1. PC Maintenance: Preparing for A+ Certification Chapter 10: Introduction to Disk Storage

2. Chapter 10 Objectives Understand magnetic and optical storage Understand magnetic and optical storage Explain cylinders, heads, tracks, and sectors Explain cylinders, heads, tracks, and sectors Understand low-level and high-level formatting Understand low-level and high-level formatting Explain principles of partitioning Explain principles of partitioning Choose an appropriate file system for the OS to be installed Choose an appropriate file system for the OS to be installed

3. How Disks Store Data Magnetic or optical Magnetic or optical Based on transitions Based on transitions Electrical: positive or negative Electrical: positive or negative Optical: pit or land Optical: pit or land

4. Magnetic Storage Hard Disks, Floppy Disks Hard Disks, Floppy Disks Polarity change between positive and negative Polarity change between positive and negative

5. Optical Storage CD, DVD CD, DVD Change between pit (less reflective) and land (more reflective) Change between pit (less reflective) and land (more reflective)

6. Disks Versus Drives Disk: Platters that store data Disk: Platters that store data Drive: Mechanism that spins and reads platters Drive: Mechanism that spins and reads platters Hard disk drive: integrated disk and drive Hard disk drive: integrated disk and drive Floppy and CD: separate disk and drive Floppy and CD: separate disk and drive

7. How Disk Space is Organized Heads: Read-write mechanisms, one for each side of each disk platter Heads: Read-write mechanisms, one for each side of each disk platter

8. How Disk Space is Organized Tracks: Concentric rings on a platter Tracks: Concentric rings on a platter

9. How Disk Space is Organized Cylinders: The same track on a stack of platters and sides Cylinders: The same track on a stack of platters and sides

10. How Disk Space is Organized Sectors: Sections of a track created by radial lines from the center of the disk Sectors: Sections of a track created by radial lines from the center of the disk

11. Low-Level Formatting Creates tracks and sectors Creates tracks and sectors Defines the disk geometry Defines the disk geometry Done at the factory Done at the factory

12. Zoned Recording and Sector Translation Zoned Recording: Fewer sectors in center of disk than at outer rings Zoned Recording: Fewer sectors in center of disk than at outer rings Sector Translation: Conversion between physical sectors and logical ones needed to interface with PC Sector Translation: Conversion between physical sectors and logical ones needed to interface with PC

13. Floppy Drive BIOS Support Not Plug and Play Not Plug and Play

14. CD-ROM Drive BIOS Support Auto (Recommended) Auto (Recommended) CD-ROM CD-ROM ATAPI Removable IDE Removable

15. BIOS Translation Methods Standard CHS: Cylinders, Heads, Sectors Standard CHS: Cylinders, Heads, Sectors Extended CHS (ECHS, also called Large) Extended CHS (ECHS, also called Large) Logical Block Addressing LBA Logical Block Addressing LBA

16. Enhanced BIOS Services for Disk Drives A BIOS feature, not a drive feature A BIOS feature, not a drive feature Released in 1998 Released in 1998 Gives the BIOS the capability to recognize large drive sizes (over 8.4 GB) Gives the BIOS the capability to recognize large drive sizes (over 8.4 GB) Primary reason why very old PCs cannot see large new drives Primary reason why very old PCs cannot see large new drives Requires a BIOS update for motherboard or add-on BIOS utility from drive maker Requires a BIOS update for motherboard or add-on BIOS utility from drive maker

17. Data Transfer Modes DMA: Direct Memory Addressing DMA: Direct Memory Addressing Regular and bus mastering Regular and bus mastering PIO: Programmed Input/Output PIO: Programmed Input/Output PIO modes 0 through 4 PIO modes 0 through 4 UltraDMA (Ultra ATA) UltraDMA (Ultra ATA) Modern standard for drive interfaces Modern standard for drive interfaces Makes regular DMA and PIO obsolete Makes regular DMA and PIO obsolete Much faster (33MB/sec to over 150MB/sec) Much faster (33MB/sec to over 150MB/sec)

18. Disk Partitions Physical drive can be divided up Physical drive can be divided up Primary partition Primary partition Extended partition Extended partition Each partition can have one or more logical drives Each partition can have one or more logical drives Primary partition can have only one drive letter Primary partition can have only one drive letter Extended partition can have multiple drive letters Extended partition can have multiple drive letters

19. Disk Partitions

20. Active Partition Bootable partition Bootable partition Only one can be active Only one can be active Must be a primary partition Must be a primary partition

