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Using Information Technology

Using Information Technology. Chapter 5, from textbook Using Information Technology, pp169 - 198 Hardware--The CPU & Storage. Hardware--The CPU & Storage How to Buy a Multimedia Computer System. 5.1 Microchips, Miniaturization, & Mobility 5.2 The System Unit 5.3 Secondary Storage

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Using Information Technology

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  1. Using Information Technology Chapter 5, from textbook Using Information Technology, pp169 - 198 Hardware--The CPU & Storage

  2. Hardware--The CPU & StorageHow to Buy a Multimedia Computer System • 5.1 Microchips, Miniaturization, & Mobility • 5.2 The System Unit • 5.3 Secondary Storage • 5.4 Future Developments in Processing & Storage

  3. Transistor - a tiny electrically operated switch, or gate, that can alternate between “on” and “off” many millions of times per second 5.1 Microchips, Miniaturization, & MobilityFrom Vacuum Tubes to Transistors to Microchips 1940s vacuum tube towering over 1950s transistor

  4. Steps in Manufacture of a Microchip • Make large drawing. Reduce drawing hundreds of times to microscopic size. • Duplicate reduced photo many times on sheet.

  5. Steps in Manufacture of a Microchip • Print sheet of multiple copies on a wafer made of silicon, a semiconductor. • Print layer after layer above and below original silicon surface.

  6. Steps in Manufacture of a Microchip • Cut wafer into chips. • Mount chip in frame with connective pins extruding.

  7. Miniaturization Miracles: Microchips, Microprocessors, & Micromachines • Types of microchips: • Memory • Logic • Communications • Graphics • Math • Microprocessor • Microcontroller

  8. 5.2 The System UnitThe Binary System: Using On/Off Electrical States to Represent Data & Instructions • The binary system has only two digits--0 and 1. • Bit - binary digit • Byte - group of 8 bits used to represent one character, digit, or other value

  9. The Binary System: Using On/Off Electrical States to Represent Data & Instructions • Kilobyte 1000 bytes • Megabyte 1,000,000 bytes (one million) • Gigabyte 1,000,000,000 bytes (one billion) • Terabyte 1 trillion bytes • Petabyte 1 quadrillion bytes

  10. The Binary System: Using On/Off Electrical States to Represent Data & Instructions • ASCII - the binary code most widely used with microcomputers • EBCDIC - used with large computers • Unicode - uses two bytes for each character rather than one

  11. The Parity Bit Parity bit - an extra bit attached to the end of a byte for purposes of checking for accuracy • Even parity - sum of bits must come out even • Odd parity - sum of bits must come out odd Even parity scheme

  12. Machine Language • Machine language - a binary-type programming language that the computer can run directly

  13. The Computer Case: Bays, Buttons & Boards • Bay - a shelf or opening used for the installation of electronic equipment • System unit - houses the motherboard, power supply, and storage devices • Case - empty box with just power supply Overhead view of system unit

  14. Power Supply • Power supply - a device that converts AC to DC to run the computer • Types of power protection devices: • Surge protector • Voltage regulator • UPS UPS Surge protector

  15. The Motherboard & the Microprocessor Chip • Motherboard - the main circuit board in the system unit • Expansion - increasing a computer’s capabilities by adding hardware • Upgrading - changing to newer, more powerful versions

  16. The Motherboard & the Microprocessor Chip • Two principal architectures or designs of microprocessors: • CISC (Complex Instruction Set Computing) - Supports a large number of instructions at relatively low processing speeds • RISC (Reduced Instruction Set Computing) - Supports a reduced number of instructions in order to obtain faster processing speeds

  17. The Motherboard & the Microprocessor Chip • Two kinds of microprocessors used in most personal computers today: • Intel-type chips made by Intel, AMD, and others • Motorola-type chips made by Motorola for Apple Macintosh computers

  18. Processing Speeds: From Megahertz to Picoseconds

  19. How the Processor or CPU works: Control Unit, ALU, & Registers

  20. How the Processor or CPU works: Control Unit, ALU, & Registers Machine cycle

  21. How Memory Works: RAM, ROM, CMOS, & Flash • Types of memory chips: • RAM - Random Access Memory, used to temporarily hold software instructions and data • ROM • CMOS • Flash

  22. How Memory Works: RAM, ROM, CMOS, & Flash • Types of memory chips: • RAM • ROM - Read-Only Memory, which cannot be written on or erased by the computer user. Contains fixed start-up instructions • CMOS • Flash

