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Introduction To Computer System

Chapter 1. Introduction To Computer System. Prepared By : Dr. Sherif Elseuofi. Introduction. What is the Computer ?

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Introduction To Computer System

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  1. Chapter 1

    Introduction To Computer System

    Prepared By : Dr. SherifElseuofi
  2. Introduction What is the Computer ? The Computer is a set of independent physical components and devices (Hardware), which have a specific job to do for each one and working together by Software to make up the computer system.
  3. Arithmeticoperations Are the four known math operations which are : And any other operation that’s refers to them like: square root, sine, cosine, tan ….
  4. Logical operations are the operations that have a result of either TRUE or FALSE but not together. like comparisons in math:
  5. Data Raw, unprocessed facts Processed data becomes information Stored electronically in files Document files Worksheet files Database files Presentation files
  6. Processing Performing computer operations like arithmetic & logical operations on an entered set of data , in order to output information that is useful for the user.
  7. Information Is a set of results that are output from the computer after processing the data.
  8. User is the one who makes use of the computer, entering data and getting information like: 1) Human 2) Another computer
  9. Information Technology It refers to anything related to computing technology, such as networking, hardware, software, the Internet, or the people that work with these technologies. is a term that encompasses all forms of technology used to create, store, exchange
  10. Computer Tasks:

    Storage
  11. Input When a computer is asked to do a job, it handles the task in a very special way. It accepts the Data from the user. This is called input.
  12. Storage It stored the information until it is ready for use. The computer has memory chips, which are designed to hold information until it is needed.
  13. Processing It processes the Data. The computer has an electronic brain called the Central Processing Unit, which is responsible for processing all data and instructions given to the computer.
  14. output It then returns the processed information to the user. This is called output.
  15. Microprocessor •  Central Processing Unit (CPU) •  Two Basic Components –  Control unit –  Arithmetic-logic unit (ALU) 6-12 Page 161
  16. Central Processing Unit (CPU) is the electronic brain of the computer The CPU in a personal computer is usually a single chip It organizes and carries out instructions that come from either the user or from the software.
  17. System Board •  Connects all components •  Allows communication between devices Main board or motherboard Circuit board •  •  electronic components –  Sockets –  Slots –  Bus lines Page 159
  18. Motherboard The motherboard is a rigid rectangular card containing the circuitry that connects the processor and all the other components that make up your personal computer.
  19. Uses of Computer system Use Of Computers In Education Uses of computer in business Uses of Computers in Hospitals Uses of Computers in Airports
  20. Use Of Computers In Education The use of computers in the education sector has increased greatly over the past few years
  21. Advantage of Computers In Education Computers are the best way of teaching subjects to students Computers assist teachers in teaching their students easily and quickly. Students can search for the concepts or things which they wish to know, by referring to relevant websites.
  22. Advantage of Computers In Education The students can be shown charts, diagrams and figures while teaching practical oriented subjects Introduction of computers in educational institutes can help students learn different software and hardware
  23. Disadvantage of Using Computers In Education Doing all calculations with the help of software and calculator can affect our own mathematical ability. With ready-made information available on the Internet, students will not take any interest in reading reference books and searching for information using other sources.
  24. Uses of computer in business computers can be used in business from the stage of manufacturing till the stage of its sale. Computers can keep records of all the employees and prepare their pay cheques in a fraction of minutes every month. A computer can easily carry out automatic checks on the stock of a particular item.
  25. Uses of Computers in Hospitals Some uses of computers in hospitals do not involve treating patients but help medical staff and doctors to handle information and data in a better manner.
  26. Application of Computers in Hospitals Handling Medical Data Scanning and Imaging Examination and Monitoring
  27. Advantages of Computers in Hospitals Precise 'tests' and medical examinations Faster medical alerts, which are more accurate time-wise Enhanced data about a patients medical history Precision in diagnosis Precision in billing Automated updating of medical history
  28. Uses of Computers in Airports Keep track of the planes' locations, speed, direction, status, etc. Monitor security devices like cameras, x-ray machines, and metal detectors Keep up with the departure/arrival status Communicate over screens audio systems, and paging devices It is used for saving, who have booked the tickets
  29. Computer Generations First Second Third Fourth
  30. The First Generation:  1946-1958 (The Vacuum Tube Years) The first generation computers were huge, slow, expensive, and often undependable. 
  31. IBM 360 Computer System
  32. The First Generation:  1946-1958 (The Vacuum Tube Years) The ENIAC used thousands of vacuum tubes, which took up a lot of space and gave off a great deal of heat just like light bulbs do
  33. The Second Generation:  1959-1964 (The Era of the Transistor) In 1947 three scientistsworking at AT&T's Bell Labs invented what would replace the vacuum tube forever.  This invention was the transistor which functions like a vacuum tube in that it can be used to relay and switch electronic signals.
  34. The First Transistor (1946-1958)
  35. Transistor Faster, more reliable, smaller, and much cheaper to build than a vacuum tube. One transistor replaced the equivalent of 40 vacuum tubes transistors were made of solid material, some of which is silicon, an abundant element (second only to oxygen) found in beach sand and glass.
  36. IBM 704 Used discrete transistors
  37. The Third Generation:  1965-1970 (Integrated Circuits-Minimizing the computer) The integrated circuit, or as it is sometimes referred to as semiconductor chip, packs a huge number of transistors onto a single wafer of silicon.  
  38. The Third Generation:  1965-1970 (Integrated Circuits-Minimizing the computer) The number of transistors that can be placed on a single chip has doubled every two years, shrinking both the size and cost of computers even further and further enhancing its power. 
  39. Third Generation Left: DEC PDP-8, c. 1965 Right: DEC PDP-11, c. 1970
  40. The Third Generation:  1965-1970 (Integrated Circuits-Minimizing the computer) These third generation computers could carry out instructions in billionths of a second. The size of these machines dropped to the size of small file cabinets.
  41. The Fourth Generation:  1971-Today (The Microprocessor) This generation can be characterized by : monolithicintegratedcircuits (millions of transistorsput onto one integrated circuit chip) and the invention of the microprocessor (a single chip that could do all the processing of a full-scale computer)
  42. The Fourth Generation:  1971-Today (The Microprocessor) By putting millions of transistors onto one single chip more calculation and faster speeds could be reached by computers. 
  43. Chapter 2