21. Master Boot Record Contains information about the physical drive’s partitions Contains information about the physical drive’s partitions Written to the first sector of the first cylinder of the first head Written to the first sector of the first cylinder of the first head Persists no matter what high-level formatting is done to the drive Persists no matter what high-level formatting is done to the drive

22. Clusters Groups of sectors that are addressed as a group Groups of sectors that are addressed as a group Makes storage access quicker since there are fewer units to address Makes storage access quicker since there are fewer units to address Allows larger drives to be addressed Allows larger drives to be addressed Wastes some space when cluster is not completely full Wastes some space when cluster is not completely full Larger clusters are more wasteful Larger clusters are more wasteful

23. Default Cluster Sizes Each file system has its own default cluster size rules (FAT16, FAT32, NTFS) Each file system has its own default cluster size rules (FAT16, FAT32, NTFS) Cluster size can vary from 1 to 64 sectors Cluster size can vary from 1 to 64 sectors Generally, smaller drive has smaller cluster size Generally, smaller drive has smaller cluster size Refer to Tables 10.1, 10.2, and 10.3 in textbook Refer to Tables 10.1, 10.2, and 10.3 in textbook

24. Common File Systems FAT16 FAT16 FAT32 FAT32 NTFS 4 NTFS 4 NTFS 5 NTFS 5

25. FAT Formatting Creates the volume boot record: Creates the volume boot record: Every logical drive has one Every logical drive has one Holds information about the partition Holds information about the partition Stores the boot files if a bootable drive Stores the boot files if a bootable drive Written to the first sector of the logical disk (the boot sector) Written to the first sector of the logical disk (the boot sector) At startup, OS looks to the boot sector to see if it contains startup files At startup, OS looks to the boot sector to see if it contains startup files

26. FAT Formatting Creates the File Allocation Table Creates the File Allocation Table Small database Small database Two copies of it, for redundancy Two copies of it, for redundancy Tracks only the first cluster of each file Tracks only the first cluster of each file Tracks only files and folders in the root directory Tracks only files and folders in the root directory

27. FAT Formatting Reads information from low-level format about physical defects to avoid in disk surface Reads information from low-level format about physical defects to avoid in disk surface Creates the root directory Creates the root directory Top-level folder Top-level folder All others are placed here All others are placed here

28. FAT16 versus FAT32 FAT16 FAT16 Original FAT file system Original FAT file system Uses 16-bit binary numbers to identify each cluster Uses 16-bit binary numbers to identify each cluster FAT32 FAT32 Improved version Improved version Uses 32-bit binary numbers to identify each cluster Uses 32-bit binary numbers to identify each cluster Drive sizes can be larger because there are more numbers available for cluster IDs Drive sizes can be larger because there are more numbers available for cluster IDs

29. OS Compatibility of FAT FAT16: FAT16: All MS-DOS and Windows versions All MS-DOS and Windows versions FAT32: FAT32: No support in MS-DOS, Windows NT 4.0, or Windows 95 No support in MS-DOS, Windows NT 4.0, or Windows 95 Windows 95C provides limited support (no conversion utility) Windows 95C provides limited support (no conversion utility) Windows 98 and higher provide full support Windows 98 and higher provide full support

30. NTFS New Technology File System New Technology File System Developed for Windows NT (NTFS 4) Developed for Windows NT (NTFS 4) Improved for Windows 2000 and higher (NTFS 5) Improved for Windows 2000 and higher (NTFS 5) 32-bit file system 32-bit file system More sophisticated security permissions More sophisticated security permissions Encryption (NTFS 5) Encryption (NTFS 5)

31. NTFS Features Volume Boot Record Volume Boot Record Equivalent to Volume Boot Record in FAT32 Equivalent to Volume Boot Record in FAT32 Master File Table Master File Table Equivalent to File Allocation Table Equivalent to File Allocation Table System Files System Files No stand-alone command interpreter No stand-alone command interpreter User interface separate from OS kernel User interface separate from OS kernel

32. OS Compatibility of NTFS No support in MS-DOS or 9x versions of Windows No support in MS-DOS or 9x versions of Windows NTFS 4 supported in Windows NT 4.0 NTFS 4 supported in Windows NT 4.0 NTFS 5 supported in Windows 2000 and XP NTFS 5 supported in Windows 2000 and XP Conversion done automatically when upgrading from NT 4.0 to 2000 or XP Conversion done automatically when upgrading from NT 4.0 to 2000 or XP