Module 01(1).pdf

Full Transcript

‫ر‬
‫الجامعة السعودية االلكتونية‬
‫ر‬
‫االلكتونية‬ ‫الجامعة السعودية‬

‫‪26/12/2021‬‬
College of Computing and Informatics

Computer Organization
The Architecture of Computer Hardware,
Systems Software & Networking:
An Information Technology Approach

4th Edition, Irv Englander
John Wiley and Sons ©2010

PowerPoint slides authored by Wilson Wong,
Bentley University
PowerPoint slides for the 3rd edition were co-
authored with Lynne Senne, Bentley University
CHAPTER 1: Computers and Systems
Typical Computer Ad

Is the computer fast enough to
run necessary programs?
Is the computer cost-effective?
Will it be obsolete in 6 months?
Why Study Computer System Architecture?

User
Understand system capabilities and limitations
Make informed decisions
Improve communications with information technology professionals
Programmer
Create efficient application software for specific processing needs
Systems Architect or Systems Analyst
Specify computer systems and architecture to meet application requirements
Make intelligent decisions about system strategy
Why Study Computer System Architecture?
System Administrator / Manager
Install, configure, maintain, and upgrade computer systems
Maximize system availability and efficiency
Optimize system performance
Ensure system security
Web Services Designer
Optimize customer accessibility to Web services
Optimize web system configurations
Select appropriate data formats, page designs and scripting
languages
Design efficient Web pages
Web Browser Application Use
Input-Process-Output Model (IPO)

Input: keyboard, mouse, scanner, punch cards
Processing: CPU executes the computer program
Output: monitor, printer, fax machine
Storage: hard drive, optical media, diskettes, magnetic tape
Simplified IT Computer System Layout
Computer System Components

Hardware
Processes data by executing instructions
Provides input and output
Control input, output and storage components
Software
Applications and system software
Instructions tell hardware exactly what tasks to perform and in what order
Data
Fundamental representation of facts and observations
Communications
Sharing data and processing among different systems
Hardware Component

Input/Output devices
Storage Devices
CPU – Central Processing Unit
ALU: arithmetic/logic unit
CU: control unit
Interface unit
Memory
Short-term storage for CPU calculations
Typical Personal Computer System
CPU: Central Processing Unit

ALU: arithmetic/logic unit
Performs arithmetic and Boolean logical calculations
CU: control unit
Controls processing of instructions
Controls movement of data within the CPU
Interface unit
Moves instructions and data between the CPU and other hardware
components
Bus: bundle of wires that carry signals and power between different
components
Memory

Also known as primary storage, working storage, working
storage, and RAM (random access memory)
Consists of bits, each of which hold a value of either 0 or 1
(8 bits = 1 byte)
Holds both instructions and data of a computer program
(stored program concept)
Software Component

Applications
Operating System
API: application program
interface
File management
I/O
Kernel
Memory management
Resource scheduling
Program communication
Security
Network Module
Communications Component
Hardware
Communication channels
Physical connections between computer systems
Examples: wire cable, phone lines, fiber optic cable, infrared light, radio
waves
Interface hardware
Handles communication between the computer and the communication
channel
Modem or network interface card (NIC)
Software
Establish connections
Control flow of data
Directs data to the proper applications for use
Computer Systems

All computer systems, no matter how complex,
consists of the following:
At least one CPU
Memory to hold programs and data
I/O devices
Long-term storage
Computer Systems Examples

