running Mandelbrot set visualizations in different ways on many different hardware platforms. This particular one is based on an STM32 board called the Blue Pill, which [Thanassis] chose because ...

When faced with an FPGA, some people might use it to visualize the Mandelbrot set. Others might use it to make CPUs. But what happens if you combine the two? [Michael Kohn] shows us what happens ...

The image of the Mandelbrot set is one of the most recognizable representations of a fractal. But what's behind the entrancing picture? In this interactive, learn a bit about how we generated our ...

And like the endlessly self-similar Mandelbrot set (at left) -- the iconic fractal, named in his honor -- the end of its applicability is nowhere in sight.

Especially the fractals of the mathematician Benoit Mandelbrot, whose Mandelbrot set was included in the After ... Who wouldn't want to go work for Big Blue after seeing Mandelbrot's émigré ...

The Mandelbrot set is possibly the most reproduced mathematical entity of all time, on account of how with a bit of image processing, you can make extremely pretty and interesting pictures with it.

For example, you might use blue if the series never exceeds 4, red if it gets there after 1-5 iterations, black if it takes 6-9 iterations, and so on. The Mandelbrot set is actually more ...

Fractals have become a common sight, thanks to computer imagery In 1975, a new word came into use, when a maverick mathematician made an important discovery. So what are fractals? And why are they ...