History of Computer, Generations of Computer

Information and
Communication
Technology ( ICT )

HISTORICAL
BACKGROUND
A. Brief History of Computer
B. Early Developments in Electronic Data
Processing
C. Computer Generations

Objectives:
To be familiar with the
history, and the
developments of computing
devices.

Brief History of Computer

THE EARLIEST
COMPUTING DEVICES

The earliest data processing
equipment were all manual mechanical devices due to the
absence of electricity and
adequate industrial technology.

ABACUS ( 300 B.C. by the Babylonians )
• The abacus was an early aid for
mathematical computations. Its only
value is that it aids the memory of
the human performing the
calculation.

ABACUS
A more modern abacus. Note how the abacus is
really just a representation of the human fingers: the 5
lower rings on each rod represent the 5 fingers and the
2 upper rings represent the 2 hands.

John Napier
( 1550 – 1617 )
John Napier is best known as the
inventor of logarithms. He also
invented the so-called "Napier's
bones" and made common the use
of the decimal point in arithmetic and
mathematics.
Napier's birthplace, Merchiston
Tower in Edinburgh, Scotland, is
now part of the facilities
of Edinburgh Napier University. After
his death from the effects
of gout, Napier's remains were
buried in St Cuthbert's
Church, Edinburgh.

NAPIER'S BONES
In 1617 an eccentric Scotsman named
John Napier invented logarithms, which
are a technology that allows multiplication
to be performed via addition. The magic
ingredient is the logarithm of each
operand, which was originally obtained
from a printed table. But Napier also
invented an alternative to tables, where
the logarithm values were carved on ivory
sticks.

An original set of Napier's Bones
[photo courtesy IBM]

A more modern set of Napier's Bones

William
Oughtred ’s
Slide Rule
William Oughtred and
others developed the
slide rule in the 17th
century based on the
emerging work on
logarithms by John
Napier.

Blaise Pascal
In 1642 Blaise Pascal, at
the age of 19, he invented
the Pascaline as an aid for
his father who was a tax
collector. Pascal built 50 of
this gear-driven onefunction calculator (it could
only add) but couldn't sell
many because of their
exorbitant cost and
because they really weren't
that accurate (at that time it
was not possible to
fabricate gears with the
required precision).

Pascaline or Pascal Calculator
• It can be called “Arithmatique Machine”
• The first calculator or adding machine to be
produced in any quantity and actually used.
• It was designed and built by the French
mathematician-philosopher Blaise Pascal between
1642 and 1644. It could only do addition and
subtraction, with numbers being entered by
manipulating its dials.

A 6 digit model for those who couldn't
afford the 8 digit model

A Pascaline opened up so you can
observe the gears and cylinders which
rotated to display the numerical result

Gottfried Wilhelm Leibniz
(July 1, 1646 – November 14, 1716)

A German mathematician
and philosopher. He
occupies a prominent
place in the history of
mathematics and the
history of philosophy.

Stepped Reckoner
• The Step Reckoner (or Stepped Reckoner)
was a digital mechanical
calculator invented by German
mathematician Gottfried Wilhelm
Leibniz around 1672 and completed in
1694.

Joseph Marie
Jacquard
(7 July 1752 – 7 August 1834)

A French weaver and
merchant. He played an
important role in the
development of the earliest
programmable loom (the
"Jacquard loom"), which in
turn played an important
role in the development of
other programmable
machines, such as
computers.

The Jacquard Loom
• A mechanical loom, invented by Joseph
Marie Jacquard, first demonstrated in
1801, that simplifies the process of
manufacturing textiles with complex
patterns such as brocade, damask and
matelasse. The loom was controlled by a
"chain of cards", a number of punched
cards, laced together into a continuous
sequence.

Jacquard's Loom showing the threads and
the punched cards

By selecting particular cards for Jacquard's loom
you defined the woven pattern

This tapestry was woven by a
Jacquard loom

Charles Babbage
(26 December 1791 – 18 October 1871)

By 1822 the English
mathematician Charles
Babbage was proposing a
steam driven calculating
machine the size of a
room, which he called the
Difference Engine. This
machine would be able to
compute tables of
numbers, such as logarithm
tables.

Babbage’s
Differential
Engine
Designed to automate a
standard procedure for
calculating roots of
polynomials

A small section of the type of mechanism
employed in Babbage's Difference Engine

The Analytical Engine
• It was a proposed
mechanical general-purpose
computer designed by English
mathematician Charles Babbage.