    Computer system components

  44. Computer system components Computer Hardware Computer Software Computer User
  45. Computer Hardware Input unit: Keyboard Mouse Scanner Microphone CD-ROM Joystick
  46. Computer Hardware 2. Processing unit Central Processing unit (CPU) Arithmetic & Logical unit (ALU) Control unit Registers
  47. Computer Hardware Registers one of a small set of data holding places that are part of a computer processor . A register may hold a computer instruction , a storage address, or any kind of data (such as a bit sequence or individual characters).
  48. Computer Hardware Data Registers: is the register of a computer's control unit that contains the data to be stored in the computer storage
  49. Computer Hardware Address Registers : is a CPU register that either stores the memory address from which data will be fetched to the CPU or the address to which data will be sent and stored.
  50. Computer Hardware Status Registers : is a hardware register which contains information about the state of the processor
  51. Computer Hardware Program counter : Is a register in a computer processor that contains the address (location) of the instruction being executed at the current time.
  52. Computer Hardware 3. Memory Unit Main Memory Unit Secondary Memory Unit
  53. Computer Hardware Main Memory Unit: Random Access Memory (RAM): memory where data and program instructions are stored while the computer is in operation. This is temporary memory.
  54. Computer Hardware Main Memory Unit: Read Only Memory (ROM): Is a small area of permanent memory that provides startup instructions when the computer is turned on. You can not store any data in ROM. The instructions in ROM are set by the manufacturer and cannot be changed by the user.
  55. Computer Hardware Secondary Memory Unit: Hard disk Floppy disk Tape drive CD-ROM Flash Memory
  56. Computer Hardware 4. Output Unit Monitor Speakers Printer Impact Dot Matrix Non-Impact Ink Jet Laser
  57. Computer Software System Software An operating system(sometimes abbreviated as "OS") is the program that, after being initially loaded into the computer by a boot program, manages all the other programs in a computer.
  58. Computer Software 2. Application Software General purpose Software Application software is any software used for specified applications such as: Word Processing Spreadsheet Database Presentation Graphics Communication Tutorials Entertainment, Games
  59. Chapter 3

