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Description
This is the very same motive as the previous , but with a slight adjustmant of the color map, which is is the same motive as the old scrap which was posted for mere illustration but with the coloring method Continuous Potential Method(CPM)
instead of the ordinary Level Set Method(LSM). Also this, although displaying many subsets, is a 1-layer image using the technique of SetBorders,

Regarding the mix of structures of the ordinay Quadratic Mandelbrot set and the Cubic Mandelbrot set,
see 31) More about Quartics

Quartic Parameter Space. See my journal Quartics Revisited.

Ultra Fractal 6

Below the parameter file. Play and have fun

ShiningConfusion {
fractal:
title="Shining Confusion" width=800 height=600 layers=1
credits="Ingvar Kullberg;5/3/2018"
layer:
caption="QCL+SetBorders" opacity=100 method=multipass
mapping:
center=0.25/0 magn=1.5
formula:
maxiter=5000 filename="sp3.ufm" entry="QuarticParameterspace3"
p_PlottedPlane="15.(c-real,c-imag)" p_M=QCL p_SetBorders=yes
p_hide=yes p_areal=0.5 p_aimag=0.0 p_breal=0.5 p_bimag=0.0
p_creal=0.0 p_cimag=0.0 p_xrot=0.0 p_yrot=0.0 p_xrott=0.0
p_yrott=0.0 p_xrotu=0.0 p_yrotu=0.0 p_xrotv=0.0 p_yrotv=0.0
p_zrot=0.0 p_LocalRot=no p_diff=no p_bailout=100.0 p_dbailout=1E-6
inside:
transfer=none
outside:
transfer=linear filename="spr.ucl" entry="ContinousPotential"
p_auto=yes p_auton=2.0 p_n=5.0 p_numfact=5.0 p_scale=1.0 p_smooth=no
p_epsilon=0.5 p_illustr=no p_limiton=no p_limit=0.1 p_index3=0.0
p_index1=0.99 p_index2=0.0 p_speed=0.5 p_acc=1.0 p_clog=yes
p_power=4.0 p_reversed=no p_test=no p_testvalue=0.7 p_index4=0.29
gradient:
smooth=yes rotation=88 index=412 color=16711663 index=437
color=38143 index=444 color=3474452 index=50 color=11665408
index=275 color=13331226
opacity:
smooth=no index=0 opacity=255
}

Description
This is the very same motive as the previous , but with a slight adjustmant of the color map, which is is the same motive as the old scrap which was posted for mere illustration but with the coloring method Continuous Potential Method(CPM)
instead of the ordinary Level Set Method(LSM). Also this, although displaying many subsets, is a 1-layer image using the technique of SetBorders,

Regarding the mix of structures of the ordinay Quadratic Mandelbrot set and the Cubic Mandelbrot set,
see 31) More about Quartics

Quartic Parameter Space. See my journal Quartics Revisited.

Ultra Fractal 6

Below the parameter file. Play and have fun

ShiningConfusion {
fractal:
title="Shining Confusion" width=800 height=600 layers=1
credits="Ingvar Kullberg;5/3/2018"
layer:
caption="QCL+SetBorders" opacity=100 method=multipass
mapping:
center=0.25/0 magn=1.5
formula:
maxiter=5000 filename="sp3.ufm" entry="QuarticParameterspace3"
p_PlottedPlane="15.(c-real,c-imag)" p_M=QCL p_SetBorders=yes
p_hide=yes p_areal=0.5 p_aimag=0.0 p_breal=0.5 p_bimag=0.0
p_creal=0.0 p_cimag=0.0 p_xrot=0.0 p_yrot=0.0 p_xrott=0.0
p_yrott=0.0 p_xrotu=0.0 p_yrotu=0.0 p_xrotv=0.0 p_yrotv=0.0
p_zrot=0.0 p_LocalRot=no p_diff=no p_bailout=100.0 p_dbailout=1E-6
inside:
transfer=none
outside:
transfer=linear filename="spr.ucl" entry="ContinousPotential"
p_auto=yes p_auton=2.0 p_n=5.0 p_numfact=5.0 p_scale=1.0 p_smooth=no
p_epsilon=0.5 p_illustr=no p_limiton=no p_limit=0.1 p_index3=0.0
p_index1=0.99 p_index2=0.0 p_speed=0.5 p_acc=1.0 p_clog=yes
p_power=4.0 p_reversed=no p_test=no p_testvalue=0.7 p_index4=0.29
gradient:
smooth=yes rotation=88 index=412 color=16711663 index=437
color=38143 index=444 color=3474452 index=50 color=11665408
index=275 color=13331226
opacity:
smooth=no index=0 opacity=255
}