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Text 2. STORAGE DEVICESStorage medi
Text 2. STORAGE DEVICES
Storage media are classified as primary storage or secondary storage on the basis of combinations*of cost, capacity, and access time. The cost of storage devices is expressed as the cost per bit of data stored. The time required for the computer to locate and transfer data to and from a storage medium is called the access time for that medi¬um. Capacities range from a few hundred bytes of primary storage for very small computers to many billions of bytes of archival storage for very large computer systems.
Memories may be classified as electronic or electromechanical. Electronic memories have no moving mechanical parts, and data can be transferred into and out of them at very high speeds. Electromechanical memories depend upon moving mechanical parts for their operation, such as mechanisms for rotating magnetic tapes and disks. Their data access time is longer than is that of electronic memories; however they cost less per bit stored and have larger capacities for data storage. For these reasons most computer systems use electronic memory for primary storage and electromechanical memory for secondary storage.
Primary storage has the least capacity and is the most expen¬sive; however, it has the fastest access time. The principal primary storage circuit elements are solid-state devices: magnetic cores and semiconductors. For many years magnetic cores were the principal elements used in digital computers for primary storage. The two principal types of semiconductors used for memory are bipolar and metal-oxide semiconductors (MOS). The former is faster, the latter is more commonly used at present. Because data can be accessed randomly, semiconductor memories are referred to as random-access memory, or RAM.
There is a wide range of secondary storage devices. Typical hardware devices are rotating electromechanical devices. Mag¬netic tapes, disks, and drums are the secondary storage hardware most often used in computer systems for sequential processing. Magnetic tape, which was invented by the Germans during World War II for sound recording, is the oldest secondary storage medium in common use. Data are recorded in the form of small magnetized "dots" that can be arranged to represent coded patterns of bits.
Tape devices range from large-capacity, high-data-rate units used with large data processing systems to cassettes and cartridges used with small systems. Magnetic disk storage, introduced in the early 1960s, has replaced magnetic tape as the main method of secondary storage. As contrasted with magnetic tapes, magnetic discs can perform both sequential and random pro¬cessing. They are classified as moving-head, fixed-head, or com¬bination moving-head and fixed-head devices. Magnetic discs are the predominant secondary storage media. They include flexible, or floppy discs, called diskettes. The "floppies" were introduced by IBM in 1972 and are still a popular storage me¬dium to meet the demands of the microcomputer market.
Storage media are classified as primary storage or secondary storage on the basis of combinations*of cost, capacity, and access time. The cost of storage devices is expressed as the cost per bit of data stored. The time required for the computer to locate and transfer data to and from a storage medium is called the access time for that medi¬um. Capacities range from a few hundred bytes of primary storage for very small computers to many billions of bytes of archival storage for very large computer systems.
Memories may be classified as electronic or electromechanical. Electronic memories have no moving mechanical parts, and data can be transferred into and out of them at very high speeds. Electromechanical memories depend upon moving mechanical parts for their operation, such as mechanisms for rotating magnetic tapes and disks. Their data access time is longer than is that of electronic memories; however they cost less per bit stored and have larger capacities for data storage. For these reasons most computer systems use electronic memory for primary storage and electromechanical memory for secondary storage.
Primary storage has the least capacity and is the most expen¬sive; however, it has the fastest access time. The principal primary storage circuit elements are solid-state devices: magnetic cores and semiconductors. For many years magnetic cores were the principal elements used in digital computers for primary storage. The two principal types of semiconductors used for memory are bipolar and metal-oxide semiconductors (MOS). The former is faster, the latter is more commonly used at present. Because data can be accessed randomly, semiconductor memories are referred to as random-access memory, or RAM.
There is a wide range of secondary storage devices. Typical hardware devices are rotating electromechanical devices. Mag¬netic tapes, disks, and drums are the secondary storage hardware most often used in computer systems for sequential processing. Magnetic tape, which was invented by the Germans during World War II for sound recording, is the oldest secondary storage medium in common use. Data are recorded in the form of small magnetized "dots" that can be arranged to represent coded patterns of bits.
Tape devices range from large-capacity, high-data-rate units used with large data processing systems to cassettes and cartridges used with small systems. Magnetic disk storage, introduced in the early 1960s, has replaced magnetic tape as the main method of secondary storage. As contrasted with magnetic tapes, magnetic discs can perform both sequential and random pro¬cessing. They are classified as moving-head, fixed-head, or com¬bination moving-head and fixed-head devices. Magnetic discs are the predominant secondary storage media. They include flexible, or floppy discs, called diskettes. The "floppies" were introduced by IBM in 1972 and are still a popular storage me¬dium to meet the demands of the microcomputer market.
