INTRO TO COMPUTING.pdf

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INTRODUCTION TO COMPUTING

EVOLUTION OF COMPUTERS

TALLY STICK (40,000 - 10,000 years) - Used to record
documents numbers, quantities or even messages across
various cultures and continents; mesopotamia, Egypt, Greece,
Rome, and China

STEPPED RECKONER (1672) - Mechanical calculator invented
by the german mathematician Gotfried Wilhelm Leibniz. It can
perform all basic 4 arithmetic operations and a decimal number
system.

ABACUS (2700-2300 BC) - Ancient calculating tool used for
arithmetic operations and was developed in different parts of the
world mainly, Egypt, Greece, Rome, India and China.

JACQUARD LOOM (1804) - Mechanical loom, invented by
Joseph Marie Jacquard. It uses a series of punched cards to
control the weaving pattern, allowing for intricate designs to be
produced automatically.
NAPIER’S BONE (1617) - Manually operated calculating device
invented by John Napier of Merchiston, Scotland. It is a tool to
simplify multiplication and division of large numbers.

punch card - a stiff card with
holes strategically punched
SLIDE RULE (1622) - A mechanical analog computer developed into it. It is a method of storing
by William Oughtred primarily for multiplication, division, roots, and processing information by
logarithms, trigonometry, and other functions. representing data as a series
of holes punched into a stiff
card.

ARITHMOMETER (1850 - 1851) - was the first commercially
successful mechanical calculator. It was designed and
developed by Thomas de Colmar and was the first reliable
and practical calculating machine.
PASCALINE (1642) - First mechanical calculator that could
perform multiple calculations (addition and subtraction) in a row
without being reset, although it is very expensive and has limits.
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DIFFERENCE ENGINE (1820) - conceived by Charles
Babbage was a groundbreaking automatic mechanical
calculator designed to tabulate polynomial functions. It aims to
eliminate errors in mathematical computation. It was partially
built but never completed.

HARVARD MARK 1 (1937) - also known as the IBM Automatic
Sequence Controlled Calculator. (ASCC). It was the first
electromechanical computer built during WORld War II.
conceived by Howard Aiken. Designed to solve complex
mathematical problems that were beyond the capabilities of
human computers.
ANALYTICAL ENGINE (1830) - revolutionary concept for a
mechanical general-purpose computer. Programmable using
punched cards, an idea borrowed from the Jacquard Loom. It
was also partially built, never completed.

Z1 (1936 - 1938) - mechanical computer designed by German
inventor Konrad Zuse. It was built in Germany and the first
working programmable computer using punch tape.

SCHEUTZIAN CALCULATION ENGINE (1843) - developed by
Swedish father-son duo Per Georg and Edvard Scheutz. It was
the first printing calculator.

ATANASOFF-BERRY COMPUTER (1937) - first automatic
electronic digital computer. The first computer to use
vacuum tubes for arithmetic and logic circuits making it much
faster.
TABULATING MACHINE (1890) - electromechanical machine
designed to assist in summarizing information stored on
punched cards. Invented by Herman Hollerith. It was developed
to speed up processing of data for the 1890 U.s. Census.
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ENIAC (1946) - Electronic Numerical Integrator and Computer, INVENTORS OF COMPUTERS
was the first programmable, electronic, general purpose
digital computer. John Napier
Scottish mathematician, physicist and astronomer who
invented the Napier’s Bones.

Blaise Pascal
French mathematician, physicist and inventor
He created the Pascaline.

Gottfried Wilhelm Leibniz
German polymath. He made significant contributions to
various fields, including the invention of Stepped
Reckoner.

UNIVAC 1 - Universal Automatic Computer I, was the first Joseph Marie Jacquard
commercial computer produced in the United States. It was French weaver and inventor best known for developing
designed by J. Presper Eckert and John Mauchly the inventor the Jacquard Loom.
of the ENIAC.
Charles Xavier Thomas de Colmar
French inventor and entrepreneur.
He is best known for his groundbreaking invention the
Arithmometer.

