1.9 KiB
= Introduction =
Calculating Mandelbrot using different ways. It tries to imitate the Mandelbrot calculation by Zom-B but be faster in doing so.
This project started by trying to reproduce this zoom sequence but in higher resolution:
https://en.wikipedia.org/wiki/File:Mandelbrot_sequence_new.gif
The generator used for this version is available here:
https://github.com/josch/mandelbrot_zomb
= Overview =
mandel: straight forward "long double" based mandelbrot this is obviously the fastest implementation but has limited precision mandel_mpfr: mandelbrot using the arbitrary precision mpfr library mandel_quad: mandelbrot using gcc libquad mandel_dd: mandelbrot using custom double double math this is the fastest implementation given double double precision mandel_dd_aa: with antialiasing it is more than three times faster than the Zom-B version (see below)
= How to compile =
Compile by running make.
= How to execute =
Each of the tools takes as arguments the width, height, coordinates and magnification. Output is in PPM format on standard output.
$ ./mandel_dd_aa 1920 1080 0.0 0.0 1.0 > out.ppm
You can compress the ppm by using:
$ convert out.ppm -format png out.png
And even compress it further by doing:
$ optipng -o4 -i0 out.png
$ advpng -z4 out.png
= How to generate zoom animation =
The shell script (with a small python helper) run.sh will generate and execute a list of commands to create a zooming sequence of images.
You can create a video of the resulting sequence using:
$ avconv -i %05d.png out.mp4
= Benchmark =
Benchmark against mandelbrot computation by Zom-B:
at zoom coordinates: x = -0.743643887037158704752191506114774 y = 0.131825904205311970493132056385139
1 to 1e32 in 100 steps at 320x240 and no AA took mandel_dd 1:28 h mandel_zomb 2:45 h
1.0e17 at 1920x1080 with 5xAA took mandel_dd_aa 2:38 h mandel_zomb 8:40 h