CTCC0113-Course-Packet-03.pdf

Transcript

Learning Module 02
Principles and Concepts of
Computing Systems

Course Packet 03

The Computer System
 CTCC0113 Introduction to Computing

Course Packet 03

The Computer System
Introduction
This learning packet will introduce the students to the computer system.
Alternatively, students who are familiar with its principles and concepts will be able to
use it as a refresher.

Objectives
This learning packet aims to help the student understand the principles and
concepts that are involved in a computer system.

Learning Management System
(To be provided by the individual who will use this LM)

Duration

Topic 01: The Computer System = 5 hours
(3 hours of self-directed learning
with practical exercises and 2
hours of assessment)

Delivery Mode

These materials will be delivered online (Synchronous and Asynchronous).

Assessment with Rubrics
Assessment 03 on page 21 (Please refer to the rubrics on page viii)

Requirement with Rubrics
Activity Sheet 03 on page 20 (Please refer to the rubrics on page viii)
Assignment on page 22 (Please refer to the rubrics on page viii)

Readings
Learn Computer Science Online (2021. Learn Computer Science).
Retrieved from:
https://www.learncomputerscienceonline.com/introduction-to-computer-
system/
Computers and Computer Systems (2016, The Open University).
Retrieved from:
https://www.open.edu/openlearn/ocw/mod/oucontent/view.php?id=2892
&printable=1

2
 CTCC0113 Introduction to Computing

Introduction
The topic of this learning packet is “the computer Key Points:
system”. As the entry point of the learning module, this
topic will concisely examine the history of computing and History of
thereafter will focus on how the parts of a computer system computing
work together. In addition to the discussion of the central CPU
processing unit (CPU), this topic will briefly study other Number system
topics in this module such as number systems, hardware, Hardware
software, electronic media and the internet. Software
Electronic media
The internet

Figure 1. Various computer hardware
(Image retrieved from https://www.intel.com/)

Pre-Assessment
1) What could have been the first computer?
2) What comes to mind when the term “computer
system” is mentioned?
3) What could be the function of a “central processing
unit” in a computer system?
4) What is the possible difference between “input” and
“output” in a computer system?
5) What is the possible difference between “primary
memory” and “secondary memory” in a computer
system?

Figure 2. Various computer peripherals
(Image retrieved from https://knowtechie.com/)

3
 CTCC0113 Introduction to Computing

Lesson Proper
Key Points:
Early computing devices existed in various cultures.
The abacus is still
The abacus is a computing tool that has been used used today.
as early as the Mesopotamian period. Most designs are able The abacus can be
used by visually-
to perform the four basic arithmetic operations but have
impaired people.
difficulty in longer or more complex operations.
The astrolabe is
modeled after the
Many traders and merchants still use the abacus for universe.
their computational needs. Aside from being needing no Astrolabe watches
power source, the abacus is also useable by people who are are still
visually impaired and cannot use calculators. manufactured
today.

Figure 3. An abacus
(Image retrieved from https://www.computerhistory.org/)

The astrolabe is a computing tool that was invented
around the Hellenistic civilization. Most designs are
modeled after the universe or some aspect thereof. It can:

function as an inclinometer
determine the altitude of any celestial body above
the horizon
determine the local latitude
measure the time of day, night or year
measure NPS (North Polar Sequence) orientation

Mechanical astronomical clocks, which show a
continuous display of the position of the sun, planets and
stars, are based on the astrolabe. To this day, astrolabe
watches are still manufactured.

4
 CTCC0113 Introduction to Computing

Key Points:

Society’s
computational
needs changed.
Computers were
intended to solve
large
computational
tasks.
The Analytical
Engine is
considered as the
first computer.

Figure 4. An astrolabe
(Image retrieved from https://www.britannica.com/)

As society changed, so did its computational needs.
Although the abacus and the astrolabe could still perform
their functions when small tasks are involved, it was
difficult to use them for bigger undertakings.

Computers were originally intended to solve large
computational tasks, thus the name.

The ancestor of the modern computer’s design was
The Analytical Engine, designed and partially built by
Charles Babbage. It is considered as the first computer and
was based on the Difference Engine which was a simple
calculating machine.

Babbage thought of ways to improve the Difference
Engine and came up with the idea for a general-purpose
machine for computing: the Analytical Engine. Until his
death in 1871, Babbage worked on its mechanisms.