Babbage’s Analytical Engine
• 2 main parts: the “Store”
where numbers are held
and the “Mill” where they
were woven into new
results

Ada Lovelace
Augusta Ada Byron, Lady Lovelace
(10 December 1815 – 27 November
1852)

•English mathematician and writer
chiefly known for her work on Charles
Babbage's early mechanical general
purpose computer, the Analytical
Engine.
•Her notes on the engine include what
is recognised as the first Algorithm
intended to be processed by a machine.
Because of this, she is often described
as the world's first computer
programmer.
•Referred to as the “First Programmer”

Herman Hollerith
(February 29, 1860 – November 17, 1929)

An American statistician and
inventor who developed a
mechanical tabulator based on
punched cards to rapidly tabulate
statistics from millions of pieces
of data. He was the founder of
the Tabulating Machine
Company that later merged to
become IBM. Hollerith is widely
regarded as the father of modern
automatic computation.

Hollerith machine
• The first automatic data processing system. It was
used to count the 1890 U.S. census. Developed by
Herman Hollerith, a statistician who had worked for the
Census Bureau, the system used a hand punch to
record the data as holes in dollar-bill-sized punch
cards and a tabulating machine to count them. The
tabulating machine contained a spring-loaded pin for
each potential hole in the card. When a card was
placed in the reader and the handle was pushed
down, the pins that passed through the holes closed
electrical circuits causing counters to be incremented
and a lid in the sorting box to open.

More Detail
Each card was placed into
this reader. When the
handle was pushed
down, the data registered
on the analog dials.

Hollerith's Keypunch Machine
All 62 million
Americans were
counted by punching
holes into a card
from the census
forms.

What a Concept
in 1891
Imagine. Using electricity to
count. The date on this
issue of "Electrical
Engineer" was November
11, 1891. The page at the
top is a census form filled
out by a census taker.

High Tech, 1890
Style
The beginning of data
processing made the
August 30, 1890 cover of
Scientific American. The
binary concept. A hole or
no hole! (Image courtesy
of Scientific American
Magazine.)

EARLY DEVELOPMENTS
IN ELECTRONIC DATA
PROCESSING

Mark I
developed by
Howard Aiken at
Harvard
University

Mark I
•Official name
was Automatic
Sequence
Controlled
Calculator.
•Could perform
the 4 basic
arithmetic
operations.

ENIAC
Electronic Numerical Integrator And Calculator

• developed by
John Presper
Eckert Jr. and
John Mauchly
• 1st large-scale
vacuum-tube
computer

EDVAC
Electronic Discrete Variable Automatic Computer
• Developed by John
Von Neumann
• a modified version of
the ENIAC
• employed binary
arithmetic
• has stored program
capability

EDSAC
Electronic Delay Storage Automatic Calculator
•built by Maurice
Wilkes during the
year 1949
• one of the first
stored-program
machine computers
and one of the first
to use binary digits

UNIVAC
Universal Automatic Computer
Developed by George
Gray in Remington Rand
Corp.

Manufactured as the first
commercially available
first generation
computer.

IBM
International Business Machines

By 1960, IBM was
the dominant force
in the market of
large mainframe
computers

IBM 650
•built in the year 1953 by
IBM and marked the
dominance of IBM in the
computer industry.

IBM 701
IBM’s 1st
commercial
business
computer

FIRST GENERATION
(1946-1959)

• Vacuum tube based
• The use vacuum tubes in place of
relays as a means of storing data
in memory and the use of
stored‐program concept.
• It requires 3.5 KW of electricity per
day to keep the vacuum tubes
running

Per Day : 3.5 KW

Per Week : 24.5 KW

Per Month : 122.5 KW

Per Year : 1,470 KW

NAKAKALOKA!!

Generation in computer terminology
is a change in technology a computer
is/was being used.
Initially, the generation term was used
to distinguish between varying hardware
technologies. But nowadays, generation
includes both hardware and
software, which together make up an
entire computer system.

WHO INVENT THE VACUUM
TUBES?
• First invented by a British scientist named
John A. Fleming in 1919, although Edison
had made some dsicoveries while working
on the lightbulb. The vacuum tube was
improved by Lee DeForest.

