Peripherals
Featured Articles:
Buying Guide to Graphics Cards
by: Andrew Gates
The graphics card is a vital performance component of your computer,
particularly if you play 3D games, or work with graphics and video
content. The graphics card sits in an expansion card slot in your PC
and it is specifically designed to process image data and output it
to your monitor, enabling you to see it. A graphics card works by
calculating how images appear, particularly 3D images, and renders
them to the screen. 3D images and video images take a lot of
processing capacity, and many graphics processors are complex,
require fans to cool them and need direct power supply. The graphics
card consists of a graphics processor, a memory chip for graphics
operations, and a RAMDAC for display output. It may also include
video capture, TV output and SLI and other functions. You can find
the graphics card that suits you by comparing specification between
brands and vendors on Myshopping.com.au
At Myshopping.com.au you can compare a great range of appliances,
and assess them according to their specifications, brands, prices
and vendors.
Graphics Cards
What are your needs?
The first decision you need to make is whether you need a graphics
card for handling 3D images or whether you are simply requiring 2D
image rendering. For 2D requirements, you need only a low-cost
solution. In many cases, an integrated graphics solution will
suffice for 2D applications.
However with 3D graphics, the performance of the graphics card will
impact directly on the frame rate and image quality of 3D programs
and games. The differences between the low and high-end cards can be
substantial, both in cost and performance.
Rendering 3D graphics is like lighting a stage, both the geometry of
the shapes in question and the lighting of it need to be taken into
account. The geometry of an image calculates the parts of an object
that can and can't be seen, the position of the eye and its
perspective. The lighting is a calculation of the direction of the
light sources, their intensities and the respective shadows that
occur. The second part to presenting a 3D image is the rendering of
colours and textures to the surfaces of the objects, and modifying
them according to light and other factors.
Most modern graphics cards include a small microchip called the
Graphics Processing Unit (GPU), which are provide the algorithms and
memory to process complex images. They reduce the workload of the
main CPU, and provide faster processing. Different graphics cards
have different capabilities in terms of processing power. They can
render and refresh images up to 60 or more times per second,
calculate shadows quickly, create image depth by rendering distant
objects at low resolution, modify surface textures fluidly and
eliminate pixelation.
What Specifications to Consider
Processor clock speed
This impacts on the rendering capability of the GRU. The clock speed
itself is not the critical factor. Rather it is the per-clock
performance of the graphics processor, which is indicated by the
number of pixels it can process per clock cycle.
Memory size
This is the memory capacity that is used exclusively for graphics
operations, and can be as much as 512MB. The more demanding your
graphics applications are, the better you will be served with more
memory on your graphics card.
16-32M
64M
128M
256M
512M
640M and more
Memory bandwidth
One thing that can slow down 3D graphics performance is the speed at
which the computer delivers information to the graphics processor. A
higher bandwidth means a faster data transfer, resulting in faster
rendering speeds.
Shader model
DirectX Shader Models allows developers control over the appearance
of an image as it is rendered on screen, introducing visual effects
like multi-layered shadows, reflection and fog.
Fill rate
This is the speed at an image can be rendered or "painted". This
rate is specified in texels per second, the number of 3D pixels that
can be painted per second. A texel is a pixel with depth (3D). The
fill rate comes from the combined performance of the clock speed of
the processor and the number of pixels it can process per clock
cycle, and will tell you how quickly an image can be fully rendered
on screen.
Vertices/triangles
Graphics chips don't work on curves, rather they process flat
surfaces. A curve is created by multiple flat planes arranged to
look like a curve. 3D objects are created with multiple triangular
surfaces, sometimes hundreds or even thousands, tessellated to
represent the curves and angles of the real world. 3D artists are
concerned with the number of polygons required to form a shape.
There are two different types of specification: vertices per second
(I.e., angles the triangles), and triangles per second. To compare
one measure with the other, you have to take into account the fact
that adjacent triangles share vertices.
Anti-aliasing
A technique used to smooth images by reducing the jagged stepping
effect caused by diagonal lines and square pixels. Different levels
of anti-aliasing have different effects on performance.
RAMDAC
The Random Access Memory Digital to Analogue Converter takes the
image data and converts it to a format that your screen can use. A
faster RAMDAC means that the graphics card can support higher output
resolutions. Some cards have multiple RAMDACs allowing that card to
support multiple displays.
TV-out
Some graphics cards provide the option to connect a television via
either a composite (RCA) or S-Video connector. TV Out
S-video Out
S-video In and S-video Out (VIVO)
YPbPr Connection for HDTV
DVI
Some graphics cards include a connector for DVI monitors, handy
because a lot of LCD screens support DVI. DVI offers better image
quality than the standard VGA connector.
Dual-head
Dual-head is a term used when two monitors are used side by side,
stretching your desktop across both.
SLI (Scalable Link Interface.)
With SLI you can couple two graphics cards in your computer,
enabling each card to take half the rendering thereby doubling the
performance.
When considering your graphics card, it pays to think about how much
you need your computer to process your graphics output. Using a high
end graphics card with a high pixels per clock rating, large memory,
fast processor and other features means that you can run the latest
games efficiently, or work in intensive graphics development.
Different Models
While there are many vendors of graphics cards, there are actually
only two major manufacturers of chips for graphics cards. Nearly
every graphics card on the market features a chip manufactured by
either ATI or Nvidia. Cards using the same graphics chip will
perform roughly the same as each other. However, even though they
use the same chip, some feature slightly higher clock speeds, as
well as manufacturer guaranteed overclocking-an even higher clock
speed than that specified. Other factors that will influence your
decision should include the amount of memory a card has (128MB,
256MB, 512MB) and its additional features, such as TV-Out and
dual-screen support.
Use the search facilities at Myshopping.com.au to compare the
features, prices and vendors of graphics cards.
About The Author
Andrew Gates is a writer for comparison online shopping service -
http://www.myshopping.com.au , MyShopping.com.au helps you compare
video cards - http://www.myshopping.com.au/PT--72_Graphics_Cards and
buy online from top-rated online stores. You can also read graphics
cards reviews - http://www.myshopping.com.au/PT--72_Graphics_Cards
and specifications.