Guide to Buying Hard Drives
Apart from being one of the most essential parts of
your computer, hard drive storage is constantly updating, in terms of both
capacity of disk space and in physical size. When it comes time to upgrade
your disk storage, there are a number of factors for you to take into account.
Once you've made basic decisions about size, connectivity, speed and data
transfer rate, and whether you want an internal drive or external, you can
search through Myshopping.com.au to find the most suitable brand, and model,
and compare the prices of different vendors.
How A Hard Drive Works
Your hard drive has a number of magnetized platters
connected to a spindle. The spindle spins the platters at a very fast speed
while a series of read/write heads scan over them both looking for and writing
information. This information is transferred via a cable system, or through a
wireless connection to a hard disk controller, which in most systems is built
into the motherboard, or in some systems installed as an add-in card. The
information that comes from your hard drive through its controller is then
made available to the components of your computer. The effectiveness of your
hard drive (its performance) depends on how much of its capacity remains
unused, how well organised the data is (known as fragmentation) and its data
transfer rate, which in turn is dependent on its connection type and the
drive's spin rate.
Internal Hard Drives
Most computers from, the most basic home models up to
the most powerful servers, have an internally installed hard drive. Technology
today ensures that they are all generally fast, reliable, and offer dependable
storage ability. Most modern computers have installation slots and cabling to
enable you to install additional hard drive. This allows you to increase your
storage capacity without giving up your existing hard drive.
Internal Hard Drives
External Hard Drives
These drives are essentially the same drives as ones
installed inside computers, but cased inside a protective, portable case. This
is a good solution for people who work remotely and need to transport large
amounts of data. If an external hard drive is your choice, make sure your
computer is compatible with the interface that the hard drive uses. An add-in
card, such as a FireWire card can help to increase your computer's
capabilities. You can compare different brands of external hard drives simply
at Myshopping.com.au and search on the connection type, or other
specifications.
External Hard drives
Laptop Hard Drives
There have been many advances in miniaturization of
hardware components for laptop computing, and hard drive technology is not
left out of this loop. Laptop hard drives function in exactly the same way as
internal hard drives on other computers, only they are designed to provide
maximum storage and efficiency in the smallest possible package. For added
flexibility, some laptop computers come with removable hard drives that can be
easily installed and removed. However, before you buy a hard drive for your
portable computer, check that the hard drive's specifications will meet the
standards of your computer, as many laptop hard drives are proprietary, and
are not compatible with other brands and models.
Laptop Hard Drives
Size
Your hard drive stores your operating system, its
programs (games and applications), your working data, and your digital music
and movies. Most new computer purchases have a minimum of 80 GB of hard disk
space; many have considerably more. Hard drive space is one of those things,
once you have it, you'll find ways to fill it soon enough. There is no real
rule of thumb, but consider the cost per gigabyte of storage as a way to guide
your purchase. If you work with large files, such as music, video and
graphics, it pays to have a big storage space for your work. It may pay you to
have two hard drives, one that houses all your programs and applications, and
another for storing your work and projects.
You may want to compare the price of say a 160GB drive
against two separate 80 GB drives. If one drive fails all is not lost. Today's
hard drives however, are fairly robust pieces of equipment and providing they
are not abuse, will serve you well for a long period of time.
Interface
One key distinguishing factor between hard drives is
the way in which they connect to your computer. There are a number of basic
types of connection schemes used with hard drives. Each connection type has a
range of differences in performance.
IDE (INTEGRATED DRIVE ELECTRONICS)
This is by the most common connection methods. Because
the hard drive controller is on the drive itself rather than on the
motherboard, it helps to keep costs down. There different IDE standards
available. Mostly, you will want to purchase the fastest possible standard
that your computer can support. Most computers will support a standard that is
faster than what the computer currently supports, so you can buy a faster
drive, and update your computer at a later time. The different IDE standards,
in order from most basic to fastest, are:
-
ATA (Basic).
Supports up to two hard drives and features a 16-bit interface, handling
transfer speeds up to 8.3 MB per second.
-
ATA-2 or EIDE (Enhanced IDE).
Supports transfer speeds up to 13.3 MB per second.
-
ATA-3. A minor
upgrade to ATA-2 and offers transfer speeds up to 16.6 MB per second.
-
Ultra-ATA (Ultra-DMA, ATA-33 or DMA-33).
Dramatic speed improvements, with transfer rates up to 33 MB per second.
-
ATA-66. A
version of ATA that doubles transfer rates up to 66 MB per second.
-
ATA-100. An
upgrade to the ATA standard supporting transfer rates up to 100 MB per second.
-
ATA-133. Found
mostly in AMD-based systems (not supported by Intel), with transfer rates up
to 133 MB per second.
SCSI (SMALL COMPUTER SYSTEM INTERFACE)
This is the hard drive interface standard used by many
high-end PCs, networks and servers, and Apple Macintosh computers, except for
the earliest Macs and the newer iMacs. While some systems support SCSI
controllers on their motherboards, most feature a SCSI controller add-in card.
