module 1 : part 2 introduction & history of computers introduction & history of computers
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Module 1 : Part 2Module 1 : Part 2
INTRODUCTION
&
HISTORY OF COMPUTERS
INTRODUCTION
&
HISTORY OF COMPUTERS
Module ObjectivesModule Objectives
• At the end of the module, students should be able to:
– appreciate and understand the history of computers.
– describe the generations of computer design leading up to the present
– describe the story of personal computer development
– characterize the relative size, scope, uses and variety of available computer systems.
Computer History - The Early DaysComputer History - The Early Days
• 1822 - Charles Babbage proposed a machine to calculate tables for logarithms and trigonometric functions, called the Difference Engine.
• Before completing the machine, he invented in 1833 the more sophisticated Analytic Engine that uses punch cards to control the arithmetic calculations
• The machine is programmable, has storage capabilities, and control flow mechanisms – it is a general purpose computer.
• The Analytic Engine was never completed. • Augusta Ada Lovelace writes the first program for the
Analytical Engine (to calculate Bernoulli numbers). – Some consider her as the first programmer.
Computer History - The Early DaysComputer History - The Early Days
• The calculation devices weren’t a commercial success –pencil and paper was cheap and fast enough.
• The 1890 US census demanded larger data processing power, because more questions were asked.
• Hermann Hollerith provided the data processing equipment.
• Hollerith’s company later became a core part of IBM.
Census - An official, usually periodic enumeration of a population, often including the collection of related demographic information.
Hollerith Electric Tabulator, US Census Bureau, Washington, DC, 1908,Photograph by Waldon Fawcett. Library of Congress, LC-USZ62-45687.
Hollerith’s MachineHollerith’s Machine
• The digital computing methods of Babbage and Hollerith did not lead directly to the modern computer.
• In fact, analogue computing devices were much more common in 1900-1930, especially for scientific computations.
• In 1930, Vannevar Bush (MIT) constructed a large differential analyzer that was capable of integration and differentiation.
• The common conception was that analogue computing has many advantages over digital computation (and one finds constructions of analogue computers until the 1960’s).
Analog Computing ???Analog Computing ???
The Start of the Modern EraThe Start of the Modern Era
• Atanasoff Berry Computer (ABC)
• an experimental machine for solving systems of simultaneous linear equations
• 1938-42 Iowa State University by Dr. John Vincent Atanasoff and Clifford E. Berry.
• Use electronics for arithmetical calculation
• described as the first "electronic digital computer".
• However, it was not a stored program machine, which distinguishes it from later, more general machines,
The Start of the Modern EraThe Start of the Modern Era
• 1944 - Howard Aiken funded by IBM built Mark I 8 feet high and 55 feet long, made of streamlined steel and glass
• the first large scale automatic digital computer in the USA
The Start of the Modern EraThe Start of the Modern Era
1941 – Dr. John Mauchly ENIAC - Electronic Numerical Integrator And Computer
• 1950 – John Von Neumann• EDVAC - Electronic Discrete Variable Computer
The Beginning of the Computer AgeThe Beginning of the Computer Age
• The computer age is remarkable where so much has happened in short period of time.
• Four generations of technology happened in about 55 years.
• The timing of each generation is according to the beginning of commercial delivery of the hardware technology
• The beginning of the commercial computer age can be dated to June 14, 1951.
• This was the day the first UNIVAC--Universal Automatic Computer was delivered to a client, the U.S. Bureau of the Census, for use in tabulating the previous year's census.
• In about 55 years, we have leapfrogged through four generations of technology– The vacuum tube– The transistor– The integrated circuit– The microprocessor
The Beginning of the Computer AgeThe Beginning of the Computer Age
The First Generation, 1951–1958The Vacuum Tube
electronic tubes the size of light bulbs used as the internal computer components
generated a great deal of heat problems in temperature regulation and climate control
subject to frequent burnout people operating the computer did not know whether
the problem was in the programming or in the machine. language used in programming was machine language,
which uses numbers making programming the computer difficult and time-consuming.
Computer Generations - The 1st GenComputer Generations - The 1st Gen
The First Generation, 1951–1958: The Vacuum Tube
Computer Generations - The 1st GenComputer Generations - The 1st Gen
The Second Generation, 1959–1964The Transistor
Bell Lab scientists J. Bardeen, H. W. Brattain, and W. Shockley developed the transistor
Transistors much smaller than vacuum tubes, needed no warm-up time, consumed less energy, and were faster and more reliable.
Computer Generations - The 2nd GenComputer Generations - The 2nd Gen
A replica of the first transistor invented
at Bell Labs, December 23, 1947
Computer Generations - The 2nd GenComputer Generations - The 2nd Gen
Computer Generations - The 2nd GenComputer Generations - The 2nd Gen
• During this generation another important development was the move from machine language to assembly languages, also called symbolic languages
• After the development of symbolic languages came high-level languages, such as FORTRAN (1954) and COBOL (1959).
