Super Visual Graphics Array (SVGA) or “Super VGA” is an umbrella term for a wide array of graphic standards that followed the VGA standard set by IBM in 1987. When used to define a resolution, however, as in the expression SVGA mode, it typically refers to 800 x 600 pixels.

While IBM established the earlier standards that included Color Graphics Adapter (CGA) and Enhanced Graphics Adapter (EGA), by the time the industry was ready for the successor to VGA, various manufacturers were mass-producing IBM clones. NEC Home Electronics and a handful of other graphics card manufacturers formed the Video Electronics Standards Association (VESA) to develop new standards for cross-compatible graphics display adapters. The result was SVGA, released in 1989.

VESA developed a family of hardware protocols to support SVGA. Perhaps most notable was the VESA Local Bus (VLB), a faster video bus that preceded the Accelerated Graphics Port, better known as AGP. VESA technology is now legacy and the AGP port has been replaced by Peripheral Component Interconnect Express (PCI Express), also referred to as PCIe.

Soon after SVGA was defined, a higher standard followed supporting a resolution of 1024 x 768 with 8-bit pixels, versus the 4-bit pixels of original SVGA. Four-bits to each pixel meant the pixel could support one of 16 colors, referred to as 16-bit color. The 1024 x 768 flavor of SVGA could support 32 colors, or 32-bit color. This advancement continued quickly until defining the number of colors became unnecessary. The SVGA graphics card interface allowed any VGA or SVGA monitor to use voltage to effect color depth, theoretically displaying an infinite amount of colors.

While there are many standards that have followed, all standards since 1990 fall under the general heading of SVGA. This includes IMBs eXtended Graphics Array (XGA), Super XGA (SXGA), SXGA+, Ultra XGA (UXGA) and Quad XGA (QXGA). What differentiates these is successively higher resolutions.

When a “W” appears in front of a standard, such as “WXGA,” it refers to the wide-screen version of that standard. W-standards are designed for monitors with a movie-screen-like 16:9 aspect ratio, versus the standard “square” 4:3 aspect ratio of conventional monitors.

All SVGA monitors support the original SVGA standard and higher resolutions as well. LCD monitors look best at a single, native resolution specific to the model, so graphics cards and LCDs should be mated accordingly. Cathode ray tube (CRT) monitors can nicely support an array of resolutions.