The main features of First Generation
are:
•
•
•
•
•
•
•
•
•
•

Vacuum tube technology
Unreliable
Supported Machine language only
Very costly
Generate lot of heat
Slow Input/Output device
Huge size
Need of A.C.
Non-portable
Consumed lot of electricity

Some computers of this
generation were:
•
•
•
•

ENIAC
EDVAC
UNIVAC
IBM-701

SECOND GENERATION
(1959-1965)
• This generation using the
transistor were
cheaper, consumed less
power, more compact in
size, more reliable and faster than
the first generation machines
made of vacuum tubes.
• In this generation, magnetic cores
were used as primary memory
and magnetic tape and magnetic
disks as secondary storage
devices.

WHO INVENTED THE
TRANSISTORS?
• The first transistor was invented at Bell
Laboratories on December 16, 1947 by
William Shockley (seated at Brattain's
laboratory bench), John Bardeen (left) and
Walter Brattain (right).

The main features of Second
Generation are:
•
•
•
•
•
•
•
•
•

Use of transistors
Reliable as compared to First generation
computers
Smaller size as compared to First generation
computers
Generate less heat as compared to First
generation computers
Consumed less electricity as compared to First
generation computers
Faster than first generation computers
Still very costly
A.C. needed
Support machine and assembly languages

generation were:
•
•
•
•
•

IBM 1620
IBM 7094
CDC 1604
CDC 3600
UNIVAC 1108

THIRD GENERATION
(1965-1971)
• Integrated Circuits (IC's) in
place of transistors
• A single IC has many
transistors, resistors and
capacitors along with the
associated circuitry.
• Integrated solid‐state
circuitry, improved secondary
storage devices and new
input/output devices were the
most important advances in this
generation.

The main features of Third Generation
are:
•
•
•
•
•
•
•
•
•
•

IC used
More reliable
Smaller size
Generate less heat
Faster
Lesser maintenance
Still costly
A.C. needed
Consumed lesser electricity
Support high-level language

WHO INVENT THE IC?
• The idea of integrating electronic circuits into a
single device was born, when the German physicist
and engineer Werner Jacobi (de) developed and
patented the first known integrated transistor
amplifier in 1949 and the British radio
engineer Geoffrey Dummer proposed to integrate a
variety of standard electronic components in a
monolithic semiconductor crystal in 1952. A year
later, Harwick Johnson filed a patent for a
prototype integrated circuit (IC).

generation were:
• IBM-360 series
• Honeywell-6000 series
• PDP (Personal Data
Processor)
• IBM-370/168
• TDC-316

FOURTH GENERATION
(1971-1980)

• Very-large-scale integration (VLSI)
• VLSI circuits having about 5000
transistors and other circuit elements
and their associated circuits on a single
chip made it possible to have
microcomputers of fourth generation.

• Fourth Generation computers
became more
powerful, compact, reliable, and
affordable. As a result, it gave rise
to personal computer (PC)
revolution.
• In this generation, Remote
processing, Time-sharing, Realtime, Multi-programming Operating
System were used.
• All the higher level languages like
C and C++, DBASE, etc., were
used in this generation.

The main features of Fourth
Generation are:
•
•
•
•
•
•
•
•
•

VLSI technology used
Very cheap
Portable and reliable
Use of PC's
Very small size
Pipeline processing
No A.C. needed
Concept of internet was introduced
Great developments in the fields of
networks
• Computers became easily available

Some computers of this generation
were:
•
•
•
•
•

DEC 10
STAR 1000
PDP 11
CRAY-1 (Super Computer)
CRAY-X-MP (Super Computer)

FIFTH GENERATION
Present and Beyond: Artificial
Intelligence
• Artificial Intelligence is the
branch of computer science
concerned with making
computers behave like
humans. The term was
coined in 1956 by John
McCarthy at the
Massachusetts Institute of
Technology.

Artificial intelligence includes:
• Games Playing
– programming computers to play games
such as chess and checkers.

• Expert Systems
– programming computers to make
decisions in real-life situations (for
example, some expert systems
help doctors diagnose diseases
based on symptoms)

• Natural Language
– programming computers to
understand natural human
languages

• Neural Networks
– Systems that simulate intelligence
by attempting to reproduce the
types of physical connections that
occur in animal brains

• Robotics
– programming computers to see
and hear and react to other
sensory stimuli

History of Computer, Generations of Computer

Recommended

Recommended

More Related Content

What's hot

What's hot (20)

Similar to History of Computer, Generations of Computer

Similar to History of Computer, Generations of Computer (20)

Recently uploaded

Recently uploaded (20)

History of Computer, Generations of Computer

Editor's Notes