• 1962 the first removable disk pack was marketed. Disk storage supplemented magnetic tape systems and enabled users to have fast access to desired data.
• Throughout this period computers were being used principally by business, university, and government organizations. They had not filtered down to the general public.
The Third Generation, 1965–1970The Integrated Circuit (IC)
An integrated circuit (IC) is a complete electronic circuit on a small chip of silicon which is a semiconductor.
In 1965 integrated circuits began to replace transistors in computers.
The chips were hailed as a generational breakthrough because they had desirable characteristics: reliability, compactness low cost.
The beginning of the third generation was trumpeted by the IBM 360 series.
Computer Generations - The 3rd GenComputer Generations - The 3rd Gen
Computer Generations - The 3rd GenComputer Generations - The 3rd Gen
An integrated circuit (IC) Intel 4004 IC
The Fourth Generation, 1971 - Present: The Microprocessor
• Perhaps the most far-reaching contribution of the 360 series was IBM's decision to unbundled the software, that is, to sell the software separately from the hardware.
• This approach led to the creation of today's software industry. Software became more sophisticated during this third generation.
• Through the 1970s computers gained dramatically in speed, reliability, and storage capacity,
• The fourth generation was, in fact, an extension of third-generation technology.
• A microprocessor contains millions of tiny transistors
Computer Generations - The 4th GenComputer Generations - The 4th Gen
• The general-purpose processor-on-a-chip, also known as the microprocessor, became commercially available in 1971.
• Computer power become more apparent with the use of the microprocessor.
• Common applications of the microprocessor – digital watches– pocket calculators– personal computers– virtually every machine in the home or business cars, copy
machines, television sets, bread-making machines, etc• Computers today are 100 times smaller than those of the
first generation, and a single chip is far more powerful than ENIAC.
Computer Generations - The 4th GenComputer Generations - The 4th Gen
Do You Know ???Do You Know ???
The first microprocessor, the Intel 4004 with 2300 transistors and 3mmx4mm size, was introduced in 1971.
Do You Know ???Do You Know ???
• The Pentium 4 was introduced in 2000.• It had 42 million transistors and a 1,400-1,500MHz clock speed. • The die size was 224mm2
The Fifth Generation: Onwards
• Term coined by the Japanese to describe the powerful, "intelligent" computers they wanted to build by the mid-1990s.
• The term evolved to encompass elements in several research fields related to computer intelligence: artificial intelligence, expert systems, and natural language.
• The true focus is connectivity where the massive industry effort to permit users to connect their computers to other computers.
• The concept of the information superhighway has captured the imaginations of both computer professionals and everyday computer users.
Computer Generations - The 5th GenComputer Generations - The 5th Gen
ActivityActivity
• Can Computers Think ?• What do you think
computers of the next 50 years will be like ?
• Discuss in your group in terms of the functions/features of future computers
Classification of ComputersClassification of Computers
• Personal Computers
• Notebook Computers
• Handheld Computers
• Midrange Computers
• Mainframes
• Supercomputers
Personal ComputersPersonal Computers
• Desktop computers– Also known as PCs, microcomputers,
or home computers
• Broken down into three categories:– Low-end computers– Fully-powered personal computers– Workstations
• Network computer– Central processing unit and minimal
memory– Designed to be used on a network
• Sometimes called thin client
PC CategoriesPC Categories
• Low-end computers– Fine for home users, word
processing, simple games, Internet access
• Fully powered computers– Good for heavy use of
graphics, programming, or action-oriented games
• Workstations– Very high-end computers used
by engineers, financial traders, and graphic designers
Notebook ComputersNotebook Computers
• Small, lightweight computers
• Capabilities approach that of desktop computers– Similar processing and
memory– Most have hard disk, and
diskette or CD-ROM drive
• Typically more expensive than comparable desktop computers
Handheld ComputersHandheld Computers
• Personal Digital Assistant (PDA)– Keeps track of appointments,
contacts, etc.– Accepts input with hand-held
stylus
• Pocket PC– Offers capabilities of PDAs, plus
the ability to run stripped-down versions of software such as word processing and spreadsheets
Midrange ComputersMidrange Computers
• Multi-user computers designed to serve the needs of medium-sized organizations– Hundreds or thousands
of users connected– Used for inventory,
order-entry, and other company-wide applications
MainframesMainframes
• Very large and powerful computers – Capable of processing
billions of instructions per second
– Capable of handling billions of characters of data
• Often used for applications with many users– Reservations systems– Large mail-order houses– E-mail servers
SupercomputersSupercomputers
• The fastest and most powerful computers– Capable of processing
trillions of instructions per second
• Used for very sophisticated applications requiring mammoth data manipulation:– Weather forecasting– Weapons research– Special effects for
movies
Reference
• http://www.computersciencelab.com/ComputerHistory/History.htm
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