HP Laptop Computer

IBM System z10 EC Mainframe
Virtualization

Virtual (American Heritage Dictionary(
Existing or result in essence or effect though not in
actual fact, form or name
Created, simulated, or carried on by means of a
computer or computer network
Computer systems examples
Virtual memory
Virtual networks
Java Virtual Machine
Protocols
Common ground rules of communication between
computers, I/O devices, and many software programs
Examples
HTTP: between Web servers and Web browsers
TCP/IP: between computers on the Internet and local
area networks
SATA: between storage devices and computers
XML,RSS, SIP: new protocols
Standards
Created to ensure universal compatibility of data
formats and protocols
May be created by committee or may become a de facto
standard through popular use
Examples:
Computer languages: Java, SQL, C, JavaScript
Display standards: Postscript, MPEG-2, JPEG, GIF
Character set standards: ASCII, Unicode, EBCDIC
Multimedia standards: MPEG-2, MPEG-4, DivX, MP3
Textbook Overview
Web site: http://www.wiley.com/college/englander
Part 1 (Chapters 1-2)
Overview of computer systems
Part 2 (Chapters 3-5)
Number systems and data formats
Part 3 (Chapters 6-11)
Computer architecture and hardware operation
Part 4 (Chapters 12-14)
Networks and data communications
Part 5 (Chapters 15-18)
Software component – operating systems
Part 6 (Supplementary Chapters S1-S4)
Digital logic, systems examples, instruction addressing modes, programming
tools
Early History
1642: Blaise Pascal invents a calculating machine
1801: Joseph Marie Jacquard invents a loom that uses punch
cards
1800’s:
Charles Babbage attempts to build an analytical engine (mechanical
computer)
Augusta Ada Byron develops many of the fundamental concepts of
programming
George Boole invents Boolean logic.
Modern Computer Development
1937: Mark I is built (Aiken, Harvard University, IBM).
First electronic computer using relays.
1939: ABC is built
First fully electronic digital computer. Used vacuum tubes.
1943-46: ENIAC (Mauchly, Eckert, University of Pennsylvania).
First general purpose digital computer.
1945: Von Neumann architecture proposed.
Still the standard for present day computers.
1947: Creation of transistor
(Bardeen, Shockley, Brattain, Bell Labs).
1951-2: EDVAC and IAS
Early Computers

ENIAC
Babbage’s Analytical Engine
System Software History
Early computers had no operating systems and were single user systems
Programs were entered using switches for each bit or by plugging wires into a
panel
1953-54: First operating system was built by General Motors Research
Laboratories for their IBM 701 computer
Other early systems
FORTRAN Monitor System (FMS)
IBSYS
Share Operating System (SOS)
Operating System Development

1963: Master Control Program (MCP) by Burroughs. Included
many modern OS features.
1964: OS/360 by IBM. Included batch processing of programs.
1962: MIT Project MAC created a time-sharing OS called CTSS.
Shortly afterwards, MIT, Bell Labs, and GE developed Multics
(Multiplexed Information and Computing Services).
UNIX
After Bell Labs withdrew from the Multics project, Ken Thompson developed a
personal operating system called UNIX using assembly language.
Dennis Ritchie developed the programming language C which was used to
rewrite much of UNIX in a high-level language.
UNIX introduced
A hierarchical file system
The shell concept
Document production and formatting
Tools for networked and distributed processing
Graphical User Interfaces

1960s: Doug Englebart (Stanford Research Institute)
Invented windows and a mouse interface
1970s: Xerox PARC
Creates a practical windowing system for the Dynabook
project
1980s: Steve Jobs (Apple)
Developed the Apple Lisa and MacIntosh
IBM PC
1982: Stand-alone, single user computer
PC-DOS, MS-DOS (disk operating system)
Later versions of DOS added
Hierarchical directory file storage
File redirection
Better memory management
Windowing systems
Windows 2.0, Windows 3.1, Windows 95
Windows NT, Windows XP, Windows Vista
Windows 7
Communications

1960s and 1970s: users communicated on multiterminal computer systems using
talk and email facilities
1971: Ray Tomlinson creates the standard username@hostname email standard
Modems permitted users to login to office systems, electronic bulletin board
systems, Compuserve, AOL, and Prodigy
1969: ARPANET begun
1985: First TCP-IP wide area network
1991: Tim Berners Lee develops the concepts that become the World Wide Web
1993: Max Andreessen develops Mosaic, the first graphical browser
Copyright 2010 John Wiley & Sons

All rights reserved. Reproduction or translation of this work
beyond that permitted in section 117 of the 1976 United
States Copyright Act without express permission of the
copyright owner is unlawful. Request for further information
should be addressed to the Permissions Department, John
Wiley & Sons, Inc. The purchaser may make back-up copies
for his/her own use only and not for distribution or resale.
The Publisher assumes no responsibility for errors,
omissions, or damages caused by the use of these programs
or from the use of the information contained herein.”
Thank You