Charles Babbage
Was an English mathematician, philosopher, inventor,
and mechanical engineer.
He is considered a pioneer of computer science and is
often referred to as the “Father of the Computer”

EDVAC ( 1952) - Electronic Discrete Variable Automatic Augusta Ada Byron
Computer was one of the earliest electronic computers and a Countess of Lovelace is widely recognized as a
successor to the ENIAC. It was the first stored program pioneer in the field of computer science due to her
computer. It has memory that holds its program as well as work on Charles Babbage’s proposed Analytical
data. Developed by Von Neumann. Engine.
She is the first programmer and suggested Babbage
to use binary system to program Analytical Engine,

Per Georg Scheutz and Edvard Scheutz
Father and son Swedish duo known for their significant
contributions on the development of mechanical
calculations.
They invented the Scheutzian Calculation Engine

Herman Hollerith
German-American inventor and businessman who
revolutionized data processing.
OSBORNE 1 (1981) - the first commercially successful He is considered to be the pioneer of modern
portable computer. Invented by Adam Osborne and automatic computation and data processing.
designed by Lee Felsenstein.
Howard Hathaway Aiken
American physicist and a pioneer in the field of
computing.
He is known for his role in the development of Harvard
Mark I, one of the first large scale electromechanical
calculators.

Konrad Zuse
He is widely regarded as the creator of the world’s
first programmable computer.
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John Vincent Atanasoff Microprocessor that led to the development of personal
A professor of mathematics and physics at Iowa State computers
College. Introduction of graphical user interface (GUI) made
one of the creators of ABC. computers easier to use as they replaced complex
command-line interfaces with visual elements like
Clifford Berry icons and windows.
Graduate student of Atanasoff.
He was instrumental in the design construction of the FIFTH GENERATION (1980s and continues to evolve)
ABC contributing his engineering skills. Ongoing development of artificial intelligence (AI)
Quantum computing is continuously being developed
John Mauchly
Conceived the idea of an electronic computer and COMPUTER CLASSIFICATION
served as the principal consultant on the project
ENIAC.

J. Presper Eckert
The chief engineer who led the design and
construction of ENIAC.

John von Neumann
Was a Hungarian American mathematician and
physicist.
He is considered one of the most important figures in
the history of computing.

GENERATION OF COMPUTER
BY SIZE
FIRST GENERATION (mid-1940s to late 1950s)
1. Super Computers - processes data and performs the
Earliest generation of computers
best overall. Used for investigational and research
Electronic computers developed between mid-1940s
work.
and the late 1950s
2. Mainframe Computers - used in large enterprises and
Utilizes vacuum tubes as main component and
government institutions to manage daily operations.
magnetic drums for memory
They are to process and store large amounts of
Punch cards were used for inputs
data.
Machine language (binary code)
3. Mini Computers - sometimes known as “Midrange
Expensive
Computers” also utilized by small enterprises and
industries.
SECOND GENERATION (1959 - 1965)
4. Micro Computers - also known as personal
Utilizes transistors that are smaller, faster and more
computers, they are most affordable.
reliable and energy-efficient.
Assembly and High Level language replaced machine
BY PURPOSE
language making programming easier.
1. General Purpose - can do everyday tasks such as
Reduction in size of computers making it more
writing, document preparation, recording, financial
accessible.
analysis etc. It has versatility and is useful for
serving peoples’ basic needs.
THIRD GENERATION (1964 - 1971)
2. Special Purpose - performs a particular or specific
The computers were using integrated circuits which
task. It needs specific input and devices as well as
replaced the individual transistors of the 2nd gen.
a compatible motherboard with the processor to
1 IC is equal to thousands of transistors, resistors etc
conduct work efficiently.
making computers smaller, faster, reliable and more
energy-efficient.
BY TYPE
Reduced the size of computers
1. Analog Computer - performs tasks using continuous
Faster processing measured in nanoseconds
data. Used primarily to measure physical units like
Computers became more affordable making them
voltage, pressure, temperature etc, and convert them
more accessible to businesses and organizations.
to digits. Used in the field of technology, science,
High level languages were used that made
research and engineering.
programming easier.
2. Digital Computer - it can perform arithmetic
operations such as addition, occurrence, subtraction
FOURTH GENERATION (1971 - present)
and all types of logical (mathematical) operations.
Introduction of microprocessors, which integrated
3. Hybrid Computers - combines digital and analog
thousands of transistors onto a single chip,
computers.
Revolution in computing
Smaller computers, which are faster, more powerful
and affordable
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INTRODUCTION TO ICT Storage
- Storing and feedback.
DATA - refers to things “known” it is a collection of independent
raw facts, numbers, letters, symbols, and words. Remember these terms!
INFORMATION - processed and organized data. It is data made INFORMATION TECHNOLOGY
meaningful based on the needs of the user through ❖ Use of computer, data communication, office system
manipulation. methodologies and tools to generate information

