What is Data Storage? Backing Storage, Study notes of Technology

Backing storage (sometimes known as secondary storage) is the name for all other data storage devices in a computer: hard-drive, etc.

Typology: Study notes

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ICT [0417] Resource Person: Saem M Tariq [Lahore Grammar School]
What is Data Storage?
When we talk about ‘storing’ data, we mean putting the data in a known
place. We can later come back to that place and get our data back again.
Writing’ data or ‘saving’ data are other ways of saying ‘storing’ data.
Reading’ data, ‘retrieving’ data or ‘opening’ a file are ways of saying that
we are getting our data back from its storage location.
Backing Storage vs Main Memory
Main memory (sometimes known as internal memory or primary
storage) is another name for RAM (and ROM).
Main memory is usually used to store data temporarily. In the case
of RAM, it is volatile (this means that when power is switched off all
of the data in the memory disappears).
Main memory is used to store data whilst it is being processed by the CPU. Data can be put into memory, and read back
from it, very quickly.
Memory is fast to access, but only holds data temporarily...
Backing Storage
Backing storage (sometimes known as secondary storage) is the name for all other data
storage devices in a computer: hard-drive, etc.
Backing storage is usually non-volatile, so it is generally used to store data for a long
time.
Backing storage devices are slower to access, but can hold data permanently...
Storage Media & Devices
The device that actually holds the data is
known as the storage medium(‘media’ is
the plural).
The device that saves data onto the
storage medium, or reads data from it, is
known as the storage device.
Sometimes the storage medium is a fixed (permanent) part of the storage device, e.g. the magnetic coated discs built into a
hard drive
Sometimes the storage medium is removable from the device, e.g. a CD-ROM can be taken out of a CD drive.
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What is Data Storage?

When we talk about ‘storing’ data, we mean putting the data in a known place. We can later come back to that place and get our data back again.

Writing ’ data or ‘ saving ’ data are other ways of saying ‘storing’ data.

Reading ’ data, ‘ retrieving ’ data or ‘ opening ’ a file are ways of saying that we are getting our data back from its storage location.

Backing Storage vs Main Memory

Main memory (sometimes known as internal memory or primary storage ) is another name for RAM (and ROM ).

Main memory is usually used to store data temporarily. In the case of RAM, it is volatile (this means that when power is switched off all of the data in the memory disappears).

Main memory is used to store data whilst it is being processed by the CPU. Data can be put into memory, and read back from it, very quickly.

Memory is fast to access, but only holds data temporarily...

Backing Storage

Backing storage (sometimes known as secondary storage ) is the name for all other data storage devices in a computer: hard-drive, etc.

Backing storage is usually non-volatile , so it is generally used to store data for a long time.

Backing storage devices are slower to access, but can hold data permanently...

Storage Media & Devices

The device that actually holds the data is known as the storage medium (‘media’ is the plural).

The device that saves data onto the storage medium, or reads data from it, is known as the storage device.

Sometimes the storage medium is a fixed (permanent) part of the storage device, e.g. the magnetic coated discs built into a hard drive

Sometimes the storage medium is removable from the device, e.g. a CD-ROM can be taken out of a CD drive.

Accessing Stored Data

We refer to a collection of data stored in a computer system as a ‘file’. Files are often organised into ‘folders’.

Whenever you click ‘Save’ in an application, burn files to a CD- R, copymusic onto your MP3 player, or drag and drop a file onto memory stick, you are using storage devices - devices that can store and retrieve data.

Serial / Sequential Access

A serial (or sequential) access storage device is one that stores files one-by-one in a sequence.

A non-computer serial access device that will be familiar to you is a VHS videotape. Because video is stored on a long piece of tape, when TV shows are recorded onto the tape, they go on one-by-one , in order ...

If you want to watch a show that you recorded earlier, you have to rewind / fast- forward through all other shows until you find it.

The shows are only accessible in the same order that you recorded them. This type of one-by-one storage and access is called serial access.

Systems that store things on tape (video, music, computer data, etc.) are always serial

access

Direct / Random Access

A direct (or ‘random’) access storage device is one that stores files so that they can be instantly accessed - there is no need to search through other files to get to the one you want.

