Plasma effect


The plasma effect is a computer-based visual effect animated in real-time. It uses cycles of changing colours warped in various ways to give an illusion of liquid, organic movement.
Plasma was the name of a VGA graphics demo created by Bret Mulvey in 1988 and released on CompuServe. It used a diamond-square algorithm to generate a 2D pattern, and then cycled the colors using VGA's hardware palette in its 256-color mode.
Plasma was picked up by demo coders for their demos where the effect was heavily used, especially in the early 1990s. The effect was particularly common on the Commodore Amiga where it could be implemented very efficiently with its display hardware features. Plasma can also be implemented easily in software rendering by using sinus tables and pseudocolor palettes, and it has also been the first true demo effect for many beginning PC democoders.
The fractal software Fractint also incorporates an algorithm known as "plasma", which, when combined with the color cycling feature of the software, can provide a result which resembles a typical plasma effect used in demos. The technical basis, however, is completely different, and a color cycling plasma is somewhat less dynamic than a demo plasma.
Similar effects are easily implement on modern GPUs in pixel shaders.

Synopsis

As there are many "hacked" approaches for implementing a plasma effect, this outline of an algorithm will just describe the theoretical basis for the effect. In order to achieve a sufficiently fast and good-looking real-time implementation, one would often do "non-correct" approximations to this algorithm. This, however, can often be done without noticeable visual differences.
This algorithm is given in two dimensions, but could easily be adopted to any number of dimensions or any number of color channels.
Let be a multi-frequency noise function of two variables. Let each color component at the pixel be a linear function of the expression. Increasing the value of the constant tends to increase the steepness of the color gradients in the image.