1. Chapter 9 Multimedia Devices and Mass Storage

2. You Will Learn… How multimedia works on a PC About multimedia devices such as sound cards, digital cameras, and MP3 players About optical storage technologies such as CD and DVD How certain hardware devices are used for backups and fault tolerance How to install and troubleshoot multimedia and mass storage components

3. Multimedia on a PC Goal  To create or reproduce lifelike representations of sight and sound Challenge  Data storage is digital  Sights and sounds are analog

4. CPU Technologies for Multimedia MMX, SSE, and 3DNow!  Improve speed of processing graphics, video, and sound  Use improved methods of handling high-volume repetition during I/O operations Software must be written to use the specific capabilities

5. Multimedia Devices Sound cards  Record sound, save it to a file on hard drive, play it back Externally attached devices  Digital cameras  MP3 players

6. Stages of Computerized Sound Digitize or input sound (analog to digital)  Includes sampling Data is measured at a series of representative points Sampling rate = cycles per second, or hertz (Hz) Store digital data in compressed data file Reproduce or synthesize sound (digital to analog)

7. Sound Card Manufacturers

8. Installing a Sound Card Physically install the card in an empty PCI slot on the motherboard Install sound card driver Install sound applications software

10. Installing a Sound Card

11. Verifying Installation of a Sound Card and Driver

12. Digital Cameras Scan field of image and translate light signals into digital values  Digital values can be stored as a file and viewed, manipulated, and printed with software that interprets them appropriately Use TWAIN format for transferring images

13. A Flash RAM Card

14. Digital Camera Manufacturers

15. MP3 Players

16. A device that plays MP3 files (a version of MPEG compression) MP3 can reduce size of a sound file as much as 1:24 without much loss in quality

17. Compression Methods Used with MP3 Players MPEG (Moving Pictures Experts Group) standard  Tracks movement from one frame to the next and stores only what changes  Can yield compression ratio of 100:1 for full- motion video  Cuts out or drastically reduces sound that is not normally heard by the human ear

18. MPEG Standards MPEG-1  Used in business and home applications to compress images MPEG-2  Used to compress video films on DVD-ROM MPEG-3  Used for audio compression MPEG-4  Used for video transmissions over the Internet

19. How MP3 Players Work Play MP3 files downloaded from a PC, using internal memory and flash storage devices (eg, SmartMedia, CompactFlash, or Memory Stick)

20. MP3 Player Manufacturers

21. Video Capture Card Captures input from a camcorder or directly from TV Features to look for:  IEEE 1394 (FireWire) port  Data transfer rates  Capture resolution and color-depth capabilities  Ability to transfer data back to digital camcorder or VCR  Stereo audio jacks  Video-editing software

22. Video Capture Card Manufacturers

23. Optical Storage Technology Patterns of tiny pits on disc surface represent bits, which are readable by a laser beam Major optical storage technologies  CD-ROM drives Use CDFS (Compact Disc File System) or UDF (Universal Disk Format)  DVD drives Use only UDF

24. CD-ROM Read-only; data physically embedded into disc surface Surface laid out as one continuous spiral of sectors of equal length that hold equal amounts of data

25. CD-ROM Used to distribute software and sound files Combines constant linear velocity (CLV) and constant angular velocity (CAV) Look for multisession feature CD-ROM drives are read-only and slower to access than hard drives

26. CD-ROM Drive Manufacturers

27. CD-ROMs Caring for CD-ROM drives and discs  Use precautions when handling CD-ROM drive interface with motherboard  IDE interface (most common)  SCSI interface  Proprietary expansion card that works only with CD-ROMs from a particular manufacturer  Proprietary connection on sound card  Portable drive; plug into external port on PC

28. Installing a CD-ROM Drive

30. CD-R and CD-RW CD-R (CD-recordable)  Enables “burning” your own CDs  Cannot edit or overwrite  Bottom of disk is tinted (eg, blue, black); CDs are silver  Inexpensive  Can be read by all CD-ROM drives CD-RW (CD-rewritable)  Allows overwriting old data with new data  Cannot always be read by older drives

