HISTORY-OF-COMPUTERS.pptx

Transcript

HISTORY OF
COMPUTERS
SHERNAN P. MABBORANG, LPT, MIT
 Abacus is known to be the first
ABACUS mechanical calculating device.
Abacus is made of a wooden
frame, metal rods, and wooden
beads in which rod where fitted
across with rounds beads sliding
on the rod. It id dividing into two
parts called ‘Heaven’ and ‘Earth’.
Heaven was the upper part and
Earth was the lower one. Thus any
number can be represented by
placing the beads at proper place.
JOHN NAPIER’S OF SCOTLAND
INVENTED A CALCULATING
DEVICE, IN 1617 CALLED THE
NAPIER BONES.
PASCALINE CALCULATOR
In 1642, at the age of 19, a French
mathematician name Biaise Pascal,
invented the Pascaline. The Pascaline is
the first mechanical and automatic
calculator. It represents the position of
digit with the help of gears in it. The
machine is sometimes called adding
machine or Pascal’s calculator.
THE LEIBNIZ CALCULATOR
Gottfried Leibniz a German mathemation modified the Pascal calculator
in 1673. He developed a machine called Liebniz Calculator which could
perform various calculation based on multiplication and division as well.
ANALYTICAL ENGINE
The Analytical Engine was a mechanical computer that can solve any mathematical problem. It
was invented by Charles Babbage a scientist form England invented in 1833. It uses punch-
cards similar to those used by the Jacquard loom and can perform simple conditional
operations.
For this great invention of the computer, Sir Charles Babbage is also known as the father of the
computer.
FIRST GENERATION
1940-1956
 The first computer systems used vacuum
tubes for circuitry and magnetic drums
for memory;
 First generation computers relied on
machine language;

 Circuitry is a circuit or systems of circuits
performing a particular function in an
electronic device.
 Magnetic Drums are magnetic storage
Machine Language known as machine
code and it is the elemental language of
computers. It is read by CPU and
composed of digital binary numbers.
VACUUM TUBES

John Ambrose Fleming is the inventor of the
Vacuum Tubes. He is considered to be the Father
of Electronics because of his pioneering invention.
UNIVAC (UNIVERSAL AUTOMATIC
COMPUTER)

It was developed by Team of
Engineers led by J. Presper Eckert
and John Mauchly and also the
developer of ENIAC. It is the first
commercially produced electronic
digital computer in the United States.
ENIAC (ELECTRONIC NUMERICAL INTEGRATOR
AND COMPUTER)

It was the first programmable
general purpose electronic digital
computer.
SECOND GENERATION
1956-1963
 The world would see transistors replace
vacuum tubes in the second generation
of computers. The transistor was
invented at Bell Labs in 1947 but did not
see widespread use in computers until
the late 1950s.
 Second-generation computers moved
from cryptic binary machine language to
symbolic, or assembly, languages, which
allowed programmers to specify
TRANSISTORS
THE TRANSISTOR WAS SUCCESSFULLY
DEMONSTRATED ON DECEMBER 23, 1947 AT
BELL LABORATORIES IN MURRAY HILL, NEW
JERSEY. BELL LABS IS THE RESEARCH ARM OF
AMERICAN TELEPHONE AND TELEGRAPH
(AT&T). THE THREE INDIVIDUALS CREDITED
WITH THE INVENTION OF
THE TRANSISTOR WERE WILLIAM
SHOCKLEY, JOHN BARDEEN AND WALTER
BRATTAIN.
THIRD GENERATION
1964-1971
 The development of the
integrated circuit was the hallmark
of the third generation of computers.
 Transistors were assembled and
placed on silicon chips, called
semiconductors, which drastically
increased the speed and efficiency
of computers.
INTEGRATED CIRCUITS
FOURTH GENERATION
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 was the world’s
first microprocessor - a complete
general purpose CPU on a single
chip, developed in March 1971.
In August 1981 IBM introduced its first
personal computer for the home user which is
the IBM 5150, and in September 1984 Apple
introduced the Macintosh 512 KB nicknamed
“Fat Mac”. Microprocessors also moved out of
the realm of desktop computers and into
many areas of life as more and more
everyday products began to use
microprocessors.
INTEL 4004
MICROPROCESSOR
 FIFTH GENERATION
PRESENT-BEYOND
 Fifth generation computing devices, based on
artificial intelligence, are still in development,
though there are some applications, such as
voice recognition, that are being used today. The
use of parallel processing and superconductors is
helping to make artificial intelligence a reality.
 Parallel Processing is a method in computing of
running two or more processors (CPUs) to handle
separate parts of an overall tasks.
 FIFTH GENERATION
PRESENT-BEYOND
 Quantum computation and molecular and
nanotechnology will radically change the face of
computers in years to come. The goal of fifth-
generation computing is to develop devices that
respond to natural language input and are capable
of learning and self-organization.
CAPABILITIES AND
LIMITATIONS OF
COMPUTER
CAPABILITIES of a computer system are
the qualities of the computer that put it in
a positive light and make the user
experience more efficient.
1.Speed means the duration computer system
requires in fulfilling a task or completing an activity. It
is well-known that computers need very little time
than humans in completing a task. Generally,
humans take into account a second or minute as a
unit of time.
2.Accuracy means the level of precision with which
calculations are made and tasks are performed. One
may invest years of his life in detecting errors in
computer calculations or updating a wrong record. A
3. Reliability is the quality due to which the
user can stay dependable on the computer.
Computers systems are well-adjusted to do
repetitive tasks. They never get tired, bored or
fatigued. Hence, they are a lot reliable than
humans. Still, there can be failures of a
computer system due to internal and external
reasons.
4. Adaptability of computer system means the
quality of it to complete a different type of
tasks: simple as well as complex. Computers are
normally versatile unless designed for a specific
operation. Overall, a daily purpose computer is
5. Storage is the ability of the computer to
store data in itself for accessing it again in
future. Nowadays, apart from having
instantaneous access to data, computers have a
huge ability to store data in a little physical
space.
LIMITATIONS are the drawbacks of the
computer system in which humans outperform
them.
1.Lack of common-sense
This is one of the major limitations of computer
systems. No matter how efficient, fast and reliable
computer systems might be but yet do not have any
common sense because no full-proof algorithm has
been designed to programme logic into them. As
computers function based on the stored programme(s),
they simply lack common sense.
2. Zero IQ
Another of the limitations of computer systems is that
they have zero Intelligence Quotient (IQ). They are
 3. Lack of Decision-making
Decision-making is a complicated process involving
information, knowledge, intelligence, wisdom, and ability
to judge. The computer system does not have the ability
to make decisions on their own because they do not
possess all the essentials of decision-making.
They can be programmed to take such decisions, which
are purely procedure-oriented. If a computer has not been
programmed for a particular decision situation, it will not
take a decision due to lack of wisdom and evaluation
faculties. Human beings, on the other hand, possess this
great power of decision-making.
THANK YOU!