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HARD DRIVES

HARD DRIVES. -by R. Bean. Hard Drive Terminology Hard Drive History How the Hard Drive Works Interesting Hard Drive Facts Hard Drive Problems Types of Hard Drives Other Uses for Hard Drives. Hard Drive Terminology.

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HARD DRIVES

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  1. HARD DRIVES -by R. Bean

  2. Hard Drive Terminology Hard Drive History How the Hard Drive Works Interesting Hard Drive Facts Hard Drive Problems Types of Hard Drives Other Uses for Hard Drives

  3. Hard Drive Terminology Platter– A rigid disk made of ceramic material or metal and coated with a magnetic media, allowing them to store data as localized changes in magnetic polarity. Hard disks usually consist of two or more stacked platters. Cluster- The basic allocation unit of magnetic disks storage. Clusters (also known as allocation units) consist of one or more disk sectors. Because storage space is allocated based on clusters, even if a file (or part of a file) physically occupies only a portion of a cluster, that entire cluster will be allocated to the file, and will be considered used disk space. Since file sizes are only rarely exact multiples of the cluster size, the last cluster storing the file's data usually includes some empty space called "slack space" at the end. Clusters make it possible for the operating system to manage the files on a disk more effectively than it could if it had to work at the sector level.

  4. Sector- An arc-shaped portion of the data storage area of a disk that is the smallest physical storage unit of the disk. Disk storage area is organized into: • Sides of the disk surface(top and bottom) A hard disk may have more than two sides if it consists of more than one platter. • Tracks, which are arranged as concentric rings on the surface of magnetic disks. CD-ROMs have a single track, spiraling from the disk edge towards the center. • Sectors, which occupy arc-shaped portions of the tracks. • One sector of data storage occupies an arc-shaped portion of one of the disk tracks.The operating system determinesthe size of each sector, which is 512 bytes(Microsoft has decided in making 4K the default cluster size for FAT32) for magnetic disks formatted for US versions of Windows.

  5. Terminology as used in CONFIGURING a drive in CMOS SetupCYLINDERSLike tracks, the number of concentric cylinders upon which data is recorded, typically 300 to 3000.SECTORSNumber of pie shaped wedges each track is divided into typically 8 to 64.HEADSNumber of sides of magnetic material available to record on and hence number of read/write heads in the disk drive typically 2 to 256.

  6. Tracks Sectors Clusters (Yellow)

  7. FORMATTING Definitions:- To divide (a disk) into marked sectors so that it may store data.- To determine the arrangement of (data) for storage or display.-Strictly, formatting is organizing and marking the surface of a disk into tracks, sectors, and cylinders. It is also sometimes (incorrectly) a term used to signify the action of writing a file system to a disk (especially in the MS Windows/MS DOS world).- Preparing a disk to receive data. Formatting software organizes a disk into logical units, like blocks, sectors, and tracks.- The process of organizing a disk so that it is usable in a particular operating environment.

  8. Low-Level FormattingThis type of formatting writes normally zeros on the hard disk thus over-writing everything on the HDD and it also destroys any partitions. You should get a low-level formatting utility or a zero-fill utility from the HDD manufacturers' web site.Low-level formatting is the process of outlining the positions of the tracks and sectors on the hard disk, and writing the control structures that define where the tracks and sectors are. This is often called a "true" formatting operation, because it really creates the physical format that defines where the data is stored on the disk. The first time that a low-level format ("LLF") is performed on a hard disk, the disk's platters start out empty. That's the last time the platters will be empty for the life of the drive. If an LLF is done on a disk with data on it already, the data is permanently erased and lost.

  9. High-Level FormattingThis type of formatting prepares the HDD for an Operating System.After low-level formatting is completed, the disk is left with tracks and sectors, but nothing written on them. High-level formatting is the process of writing the file system structures on the disk that lets the disk be used for storing programs and data. If you are using DOS, for example, the DOS FORMAT command performs this work, writing such structures as the master boot record and file allocation tables to the disk. High-level formatting is done after the hard disk has been partitioned, even if only one partition is to be used.

  10. Formatting NotesThe distinction between high-level formatting and low-level formatting is important. It is not always necessary to low-level format the hard disk to erase and clean it. High-Level Format is good for Operating System re-constructive purposes or HDD data management. High-Level Formatting is done by wiping out the control structures and writing new ones, so that the old information seems to be lost and the disk appears as new. Most of the old data is still on the disk, but the access paths to it have been wiped out. This deleted data remains recoverable at all the times until HDD has been filled to the point that the old data is automatically over-written with the new data.

  11. Formatting Notes (Continued) Under certain circumstances such as viruses, Trojans, software marked bad sectors, just to mention some, a high-level format won't fix problems. Low Level Formatting is needed to clean and destroy the remaining data that is left behind on the hard disk.Different operating systems use different high-level format programs, because they use different file systems. However, the low-level format, which is the real place where tracks and sectors are recorded, is the same.

  12. PARTITIONINGAfter a drive is physically installed and CMOS is setup to identify it (for IDE types only, not required for SCSI drives), FDISK must be run to partition the drive even if you only want one large partition.The FDISK utility allows you to:1. Partition the disk into any number of logical drives for example, 40 GB drive may be partitioned into two 20 GB drives (C: and D:) and with specific cluster sizes (the larger the partition the bigger the cluster size if not formatted with cluster size switch specified by the user).2. Assign an ACTIVE partition to the boot drive (usually C:)The drive partition containing the operating system must be made "ACTIVE" in order to load from it upon boot-up.

  13. A Hard Drive from a large 1956 Computer. Notice the large stack of 50 disks. The storage capacity is 4 Mb, but it is rather small compared to it’s size in today’s standards

  14. Interesting Hard Drive Facts • Hard drives are sealed to keep out dust particles, smoke, and fingerprints which can all interrupt and/or damage data. • Data is measured as 1 Kilo Bytes equal to 1,000 Bytes. Due to the binary numbering system structure, it is actually 1024 bytes. Therefore, 1 Gigabyte would actually be 1,024,000,000 (An extra 24 Meg of storage!) • Hard drives are constantly spinning wile the computer is on. • Heads “ride” on a bubble of air • Hint know Kilo, Mega, Giga, and Tera.

  15. Hard Drive Problems

  16. Defragmentation (Defrag) Screen

  17. Hard Disk Crash

  18. TYPES OF HARD DRIVES USB Pocket Hard Drive

  19. Finger Print Protected Hard Drive

  20. 3.5-Inch External Hard Drive

  21. What to Do With Old Hard Drives? Well…………

  22. Need A Clock?

  23. How about a Brooch to Wear?

  24. A Christmas Tree?

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