    Classification of Computers

  60. Classification of Computers According To: Size Data Handled Purpose Of Use
  61. Size Microcomputers, or Personal Computers : Two major types of these computers are laptop or Desktop computers. Only one user uses these computers at time that's why they are also known as personal computers.
  62. Size 2. Minicomputers : These are powerful computer. These computers come into existence in 1960s at that time mainframe computer was very costly. Mini computers were available in cheap prices, so users start using it.
  63. Size 3. Mainframe Computers : It as a very powerful and large computer. it can handle processing of many users at a time. Terminals are used to connect a user to this computer and users submit there task through mainframe Terminal is a device which has keyboard and a screen. By using terminal users put inputs into the computer and get the output through screen.
  64. Size 4. Supercomputers : These are most powerful computers even than mainframe.
  65. Data Handled Analog: Analog computers are used to process continuous data. Analog computers represent variables by physical quantities. which solve problem by translating physical conditions such as flow, temperature, pressure, angular position or voltage
  66. Data Handled Digital: Digital computer represents physical quantities with the help of digits or numbers. These numbers are used to perform Arithmetic calculations and also make logical decision to reach a conclusion, depending on, the data they receive from the user.
  67. Data Handled 3. Hybrid: Various specifically designed computers are with both digital and analog characteristics combining the advantages of analog and digital computers when working as a system.
  68. Purpose Of Use 1. General Purpose Computers: can process business data as readily as they process complex mathematical formulas. General-purpose computers can store large amount of data and the programs necessary to process them.
  69. Purpose Of Use 2. Special Purpose Computers: designed to solve a specific problems; the computer program for solving the problem is built right into the computer.
  70. Chapter 4