The Analytical Engine was composed of four
components: store, mill, reader and printer. Each
component was analogous to modern computers: the store
was memory, the mill was the central processing unit
(CPU), the reader was an input device, and the printer was
an output device.

These computer system terminologies will be
discussed further starting on page 9.

5
 CTCC0113 Introduction to Computing

Definition of Terms:

ACM. Association for
Computing
Machinery.
ENIAC. Electronic
Numerical Integrator
and Calculator.

Figure 5. A portion of the Analytical Engine
(Image retrieved from https://www.britannica.com/)

The grandfather of digital computers, the Electronic
Numerical Integrator and Calculator (ENIAC), was
built in 1943 and its invention led to the formation of the
Association for Computing Machinery (ACM).

The creation of ENIAC was a project which was
funded by the government of the United States of America.
It was designed specifically to compute values for artillery
range tables.

Figure 6. The ENIAC room
(Image retrieved from https://cacm.acm.org/)

6
 CTCC0113 Introduction to Computing

For further research and reading, here is an
alphabetical list of significant persons in the history of Definition of Terms:
modern computing:
BASIC. Beginner’s
All-purpose Symbolic
1) Alan Shugart: Inventor of the floppy disk.
Instruction Code.
2) Alan Turing: Conceptualized the Turing machine, COBOL. Common
basis of modern computers. Business Oriented
3) Douglas Engalbart: Prototyped a modern Language.
computer with a mouse and graphical user interface. HTML. Hypertext
4) Grace Hopper: Inventor of the first computer Markup Language.
language: Common Business Oriented Language IBM. International
(COBOL). Business Machines.
5) Herman Hollerith: Designer of a punch card UNIVAC. Universal
system and established International Business Automatic Computer.
Machines (IBM).
6) Jack Kilby and Robert Noyce: Inventors of the
computer chip.
7) John Mauchly and J. Presper Eckert: Designers
of the ENIAC and the Universal Automatic
Computer (UNIVAC).
8) JV Atanasoff: Designer of the first computer that
could store information in its main memory.
9) Paul Allen and Bill Gates: Wrote software using
the new programming language Beginner’s All-
purpose Symbolic Instruction Code (BASIC) and
established Microsoft.
10) Rob Barnaby: Creator of WordStar, the first word
processor.
11) Robert Metcalfe: Developer of the Ethernet.
12) Sergey Brin and Larry Page: Developers of the
Google search engine.
13) Shantanu Debnath: Led the creation of the first
reprogrammable quantum computer.
14) Steve Jobs and Steve Wozniak: Creators of the
first computer with a single-circuit board and
established Apple Computers.
15) Tim Berners-Lee: Developer of Hypertext Markup
Language (HTML) and in turn, the World Wide Web
(WWW).
16) William Shockley, John Bardeen and Walter
Brattain: Inventors of the transistor.

7
 CTCC0113 Introduction to Computing

Henceforth, the discussion will focus on the
modern digital computer system. Definition of Terms:

As an introduction and for familiarization, here is a Microcomputer.
Most common
simple categorization of modern digital computers by size:
computer.
Mainframe. Handles
Microcomputer: The most common type. It uses a multiple users at
microprocessor. Examples are desktop computers, once.
game consoles, laptop computers, programmable Supercomputer.
calculators and smartphones. Handles intense
computational tasks.
Mainframe: It is an institutional computer that
responds to multitudes of users at the same time.
Mainframe uses cases include blockchain
technology, private clouds and machine learning.

Supercomputer: It performs intense computational
tasks such as weather forecasting and nuclear
simulations.

The most powerful supercomputer as of
November 2020 ranked by World Economic
Forum is Fugaku. Fugaku is equipped with158,976
nodes into 432 racks and a LINPACK score of
442.01 petaflops was jointly developed by Fujitsu
and RIKEN in Kobe, Japan, it was made to resolve
Science and technology issues as well as in the
field of Big Data and AI. Fugaku is used in
experimental research in coronavirus, specifically
running simulations of how respiratory droplets in
different settings moves through air, Fugaku
started its full operation in 2021.

Figure 7. FUGAKU Supercomputer
(Image retrieved from
https://www.fujitsu.com/global/about/resources/publications/technicalreview/20
20-03/)

8
 CTCC0113 Introduction to Computing

The working definition of a computer system posits
that it is comprised of functional entities, namely the Definition of Terms:
hardware and software, which together are able to accept
data (input), process it and provide feedback (output) in a Bit. Binary digit.
Zero. False, Off.
format that can be understood by the user.
One. True, On.
At this point, some questions may be raised such as:
How does the computer system accept data from the
user?
How does the computer system process data from
the user?
How does the computer system provide feedback to
the user?

