Difference between revisions of "Disk"
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'''Disk''' storage was, until recently, the primary form of high-speed on-line '''secondary storage''' for computers. ('Secondary' because, unlike [[main memory]], the data on it was not directly accessible to the [[CPU]]; rather, it has to be read into memory before the CPU can look at it.) | '''Disk''' storage was, until recently, the primary form of high-speed on-line '''secondary storage''' for computers. ('Secondary' because, unlike [[main memory]], the data on it was not directly accessible to the [[CPU]]; rather, it has to be read into memory before the CPU can look at it.) | ||
| − | All disk storage is basically the same; a circular 'platter' is coated with a magnetic coating - very fine particles of magnetic material mixed with a binder, which caused the coating to adhere to the platter. A read/write head, identical in basic concept to the head on a magnetic tape recorder, is used to read and write data on the disk as the disk is rotated. | + | All disk storage is basically the same; a circular 'platter' is coated with a magnetic coating - very fine particles of magnetic material mixed with a binder, which caused the coating to adhere to the platter. A read/write head, identical in basic concept to the head on a magnetic tape recorder, is used to read and write data on the disk as the disk is rotated underneath (or above) it. |
| − | A separate mechanism is used to move the head in and out | + | A separate mechanism is used to move the head in and out, a process known as '''seeking'''. With the head at a fixed position, it writes a '''track'''. Many disks have more than one platter, each with its own read-write heads (usually two, one for each surface), and the collection of tracks at a given offset is referred to as a '''cylinder'''. Each track is usually divided into a number of '''sectors''' - a complete track usually contains too much data to be usefully read and write as a complete unit. |
| − | Initially, all disks used metal platters (usually aluminium). IBM developed a new form of disk, the [[floppy disk]], which used instead a platter of mylar (a stiff plastic). This was carried in a stiff plastic envelope with a felt layer on the inside. The first floppies were 8 inches in diameter; later they were produced in 5-1/4 inch, and finally 3-1/2 sizes (the latter in rigid plastic containers). | + | The platter rotates at high speed, and the heads are shaped to ride on a thin film of air at a very low altitude above the surface of the platter (a small spacing is required to maximize the density of the data on the platter). |
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| + | Some early disks had a separate head for each track; this avoided the delays involved in having the head(s) seek to the correct cylinder; such disks were known as 'fixed-head' disks. | ||
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| + | Initially, all disks used metal platters (usually aluminium). In the late 1960's, IBM developed a new form of disk, the [[floppy disk]], which used instead a platter of mylar (a stiff plastic). This was carried in a stiff plastic envelope with a felt layer on the inside. These disks rotate much more slowly, and the head makes contact with the surface. The first floppies were 8 inches in diameter; later they were produced in 5-1/4 inch, and finally 3-1/2 inch sizes (the latter in rigid plastic containers). | ||
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| + | Most early disk drives used '''packs''', a group of platters which could be installed or removed in a drive, in a process called '''mounting''' a pack. So a system could have multiple packs (for backup purposes, or for infrequently needed data) which could be stored until needed. | ||
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| + | More recently, to increase the amount of information stored on a drive, most disk drives are now sealed. | ||
Revision as of 02:23, 22 December 2016
Disk storage was, until recently, the primary form of high-speed on-line secondary storage for computers. ('Secondary' because, unlike main memory, the data on it was not directly accessible to the CPU; rather, it has to be read into memory before the CPU can look at it.)
All disk storage is basically the same; a circular 'platter' is coated with a magnetic coating - very fine particles of magnetic material mixed with a binder, which caused the coating to adhere to the platter. A read/write head, identical in basic concept to the head on a magnetic tape recorder, is used to read and write data on the disk as the disk is rotated underneath (or above) it.
A separate mechanism is used to move the head in and out, a process known as seeking. With the head at a fixed position, it writes a track. Many disks have more than one platter, each with its own read-write heads (usually two, one for each surface), and the collection of tracks at a given offset is referred to as a cylinder. Each track is usually divided into a number of sectors - a complete track usually contains too much data to be usefully read and write as a complete unit.
The platter rotates at high speed, and the heads are shaped to ride on a thin film of air at a very low altitude above the surface of the platter (a small spacing is required to maximize the density of the data on the platter).
Some early disks had a separate head for each track; this avoided the delays involved in having the head(s) seek to the correct cylinder; such disks were known as 'fixed-head' disks.
Initially, all disks used metal platters (usually aluminium). In the late 1960's, IBM developed a new form of disk, the floppy disk, which used instead a platter of mylar (a stiff plastic). This was carried in a stiff plastic envelope with a felt layer on the inside. These disks rotate much more slowly, and the head makes contact with the surface. The first floppies were 8 inches in diameter; later they were produced in 5-1/4 inch, and finally 3-1/2 inch sizes (the latter in rigid plastic containers).
Most early disk drives used packs, a group of platters which could be installed or removed in a drive, in a process called mounting a pack. So a system could have multiple packs (for backup purposes, or for infrequently needed data) which could be stored until needed.
More recently, to increase the amount of information stored on a drive, most disk drives are now sealed.