An example of a direct access device would be a DVD movie. Unlike the VHS videotape movie, you can jump to any scene on a DVD.

All parts of the DVD are directly accessible. This type of file storage is called direct access.

E.g. a floppy disc can save/read data at a speed of 60kBps

Fast devices have speeds measured in millions of Bps ( MBps ).

E.g. a hard-drive can save/read data at a speed of 300MBps (5000 times quicker than the floppy!)

Magnetic Storage Devices / Media

Why Magnetic?

Magnetic storage media and devices store data in the form of tiny magnetised dots. These dots are created, read and erased using magnetic fields created by very tiny electromagnets.

In the case of magnetic tape the dots are arranged along the length of a long plastic strip which has been coated with a magnetisable layer (audio and video tapes use a similar technology).

In the case of magnetic discs (e.g. floppy disc or hard-drive), the dots are arranged in circles on the surface of a plastic, metal or glass disc that has a magnetisable coating.

Hard Drives

Hard-drives have a very large storage capacity (up to 1TB). They can be used to store vast amounts of data. Hard-drives are random access devices and can be used to store all types of films, including huge files such as movies. Data access speeds are very fast.

Data is stored inside a hard-drive on rotating metal or glass discs (called ‘platters’).

Fixed Hard Drive

A hard-drive built into the case of a computer is known as ‘fixed’. Almost every computer has a fixed hard-drive.

Fixed hard-drives act as the main backing storage device for almost all computers since they provide almost instant access to files ( random access and high access speeds ).

Portable Hard Drive

A portable hard-drive is one that is placed into a small case along with some electronics that allow the hard-drive to be accessed using a USB or similar connection.

Portable hard-drives allow very large amounts of data to be transported from computer to computer.

Many portable music players (such as the iPod classic) contain tiny hard-drives. These miniature devices are just not much bigger than a stamp, but can still store over 100MB of data!

Magnetic Tape

Magnetic tape is a large capacity , serial access medium. Because it is a serial access medium, accessing individual files on a tape is slow.

Tapes are used where large amounts of data need to be stored, but where quick access to individual files is not required. A typical use is for data back-up (lots of data, but rarely only accessed in an emergency)

Tapes are also used and in some batch-processing applications (e.g. to hold the list of data that will be processed).

Removeable Media Magnetic Discs

Floppy Disc

A removable , portable , cheap , low-capacity (1.44MB) storage medium. Floppy discs are random access devices used for transfer small amounts of data between computers, or to back-up small files, etc. Access times are slow.

Almost every PC used to have a floppy disc drive. These are obsolete now, having been replaced by higher capacity technology such as CD-ROMs, DVDs and USB memory sticks.

Zip Disc

A removable and portable storage medium, similar in appearance to a floppy disk, but with a much higher capacity (100MB, 250MB or 750MB).

Zip discs are random access devices which were used for data back-up or moving large files between computers.

Another obsolete storage device, zip discs were a popular replacement for floppy discs for a few years, but they never caught on fully before being superseded by cheaper media like CD-ROMs and CD-Rs

Jaz Disc

A removable and portable storage medium based on hard-drive technology, with a large capacity (1GB or 2GB).

Jaz discs are random access devices which were used for data back-up or moving large files between computers.

Discs were expensive to buy and not very reliable.

High Capacity Optical Discs

Blu-Ray

Blu-Ray disks are a recent replacement for DVDs. A Blu-Ray disc can hold 25 - 50GB of data (a dual-layer Blu-Ray disc can hold twice that). Blu-Ray discs are random-access devices.

Blu-Ray discs are used in the same way as DVD-ROMs (see above) but, since they can hold more data, they are also used to store very high-quality, high-definition (HD)video.

The 'Blu' part of Blu-Ray refers to the fact that the laser used to read the disc uses blue light instead of red light. Blue light

has a shorter wave-length than red light (used with CDs and DVDs).

Using a blue laser allows more data to be placed closer together on a Blu-Ray disc, than on a DVD or CD, so Blu-Ray has a

much higher storage capacity than these older discs.

