A projection into 3D space of the 120-cell, a 4D regular polytope, with its 120 inscribed 5-cells. It looks like a maze of pentagons with a very complex pattern of stars at the center. The colours are blues and yellows and lilacs on a grey background
There are three images, all of them showing a deep zoomed Mandelbrot set, colored using a rainbow color gradient. The top image is least zoomed, the bottom the most zoomed. The three images are connected by triangles, which illustrates the size relation of the rendered fractal by showing that the next image can be found in the previous.
Previsualization of an orchestra arrangement for a church concert, early 2000s. This job had a super-tight deadline, so I kept it very stylized, and used a non-realistic renderer to speed up the process.
A while back I showed¹ the heatmap of the distance to bézier using the Aberth–Ehrlich algorithm.
In the past days, I changed the algo to a simpler and faster algorithm² and I wanted to check the heatmap again. It's way less interesting but I thought it was worth sharing.
I just made a heatmap to visualize the number of iterations required for the quintic polynomial root solving algorithm to converge to the roots (not Newton, but something in that spirit).