Short History of Computer
HaseebAhmedAwan
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48 slides
Jan 15, 2018
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About This Presentation
This is a short history of Computer. You can get benefit from it if you want to have an idea about the developments in the story of computer technology.
Slide Content
Introduction to Information and
Communication Technology ( ICT )
i.e. Computer
Communication Technology ( ICT )
i.e. Computer
History of Computer
A.Brief History of Computer
B.Early Developments in Electronic Data
Processing
C.Computer Generations
A.Brief History of Computer
B.Early Developments in Electronic Data
Processing
C.Computer Generations
Objective:
To be familiar with the history and the
developments of computing devices.
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.
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.
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 2hands.
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 2hands.
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.
JohnNapier
( 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.
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.
JohnNapier
( 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.
An original set of Napier'sBones
A modernset of Napier'sBones
A modernset of Napier'sBones
BlaisePascal
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 one-
function 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 “ArithmatiqueMachine”
•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.
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 one-
function 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 “ArithmatiqueMachine”
•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
8 digit model
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.
CharlesBabbage
(26 December 1791 –18 October1871)
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.
CharlesBabbage
(26 December 1791 –18 October1871)
Babbage’s
Differential
Engine
Designedto automate a
standard procedure for
calculating roots of
polynomials
Differential
Engine
Designedto automate a
standard procedure for
calculating roots of
polynomials
A small section of the type of mechanism
employed in Babbage's Difference Engine
employed in Babbage's Difference Engine
The AnalyticalEngine
•It was a proposed mechanical general-
purpose computer designed by English
mathematician Charles Babbage.
•2 main parts: the “Store” where
numbers are held and the “Mill”
where they were woven into new
results
Babbage’s Analytical
Engine
•It was a proposed mechanical general-
purpose computer designed by English
mathematician Charles Babbage.
•2 main parts: the “Store” where
numbers are held and the “Mill”
where they were woven into new
results
Babbage’s Analytical
Engine
AdaLovelace
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 recognized 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”
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 recognized 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”
EARLY DEVELOPMENTS IN
ELECTRONIC DATA
PROCESSING
ELECTRONIC DATA
PROCESSING
MarkI
Developed by
Howard Aiken at
Harvard
University
Developed by
Howard Aiken at
Harvard
University
MarkI
•Official name
was Automatic
Sequence
Controlled
Calculator.
•Could perform
the 4 basic
arithmetic
operations.
•Official name
was Automatic
Sequence
Controlled
Calculator.
•Could perform
the 4 basic
arithmetic
operations.
ENIAC
Electronic Numerical Integrator And
Calculator
•developedby
JohnPresper
EckertJr.and
JohnMauchly
•1
st large-scale
vacuum-tube
computer
Electronic Numerical Integrator And
Calculator
•developedby
JohnPresper
EckertJr.and
JohnMauchly
•1
st 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
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
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 AutomaticComputer
Developed by George
Gray in Remington Rand
Corp.
Manufactured as the first
commercially available
first generation
computer.
Universal AutomaticComputer
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
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.
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
701
IBM’s 1st
commercial
business
computer
GENERATIONS OF
COMPUTER
COMPUTER
FIRSTGENERATION
(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
(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
Generationincomputerterminologyisa
changeintechnologyacomputeris/wasbeing
used.
Initially,thegenerationtermwasusedto
distinguishbetween varyinghardware
technologies.Butnowadays,generationincludes
bothhardwareandsoftware,whichtogether
makeupanentirecomputersystem.
changeintechnologyacomputeris/wasbeing
used.
Initially,thegenerationtermwasusedto
distinguishbetween varyinghardware
technologies.Butnowadays,generationincludes
bothhardwareandsoftware,whichtogether
makeupanentirecomputersystem.
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.
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.
VacuumTubes
The main features of
First Generation are:
•Vacuum tubetechnology
•Unreliable
•Supported Machine languageonly
•Verycostly
•Generate lot ofheat
•Slow Input/Outputdevice
•Hugesize
•Need ofA.C.
•Non-portable
•Consumed lot ofelectricity
First Generation are:
•Vacuum tubetechnology
•Unreliable
•Supported Machine languageonly
•Verycostly
•Generate lot ofheat
•Slow Input/Outputdevice
•Hugesize
•Need ofA.C.
•Non-portable
•Consumed lot ofelectricity
Some computers of this
generation were:
•ENIAC
•EDVAC
•UNIVAC
•IBM-701
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.
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).
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
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
Some computers of this
generation were:
•IBM1620
•IBM7094
•CDC1604
•CDC3600
•UNIVAC1108
generation were:
•IBM1620
•IBM7094
•CDC1604
•CDC3600
•UNIVAC1108
THIRDGENERATION
(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.
(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 mainfeatures of Third
Generation
are:
•ICused
•Morereliable
•Smaller size
•Generate lessheat
•Faster
•Lessermaintenance
•Still costly
•A.C.needed
•Consumed lesserelectricity
•Support high-levellanguage
Generation
are:
•ICused
•Morereliable
•Smaller size
•Generate lessheat
•Faster
•Lessermaintenance
•Still costly
•A.C.needed
•Consumed lesserelectricity
•Support high-levellanguage
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 Dummerproposed to integrate a
variety of standard electronic components in a
monolithic semiconductor crystal in 1952. A year
later, HarwickJohnson filed a patent for a
prototype integrated circuit (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 Dummerproposed to integrate a
variety of standard electronic components in a
monolithic semiconductor crystal in 1952. A year
later, HarwickJohnson filed a patent for a
prototype integrated circuit (IC).
Some computers ofthis
generation were:
•IBM-360 series
•Honeywell-6000 series
•PDP (Personal Data
Processor)
•IBM-370/168
•TDC-316
generation were:
•IBM-360 series
•Honeywell-6000 series
•PDP (Personal Data
Processor)
•IBM-370/168
•TDC-316
FOURTHGENERATION
(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.
(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, Real-
time, Multi-programming Operating
System were used.
•All the higher level languages like
C and C++, DBASE, etc., were
used in this generation.
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, Real-
time, 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 technologyused
•Verycheap
•Portable andreliable
•Use ofPC's
•Very smallsize
•Pipelineprocessing
•No A.C.needed
•Concept of internet wasintroduced
•Great developments in the fieldsof
networks
•Computers became easilyavailable
Generation are:
•VLSI technologyused
•Verycheap
•Portable andreliable
•Use ofPC's
•Very smallsize
•Pipelineprocessing
•No A.C.needed
•Concept of internet wasintroduced
•Great developments in the fieldsof
networks
•Computers became easilyavailable
Some computers of this
generationwere:
•DEC10
•STAR1000
•PDP11
•CRAY-1
(Super
Computer
•CRAY-X-MP
generationwere:
•DEC10
•STAR1000
•PDP11
•CRAY-1
(Super
Computer
•CRAY-X-MP
FIFTHGENERATION
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.
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.
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