  23. How Memory Works: RAM, ROM, CMOS, & Flash • Types of memory chips: • RAM • ROM • CMOS - Complementary metal-oxide semiconductor; powered by a battery and thus doesn’t lose its contents when the power is off • Flash

  24. How Memory Works: RAM, ROM, CMOS, & Flash • Types of memory chips: • RAM • ROM • CMOS • Flash - can be erased and reprogrammed more than once

  25. How Cache Works: Level 1 (Internal) & Level 2 (External) • Cache - temporary storage for instructions and data that the processor is likely to use frequently, thus speeding up processing • Level 1 (L1) cache - built into the microprocessor • Level 2 (L2) cache - consists of RAM chips outside microprocessor • Virtual memory - free hard-disk space used to extend the capacity of RAM

  26. Other Methods of Speeding Up Processing:Interleaving, Bursting, & Pipelining • Interleaving - a process in which the CPU alternates communication between two or more memory banks • Bursting - a process in which the CPU grabs a block of information at a time, on the assumption that the next address requested will be sequential to the previous one • Pipelining - division of large tasks into a series of smaller overlapping ones

  27. Ports & Cables • Types of ports: • Serial port - sends bits one at a time, one after another • Parallel port • SCSI port • USB port • Dedicated port • Infrared port

  28. Ports & Cables • Serial port • Parallel port - transmits 8 bits simultaneously • SCSI port • USB port • Dedicated port • Infrared port

  29. Ports & Cables • Serial port • Parallel port • SCSI port - allows data to be transmitted in a “daisy chain” to up to 7 devices • USB port • Dedicated port • Infrared port

  30. Ports & Cables • Serial port • Parallel port • SCSI port • USB port - can theoretically connect up to 127 peripheral devices daisy-chained to one general-purpose port • Dedicated port • Infrared port

  31. Ports & Cables • Serial port • Parallel port • SCSI port • USB • Dedicated port - special-purpose ports • Infrared port Dedicated ports: mouse port, modem port, and keyboard port

  32. Ports & Cables • Serial port • Parallel port • SCSI port • USB • Dedicated port - special-purpose ports • Infrared port - allows a computer to make a cableless connection with infrared-capable devices

  33. Expandability: Buses & Cards • Expansion slots- sockets on the motherboard into which you can plug expansion cards • Expansion cards - circuit boards that provide more memory or that control peripheral devices

  34. Expandability: Buses & Cards • ISA bus - for ordinary low-speed uses; the most widely used expansion bus • PCI bus - for higher-speed uses; used to connect graphics cards, sound cards, modems, and high-speed network cards • AGP bus - for even higher speeds and 3D graphics

  35. Expandability: Buses & Cards • Graphics cards - for monitors • Sound cards - for speakers and audio output • Modem cards - for remote communication via phone lines • Network interface cards - for remote communication via cable • PC cards - for laptop computers

  36. 5.3 Secondary StorageFloppy Disks • Floppy disk - a removable flat piece of mylar plastic packaged in a 3.5-inch plastic case

  37. Floppy-Disk Cartridges • Zip disks - 100 or 250 Mb • SuperDisks - 120 Mb • HiFD disks - 200 Mb

  38. Hard Disks • Hard disks - thin but rigid metal platters covered with a substance that allows data to be held in the form of magnetized spots

  39. Hard Disks • Head crash - event that happens when the surface of the read/write head or particles on its surface come into contact with the surface of the hard-disk platter, causing the loss of some or all of the data on the disk

  40. Hard Disks • Nonremovable hard disks - housed in a microcomputer system unit and used to store nearly all programs and most data files

  41. Hard Disks • Removable hard disks - one or two platters enclosed along with read/write heads in a hard plastic case, which is inserted into a microcomputer’s cartridge drive Bits on disk - dark stripes are 0 bits and bright stripes are 1 bits

  42. Hard-Disk Technology for Large Computer Systems • Removable packs - 6-20 hard disks aligned one above the other in a sealed unit • Fixed-disk drive - high-speed, high-capacity disk drives that are sealed in their own cabinets • RAID storage system - two or more disk drives within a single cabinet which sends data to the computer along several parallel paths simultaneously

  43. Summary • Microchips, miniaturization and mobility: difference between transistors, IC and microprocessors • System unit: data in computers, components of system cabinet • Secondary storage: floppy disks, hard disks, optical disks

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