HD DVD

High-density DVD (HD-DVD) discs can hold around 15GB of data (a dual-layer HD-DVD can hold twice that). HD-DVDs are random-access devices.

HD-DVD discs are used in the same way as DVD-ROMs (see above) but, since they can hold more data, they are also used to store very high-quality, high- definition (HD) video.

The HD-DVD format was launched at the same time as Blu-Ray. For about a year they competed to be the 'next DVD'. For

various reasons, Blu-Ray won the fight, and the HD-DVD format has been abandoned.

Recordable Optical Discs

Recordable optical discs can have data written onto them (‘ burnt ’) by a computer user using a special disc drive (a disc ‘ burner ’).

CD-R and DVD-R

CD-Recordable (CD-R) and DVD-recordable (DVD-R) discs can have data burnt onto them, but not erased. You can keep adding data until the disc is full , but you cannot remove any data or re-use a full disc.

CD-RW and DVD-RW

CD-ReWritable (CD-RW) and DVD-ReWritable (DVD-RW) discs, unlike CD-Rs and DVD-Rs, can have data burnt onto them and also erased so that the discs can be re-used.

When CD-Rs and DVD-Rs are burnt, the laser makes permanent marks on the

silver-coloured metal layer. This is why these discs cannot be erased.

When CD-RWs and DVD-RWs are burnt the laser makes marks on the metal layer, but in a way that can be undone. So

these discs can be erased.

DVD-RAM

DVD-Random Access Memory (DVD-RAM) discs are a type of re-writable DVD. They often come in a floppy-disc style case (to protect the disc). DVD-RAM discs have a similar capacity to a normal DVD, holding 4.7GB of data. DVD-RAM discs are random-access devices.

DVD-RAM discs are used in many camcorders (video recording cameras).

The discs are much higher quality than normal DVD-RWs and can reliably store data for up to 30 years. This means that they are often used for video and data back-up and archiving.

'Solid-State'?

The term ‘solid-state’ essentially means ‘no moving parts’.

Solid-state storage devices are based on electronic circuits with no moving parts (no reels of tape, no spinning discs, no laser beams, etc.)

Solid-state storage devices store data using a special type of memory called flash memory ...

Flash Memory

Flash memory is a type of Electronically-Erasable Programmable Read-Only Memory ( EEPROM ). Flash memory is non- volatile (like ROM) but the data stored in it can also be erased or changed (like RAM).

Flash memory can be found in many data storage devices...

You might wonder why, since flash memory is non-volatile, normal computers don’t use it instead of RAM. If they did we

would have computers that you could turn off, turn back on again and no data would be lost – it would be great!

The reason is speed – saving data to flash memory is very slow compared to saving it to RAM. If a computer were to use

flash memory as a replacement for RAM it would run very slowly.

However some portable computers are starting to use flash memory (in the form of solid-state ‘discs’ as a replacement

for hard-drives. No moving parts mean less to go wrong and longer battery life.

USB Memory Sticks

Memory sticks (or ‘thumb-drives’) have made many other forms of portable storage almost obsolete (why burn a CD or DVD when you can more easily copy your files onto a memory stick?).

Memory sticks are non-volatile , random-access storage devices.

Each of these small devices has some flash memory connected to a USB interface. Plug it into your computer and it appears as a drive. You can then add files, erase files, etc. You can use it to move any type of file between computers.

Why Backup Your Data?

If you delete a file by accident, your computer

breaks, your laptop is stolen, or your business

burns to the ground, having a backup copy

means that you have not lost your precious

data. You can recover your lost files and

continue working.

Most businesses use computers to store very important data (customer records, financial information, designs for

products, etc.) If this data is lost, the business could possibly have to close. Backing-up business data is essential.

How Are Backups Created?

Personal backups of the data on your hard-drive can be made by…

 Burning files to a CD-R

 Copying files to an external hard-drive

 Copying the files to another computer on a network

Businesses backup essential data by…

 Making copies of data very regularly

 Using large-capacity media such as magnetic tape

 Keeping old copies of backups, just in case

 Automating the system so that nobody forgets to do it!

 Keeping backup media off-site (in case of fire or theft)