SCSI drives are usually faster and more reliable, and the SCSI interface
supports the connection of many more drives than IDE. While SCSI drives come
in many different standards, many of them are not compatible with one another.
So it's important be know that your computer supports the drive you plan to
install. The different SCSI connections are:
-
SCSI-1. A basic
connection using a 25-pin connector, supporting transfer rates up to 4 MB per
second.
-
SCSI-2. Uses a
50-pin connector and supports multiple devices with a transfer rate of 4MB per
second.
-
Wide SCSI. These
drives have a wider cable and a 68-pin connection that supports 16-bit data
transfers.
-
Fast SCSI. Uses
an 8-bit bus but transfers data at 10 MB Per second.
-
Fast Wide SCSI.
Doubles both the bus (16-bit) and the data transfer rate (20 MB per second).
-
Ultra SCSI or Ultra Wide SCSI.
Uses an 8-bit bus and transfers data at 20 MB per second.
-
SCSI-3. Features
a 16-bit bus and transfers data at 40 MB per second.
-
Ultra2 SCSI.
Uses an 8-bit bus and transfer data at a rate of 40 MB per second.
-
Wide Ultra2 SCSI.
Uses a 16-bit bus and supports data transfer rates of 80 MB per second.
FIREWIRE (IEEE 1394)
The FireWire standard is becoming popular in portable
hard drives because it can be connected and removed without having to reboot
the computer. It supports data transfer rates of 50 MB per second, which means
it is ideal for video, audio and multimedia applications. FireWire requires a
dedicated add-in card and the hard drives in use require an external power
source, but the interface can support up to 63 devices simultaneously.
USB 1.1 (UNIVERSAL SERIAL BUS)
Pretty much all computers today include USB ports on
their motherboards. (On older model, you can install an add-in card.) USB
controllers can be used to connect external hard drives, and can support as
many as 127 devices simultaneously either through USB port hubs or linked in a
daisy chain fashion. USB controllers do delivery power to devices connected to
them, but many hard drives still use an external power source. USB is limited
by its data transfer speed, the maximum rate being about at 1.5 MB per second.
USB 2.0 (HI-SPEED USB)
A more recently introduced and far better connection
standard that offers backward compatibility and data transfer rates of up to
60 MB per second. USB 1.1 system can use a USB 2.0 device; it will need a USB
2.0 controller card to achieve the higher transfer rates.
FIBRE CHANNEL
Fibre Cabling is mainly used for high-bandwidth
network servers and workstations, providing very fast data transfer rates (up
to 106MB per second), and connection at long cabled distances, although it is
expensive and you need to install a special interface card.
Spin rate
Data transfer rate is crucial to how well your
computer performs for you. Apart from the connection types above, the
performance of your hard drive depends on its spin rate, measured in RPM.
Higher RPM generally means faster data transfer rate. The lowest spin speed
that is acceptable in computing today is 5400 RPM. The common standard at
present is 7200 RPM. But higher speeds are available in SCSI drives, and it is
one area of computer system technology that is constantly being developed.
A larger capacity hard drive will not necessarily make
your system function any faster unless you are low on available disk space
with your existing drive. But a drive with Ultra ATA/100 or ATA/133 and a 7200
RPM spin rate will pretty much guarantee an improved hard drive performance.
Other considerations
CACHE
Cache (pronounces 'cash') is additional temporary
memory that acts as a buffer between the system and the drive. Frequently
accessed data is stored in the cache for quick access. Cache sizes vary from
512 KB up to 16 MB on some SCSI drives. The larger cache you have on your
drive, the faster your drive will transfer data. If you are working with large
files, such as video, images and audio files, it pays to have the largest
cache you can get (8MB or more).
SEEK TIME
The data on your disk is stored in tracks and sectors
and when you instruct your hard drive controller to retrieve some data, it
goes looking. The seek time is a measure of how long it takes the hard drive
to find a specific track on a disk. Seek times can vary slightly from disk to
disk and a drive with a faster seek time will always perform better.
INTERNAL AND EXTERNAL TRANSFER RATES
These two rates tell how fast a drive actually reads
the data and passes it along to the system. Internal Transfer Rate refers to
the time it takes for a drives heads to read data from the platter and pass it
to the drive's cache. The External Transfer Rate (sometimes called the
Transfer Rate or the Burst Transfer Rate) is a measure of the time it takes to
send the data from the cache all the way to the computer's memory. Naturally
faster transfer rates provide better performance.
S.M.A.R.T. (Self-Monitoring Analysis and Reporting
Technology)
This is a nice built-in feature in some hard drives
that can help alert you to a potential hardware problem. Your computer's BIOS
must support this in order for the SMART function it to work, however the
drive itself will still work in a system without it.
Buying and installing a hard drive has some technical
aspects that you need to take into account. Use Myshopping.com.au to compare
different hard drive makes and specifications to find the drive that will work
best for your needs and computer. You can compare prices and service offers
from different vendors.
Andrew Gates for comparison
online shopping service MyShopping.com.au. MyShopping.com.au helps you
compare the different hard
drives from different brands in terms of specifications and accessories.
You can also compare prices from hundreds of different brands and vendors
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