and pictures-
softcopy.
PrinterPrinter: gives you
information from the
computer in printed form –
hardcopy.
SpeakersSpeakers: allow you
to hear voice, music,
and other sounds
from your computer.
ModemModem: allows you to
use your computer to
communicate with
other computers.
62
Input Devices
Keyboard.
Mouse.
Input Devices
Keyboard.
Mouse.
63
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