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Text 2. STORAGE DEVICESStorage media are classified as primary storage or secondary storage on the basis of combinations*of cost, capacity, and access time. The cost of storage devices is expressed as the cost per bit of data stored. The time required for the computer to locate and transfer data to and from a storage medium is called the access time for that medi¬um. Capacities range from a few hundred bytes of primary storage for very small computers to many billions of bytes of archival storage for very large computer systems.Memories may be classified as electronic or electromechanical. Electronic memories have no moving mechanical parts, and data can be transferred into and out of them at very high speeds. Electromechanical memories depend upon moving mechanical parts for their operation, such as mechanisms for rotating magnetic tapes and disks. Their data access time is longer than is that of electronic memories; however they cost less per bit stored and have larger capacities for data storage. For these reasons most computer systems use electronic memory for primary storage and electromechanical memory for secondary storage.Primary storage has the least capacity and is the most expen¬sive; however, it has the fastest access time. The principal primary storage circuit elements are solid-state devices: magnetic cores and semiconductors. For many years magnetic cores were the principal elements used in digital computers for primary storage. The two principal types of semiconductors used for memory are bipolar and metal-oxide semiconductors (MOS). The former is faster, the latter is more commonly used at present. Because data can be accessed randomly, semiconductor memories are referred to as random-access memory, or RAM.There is a wide range of secondary storage devices. Typical hardware devices are rotating electromechanical devices. Mag¬netic tapes, disks, and drums are the secondary storage hardware most often used in computer systems for sequential processing. Magnetic tape, which was invented by the Germans during World War II for sound recording, is the oldest secondary storage medium in common use. Data are recorded in the form of small magnetized "dots" that can be arranged to represent coded patterns of bits.Tape devices range from large-capacity, high-data-rate units used with large data processing systems to cassettes and cartridges used with small systems. Magnetic disk storage, introduced in the early 1960s, has replaced magnetic tape as the main method of secondary storage. As contrasted with magnetic tapes, magnetic discs can perform both sequential and random pro¬cessing. They are classified as moving-head, fixed-head, or com¬bination moving-head and fixed-head devices. Magnetic discs are the predominant secondary storage media. They include flexible, or floppy discs, called diskettes. The "floppies" were introduced by IBM in 1972 and are still a popular storage me¬dium to meet the demands of the microcomputer market.
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текст, 2.устройства хранения.носитель, классифицируются в качестве начального хранения или длительное хранение на основе сочетания * стоимость, укрепление потенциала и расширение доступа.стоимость устройства хранения данных выражается как расходы на немного хранимых данных.время, необходимое для компьютера, чтобы найти и передачи данных на носитель называется время доступа для меди ¬ э.потенциал колеблется от нескольких сотен байт начального хранения для небольших компьютеров на многие миллиарды байт архивного хранения для очень больших вычислительных систем.воспоминания могут быть классифицированы как электронных, так и электромеханических.электронные воспоминания не движущихся механических частей, а также данные могут быть переданы в и из них на очень высоких скоростях.электромеханический воспоминания зависят от движущихся механических частей, для их эксплуатации, такие, как механизмы вращающееся магнитное кассет и дисков.их доступ к данным времени больше, чем это электронной памяти; вместе с тем они меньше расходов на хранение и имеют больше возможностей - для хранения данных.по этим причинам большинство компьютерных систем использования электронной памяти для хранения и электромеханических памяти для среднего основного хранения.главную хранения имеет наименьший потенциал и является наиболее expen ¬ сив; вместе с тем он быстрый доступ.основные элементы для первичной хранения цепь устройств: магнитные ядер и полупроводников.в течение многих лет магнитной керны были основных элементов, используемых в цифровых вычислительных машин для первичной хранения.два основных типа полупроводников, используемых для памяти биполярное и окислов металлов полупроводники (мос).бывшая быстрее, причем чаще используется в настоящее время.потому что данные можно получить в полупроводниковой памяти случайным образом, называются Random Access оперативной памяти.существует широкий спектр вторичных устройства хранения.типичный устройства вращаются электромеханических устройствах.маг ¬ netic кассеты, диски и барабаны - это средняя хранения оборудования, наиболее часто используется в компьютерных систем для последовательной обработки.магнитные ленты, который был изобретен немцами во время второй мировой войны для записи звука, является старейшим среднего носитель в общее пользование.данные регистрируются в виде небольших намагничивание "точки", которые могут быть организованы представлять коды модели дид.ленточных устройств варьируется от большой потенциал, высокие скорости передачи данных единиц, используемых при больших систем обработки данных на кассетах и патроны используются с малыми системами.магнитного диска для хранения, представил в начале 1960 - х годов, заменил магнитные ленты как основной способ длительное хранение.в отличие от магнитных дисков, магнитные ленты, могут выполнять как последовательный и случайные Pro ¬ cessing.они классифицируются как перемещение головы, фиксированные голову, или com ¬ bination перемещение головы и стационарных голову устройств.магнитные диски являются преобладающей среднего носителей.они включают гибкие, или гибких дисков, называется дискеты."дискет" были введены в IBM в 1972 году и все еще популярного хранения меня ¬ dium для удовлетворения потребностей в микрокомпьютер рынка.
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