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A 3D graphics card can be an expansion card or integrated microchip that provides extra processing power and memory for rendering 3D graphics. It includes a GPU, graphics RAM, and sometimes an FPU and cooling system. The card improves speed, efficiency, and image quality by allowing the GPU to handle most calculations while freeing up the CPU. The physical design of the card allows for fast access to graphics RAM, making calculations and memory copies efficient.
A three-dimensional (3D) graphics card is a piece of computer hardware that can be an actual expansion card inserted into a computer or an integrated microchip built into the motherboard of a computer or other electronic device. Either way, the purpose of a 3D graphics card is to provide extra processing power and sometimes memory that can be devoted solely to rendering 3D graphics on a monitor or other display device. The different components of a 3D graphics card include the graphics processing unit (GPU), graphics random access memory (RAM), sometimes a separate floating-point math unit (FPU), and, if the card requires it, a fan or heat sink to dissipate the heat generated during operation. When a 3D graphics card is installed in a computer or other device, the gains in speed and efficiency are not always automatic, because the software must specifically interface with the card to obtain the benefits it provides, although some operating systems are designed to use a 3D graphics card by default, if any.
There are many applications that use 3D graphics extensively, requiring a huge amount of calculations to be done in fractions of a second. Using a 3D graphics card, these calculations can be done by the GPU alongside the graphics RAM in ways optimized by manufacturers to be as fast as possible. The graphics card does most of the calculations, so the central processing unit (CPU) on the computer’s main motherboard is free to concurrently process other information as required by the application.
Aside from increasing the speed of 3D applications, a 3D graphics card can also increase the quality of the images that are rendered through it. This is possible because a user can change settings on the hardware through the graphics card’s basic input and output services (BIOS) to allow the card to ignore certain software instructions and perform image enhancements on its own. Most often, this can take the form of anti-aliasing which partially hides jagged pixels in an image and advanced handling of scene geometry and lighting to provide better results than relying on application instructions alone.
The physical appearance of a 3D graphics card is just one of the many reasons it can render 3D graphics so quickly. The GPU is on the same card as the graphics RAM, so the physical path between the memory and the processor is incredibly small and it doesn’t need to pass through other components, as is the case with main system RAM and the CPU. This means that the information contained in the graphics RAM can be accessed at very high speeds, making calculations and memory copies remarkably fast and efficient.
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