31. DVD (Digital Video Disc) Storage capacity  8.5 GB (one side)  17 GB (both sides) Uses shorter wavelength laser than CD; a second opaque layer also holds data Uses MPEG-2 video compression; requires MPEG-2 controller to decode compressed data Audio is stored in Dolby AC-2 compression

32. DVD Device

33. DVD Devices

34. DVD Drive Manufacturers

35. Installing a DVD Drive

38. DVD Decoder Card

39. Rear Panel of DVD Drive

41. Installing a DVD Drive

43. Hardware Used for Backups and Fault Tolerance On standalone PCs or small servers  Tape, Zip, and Jaz drives  Read-write CDs In a business environment with PC connected to file server  Back up data to file server

44. Tape Drives Advantages  Inexpensive and convenient  Large capacity  Several types and formats Disadvantage  Sequential access

45. Tape Drive Manufacturers

46. How a Tape Drive Interfaces with a Computer External  Parallel port Internal  IDE ATAPI interface External or internal  SCSI bus  Proprietary controller card or floppy drive interface

47. External Drive Using Parallel Port

48. An ATAPI IDE Tape Drive

49. Tapes Used by a Tape Drive Full-sized data cartridges Minicartridges

50. Several Tape Drive Standards

51. Tape Formats and Tape Types Quarter-Inch Committee (QIC) or quarter-inch cartridge standards  Developed in 1983; only a few in use today Travan by 3M  Different levels (TR-1 through TR-5), each based on a different QIC standard

52. Removable Drives Can be internal or external Increase overall storage capacity of a system Make it easy to move large files from one computer to another Serve as a convenient medium for making backups of hard drive data Make it easy to secure important files

53. Removable Drives Considerations when purchasing  Drop height  Half-life of the disk  Plug and Play compliance

54. Types of Removable Drives Iomega 3½ Zip drive  Stores 100 MB or 250 MB of data  Drop height of 8 feet SuperDisk by Imation or Maxell  Stores 120 MB or 240 MB, respectively  Backward compatibility with regular floppy disks Iomega Jaz drive  Stores 1 GB or 2 GB of data  Drop height of 3 feet

55. Zip Drive

56. Installing a Removable Drive Internal removable drive  Similar to installing a hard drive External removable drive  Different process

57. RAID (Redundant Array of Independent Disks) Data protection methods used to improve performance and/or automatically recover from a failure Most often used on high-end, high-cost file servers

58. Common RAID Levels

59. RAID 0 (Disk Striping without Parity) Increases logical drive capacity by treating two or more drives as a single logical drive Includes only one copy of data; does not enable recovery from failure

60. RAID 1 (Disk Mirroring or Disk Duplexing) Designed to protect data from hard drive failure by writing data twice, once to each of two drives Disk mirroring  Two hard drives use same controller Duplexing  Each hard drive has its own controller on its own adapter card

61. RAID 1 Disk Mirroring Advantages  If either drive fails, data is safe on other drive  Disk reads are speeded up Disadvantages  Expensive  Cuts hard drive capacity in half  Disk writes are slowed down

62. RAID 4 (Disk Striping with Parity)

63. RAID 5 (Disk Striping with Distributed Parity) Currently most popular RAID implementation Provides optimum fault tolerance and improves drive capacity Requires at least three hard drives Distributes parity information over all the drives, thus removing performance bottleneck created by having a single parity drive (as in RAID 4)

64. Windows Support for RAID

65. Troubleshooting Guidelines Do not touch chips on circuit boards or disk surfaces where data is stored Do not stack components on top of one another Do not subject them to magnetic fields or ESD

66. Problems with CD-ROM or DVD Installation Computer does not recognize the drive (no drive D listed in Windows 9x Explorer)

67. Troubleshooting Sound Problems Problem with sound card itself Result of system settings Bad connections

68. Troubleshooting Tape Drives A minicartridge does not work Data transfer is slow Drive does not work after installation Drive fails intermittently or gives errors

69. Chapter Summary Multimedia devices  What they can do  How they work  How to support them Storage devices; installation and troubleshooting  CD  DVD  Removable drives  Tape drives