    Computer Networks

  71. Definition A computer network is a system for communication among two or more computers.
  72. Advantages Sharing Devices :Peripherals such as printers can be shared amongst many different users. Saving cost:Terminals are cheaper than standalone PCs. Sharing resources :Software can be shared amongst different users. Sharing data :Data can be shared between different authorized users. Communication : Communication (Telephone calls, E-mails, Chatting …. Etc) across the network is cheap and fast.
  73. Disadvantages Cabling can be expensive to install and replace. A fault with the server will prevent the whole network from working. Security measures are needed to restrict access to the network. 4. WANs are vulnerable to hackers and viruses.
  74. Classification of Computer network By geographical range: Personal Area Network (PAN) Local Area Network (LAN) Metropolitan Area Network (MAN) Wide Area Network (WAN)
  75. Classification of Computer network 2. By functional relationship client-server multitier architecture Peer-to-peer By network topology bus network star network ring network
  76. What is a Protocol? A protocol is a set of rules that governs the communications between computers on a network. Networking Hardware Networking hardware includes all computers, peripherals, interface cards and other equipment needed to perform data-processing and communications within the network.
  77. File/Network Servers These are very fast computers with a large amount of RAM and storage space, along with a one or more fast network interface card(s). Workstations A computer that is configured with a network interface card, networking software, and the appropriate cables. Workstations do not necessarily need large storage hard drives, because files can be saved on the file server. Almost any computer can serve as a network workstation.
  78. Laptops/Mobile Devices These devices typically have modest internal storage, but enough power to serve as a workstation for users on the go. These machines nearly always have a wireless adapter to allow quick network connections without cumbersome cabling. Network Interface Cards (NIC) The physical connection between the network and the computer workstation. Most NICs are internal
  79. Ethernet Cards Ethernet cards are usually included with a computer connections for either coaxial or twisted pair cables
  80. Wireless Adapters Are found in most portable devices, such as laptops, smart phones, and tablet devices. Switches A device that provides a central connection point for cables from workstations, servers, and peripherals. That is they electrically amplify the signal as it moves from one device to another
  81. Repeaters The repeater electrically amplifies the signal it receives and rebroadcasts it. They are used when the total length of your network cable exceeds the standards set for the type of cable being used. Bridges Is a device that allows you to segment a large network into two smaller, more efficient networks.
  82. Routers Are the traffic directors of the global internet Determine appropriate paths for packets destined for any address Firewalls Is a networking device that is installed at the entrance to a LAN when connecting a networks together, particularly when connecting a private network to a public network, such as the internet. Protect the private network users and data from malevolent hackers. Firewalls are either hardware or software
  83. What is Network Cabling? Cable is the medium through which information usually moves from one network device to another. Types of Cables: Unshielded Twisted Pair (UTP) Cable Shielded Twisted Pair (STP) Cable Coaxial Cable Fiber Optic Cable
  84. Unshielded / shielded Twisted Pair (UTP) Cable: RJ-45 connector
  85. Coaxial Cable BNC connector
  86. Fiber Optic Cable BNC connector
  87. What is a topology? refers to the configuration of cables, computers, and other peripherals. Main Types of Physical Topologies Linear Bus Star Tree (Expanded Star)
  88. Linear Bus consists of a main run of cable with a terminator at each end .
  89. Advantages of a Linear Bus Topology Easy to connect a computer or peripheral to a linear bus. Requires less cable length than a star topology. Disadvantages of a Linear Bus Topology Entire network shuts down if there is a break in the main cable. Terminators are required at both ends of the backbone cable. Difficult to identify the problem if the entire network shuts down. Not meant to be used as a stand-alone solution in a large building.
  90. Star A star topology is designed with each node (file server, workstations, and peripherals) connected directly to a central network hub, switch, or concentrator
  91. Advantages of a Star Topology Easy to install and wire. No disruptions to the network when connecting or removing devices. Easy to detect faults and to remove parts. Disadvantages of a Star Topology Requires more cable length than a linear topology. If the hub, switch, or concentrator fails, nodes attached are disabled. More expensive than linear bus topologies because of the cost of the hubs, etc.
  92. Tree or Expanded Star A tree topology combines characteristics of linear bus and star topologies. It consists of groups of star-configured workstations connected to a linear bus backbone cable
  93. Advantages of a Tree Topology Point-to-point wiring for individual segments. Supported by several hardware and software venders. Disadvantages of a Tree Topology Overall length of each segment is limited by the type of cabling used. If the backbone line breaks, the entire segment goes down. More difficult to configure and wire than other topologies.
  94. Chapter 5

    General Computer Topics

  95. Computer Crimes Computer crime refers to any crime that involves a computer and a network. Computer viruses: A computer virus is a computer program that can replicate itself and spread from one computer to another. Denial-of-service attacks: isan attempt to make a machine or network resource unavailable to its intended users. Malware: is software used or created to disrupt computer operation, gather sensitive information Spam: sending of bulk email for commercial purposes Fraud : Computer fraud is any dishonest misrepresentation of fact
  96. Computer Viruses A computer virus is an application program designed and written to destroy other programs. It has the ability to: Link itself to other programs Copy itself (it looks as if it repeats itself) Infects programs, documents, databases and more … It is man-made It can hide and reproduce It can lay dormant (inactive) and then activate
  97. Sources of Computer Viruses The Internet :Via downloads and exchanges Secondary storge: Exchanging disks Computer networks : Can spread from one network to How do you know if you have a virus? Lack of storage capability Decrease in the speed of executing programs Unexpected error messages Halting the system
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