Information should be relevant, complete, timely, accurate COMMUNICATION TECHNOLOGY
and cost-effective. ❖ Transmission of information over the network

CLASSIFICATION OF INFO INFORMATION COMMUNICATION TECHNOLOGY
❖ ICT is the use of electronic computers, communication
OPERATIONAL INFO - daily details that go into running an devices and software applications to convert, store,
organzayion, such as receipts, invoice, payslips. protect, process, transmit and retrieve information.

STRATEGIC INFO - mission critical and relates directly with the
COMPUTER
thrust of the organization required to act in accordance with the
environment or market competition.
An electronic data processing machine capable of performing
mathematical and logical operations and processing large
SYSTEM
volumes of data at high speeds.
A group of organized interdependent components that interact
with and complement one another to achieve one or more CHARACTERISTICS OF A COMPUTER
predetermined goals. Speed
It was invented as a high speed calculator.
A system should be composed of parts, unitary whole, Capable of adding two 18-digit number in 300 to 400
hierarchical, bounded, goal oriented and its parts interact. nanosecond
Accuracy
TYPE OF SYSTEM Its accuracy is consistently high.
Close System has no input or outputs, it is isolated Errors in the machinery can occur but, due to
from its environment increased efficiency in error-detecting techniques,
Open System is one with inputs and outputs, since all these seldom lead to false results.
the system we deal within a computing context are Errors are mainly due to human rather than the
open system technology,
Storage
DATA PROCESSING CONCEPT Can store large amounts of data permanently.
Stores any type of data; text, graphic, pictures, audio,
INPUT - PROCESS - OUTPUT and video files separately.
Refers to a conceptual framework wherein input in the form of It is increasing rapidly.
data is processed which would result in the generation of an
output in the form of information. Automation
A computer is much more than an adding machine,
DATA PROCESSING CYCLE calculator
Once a program is in the computer’s memory, the
ORIGINATION - INPUT PREP - PROCESSING - OUTPUT individual instructions are then transferred, one after
PREP - STORAGE the other, to the control unit for execution. The CPU
A flow of data from the moment it is recorded until the time it follows these instructions until it meets a last
becomes a usable piece of information. instruction which says' stop program execution'.

Origination Versatility
- It refers to the initial capture of data on some form of Computers seem capable of performing almost any
document task, provided that the task can be reduced to a series
Input Prep. of logical steps.
- Accurate recording of transcribing of data forms to
permit convenient handling in whatever system the Diligence
forms are being used. Computers do not suffer from the human traits of
Processing tiredness and lack of concentration.
- Actual conversion of data into useful and meaningful
information
Output Prep.
- Process of generating the information and providing it
to the user.
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CAPABILITIES OF A COMPUTER
Ability to perform certain logic operations.
Computers have the ability not only mathematical
calculations but also can perform logical operations.

Ability to provide new dimensions. Computers can
process and perform complex mathematical and
trigonometric functions.

Ability to store and retrieve information.

Ability to control errors. Computers can perform
automatic operations, detect errors and can make
responses to users.

Ability to check itself. The ability to control error is
the ability to check its own process

LIMITATIONS OF A COMPUTER
Dependence on prepared instructions. The
computer performs only what it is programmed to do
and nothing else.

Inability to derive meanings from objects.

A computer does not have feelings.

Inability to generate information. It needs someone
to feed the data for processing. A computer is nothing
more than a piece of electronic equipment that can be
manipulated by humans to achieve its goals.
It cannot correct wrong instructions. A computer
generally cannot detect and cannot correct on its own.

It does not have the common sense to correct the
incorrect data, but it can inform you that there is an
error.

BENEFITS OF COMPUTERS

Easier research

Multi-language translation

Better gaming and entertainment

Online tutoring

Easier to communicate

Makes business better

Makes it easier to shop