The computer system is a machine that cannot
naturally understand human language. A bit (binary digit)
is the basic unit of information that a computer system can
understand. It is comprised of only two states:
0 (Zero): This value is False or Off.
1 (One): This value is True or On.

Number systems in computing will be discussed
further in Learning Packet 02.

Figure 8. A power button
(Image retrieved from https://www.directive.com/)

The power button symbol is a combination of the
two states of a computer system: Off and On. It is a zero
and a one.

9
 CTCC0113 Introduction to Computing

Next, examine the functional entities of the
computer system: Definition of Terms:
Hardware
Hardware. Tangible.
Software
Input device. Accept
Hardware comprises the tangible parts. It is data.
anything that the user can physically touch in the computer Output device.
system. Show results.
Monitor. Shows
To answer the question “How does the computer images.
system accept data from the user?”- A computer system has Processor. Acts as
hardware that can accept commands and data (input) from the brain.
the user. These are called input devices.

To answer the question “How does the computer
system process data from the user?” - A computer system
has hardware that acts as its brain. These are called
processors.

To answer the question “How does the computer
system provide feedback to the user?” - A computer system
has hardware that can show the results of processing data
(output) to the user. These are called output devices.

Figure 9. A computer monitor
(Image retrieved from https://www.acer.com/)

A basic example of computer hardware is the
monitor. It shows the user some images which represent
inner workings of the computer system. A computer
monitor is an output device.

Hardware will be discussed further in Learning
Packet 03.

10
 CTCC0113 Introduction to Computing

Software comprises the intangible parts of the
computer system. They are commonly known as Definition of Terms:
“programs” or “applications”.
Software. Intangible.
There are software which tell hardware how to
Apps. User-centric
interact with the computer system as a whole. These are Device driver.
called device drivers. Hardware and
computer system
There are software which maintain the computer interaction.
system such as configuration, monitoring and security. Operating system.
These are called utility software. Environment for
communication.
There are software which manage the computer System software.
system’s resources and services for other software. These Manage the
are called system software. computer system.
Utility software.
Maintain the
There are software which have specific tasks that are computer system.
not directly related to operating the computer. They are
typically user-friendly and user-centric: they cater to the
needs of the user instead of the needs of the computer
system. These are called application software or apps.

Figure 10. An operating system
(Image retrieved from https://www.lifewire.com/)

A basic example of computer software is the
operating system. It manages the computer system and
provides an environment where apps can communicate with
the user. An operating system is a system software.

Software will be discussed further in Learning
Packet 04.

11
 CTCC0113 Introduction to Computing

But how exactly does a computer system, which is a
machine, process all of those commands and data as if it has Definition of Terms:
its own brain?
CPU. Central
processing unit.
IC. Integrated circuit.
USB. Universal
serial bus.

Figure 11. A microprocessor
(Image retrieved from https://www.computer.org/)

The central processing unit (CPU), also called a
processor, is a circuit that carries out instructions for the
computer system. The design and form of processors have
changed over time from integrated circuit
microprocessors (ICs) to multi-core processors.
However, the fundamental operation of processors remain
the same.

Figure 12. Block diagram of a CPU
(Image retrieved from https://peda.net/)

12
 CTCC0113 Introduction to Computing

If a CPU is comprised of a memory unit, a control
unit and an arithmetic and logic unit, why do many people Key Points:
call this “CPU”?
It’s a SYSTEM
UNIT, not a CPU!
It’s a FLASH
DRIVE, not a
USB!

Figure 16. A system unit
(Image retrieved from https://study.com/)

That is a misnomer. The processor (CPU), graphics
processing unit (GPU), storage devices and internal
peripherals are contained in this enclosure. The correct
terminology for this enclosure is “system unit”.

Other parts of the computer system such as input
devices are connected to the CPU via their respective units.
They communicate by transferring data between
components via computer buses (bus).

A widely-known industry standard is the universal
serial bus (USB). External storage devices that use USB
hardware for connectivity are mistakenly called “USBs”.
The correct terminology for such devices is “flash drive”.
They are storage drives that use flash memory.

Figure 17. Flash drives
(Image retrieved from https://study.com/)

16