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Description
This is the very throne in the previoous . However with another coloring the throne has been a snow kangaroo

Software: Ultra Fractal.
Formula: Heptic parameterspace in the sp3-module written by my dear friend Greenseng here at DeviantART. All his modules, as well as mine can be downloaded from here.

*a_real = #pixel (horizontal before being rotated 90 degrees counter clockwise)
*a_imag = #pixel (vertical before being rotated 90 degrees counter clockwise)
*b_real = 0.91
*b_imag = 0
*c_real = -1
*c_imag = 0
*d_real = 1
*d_imag = 0
*e_real = 0
*e_imag = 0
*f_real = 0
*f_imag = 0
The fractal borders belong to the different fractals subsets.

Heptic parameter space is 12-dimensional You can read more about it in my journal,

And now also Heptics is released

Note: Although displaying more than 1 fractal set, this is a 1-layer image using the technique of SetBorders

Below the parameter file, play and have fun

SnowKangaroo {
fractal:
title="Snow Kangaroo" width=800 height=600 layers=1
credits="Ingvar Kullberg;4/13/2015"
layer:
caption="HCL+SetBorders" opacity=100 method=multipass
mapping:
center=0.697746159935/0 magn=28.044138 angle=-90
formula:
maxiter=1000 percheck=off filename="sp3.ufm"
entry="HepticParameterspace3" p_PlottedPlane="1.(a-real,a-imag)"
p_M=HCL p_SetBorders=yes p_hide=yes p_areal=0.0 p_aimag=0.0
p_breal=0.91 p_bimag=0.0 p_creal=-1 p_cimag=0.0 p_dreal=1
p_dimag=0.0 p_ereal=0.0 p_eimag=0.0 p_freal=0.0 p_fimag=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_xrotr=0.0 p_yrotr=0.0
p_xrots=0.0 p_yrots=0.0 p_xrota=0.0 p_yrota=0.0 p_xrotb=0.0
p_yrotb=0.0 p_xrotc=0.0 p_yrotc=0.0 p_xrotd=0.0 p_yrotd=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=1.0 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=7.0 p_reversed=no p_test=no p_testvalue=0.7 p_index4=0.29
gradient:
smooth=yes rotation=-200 index=-191 color=2104360 index=-160
color=15794175 index=-148 color=1907744 index=-93 color=16769274
index=-13 color=2445567
opacity:
smooth=no index=0 opacity=255
}

Description
This is the very throne in the previoous . However with another coloring the throne has been a snow kangaroo

Software: Ultra Fractal.
Formula: Heptic parameterspace in the sp3-module written by my dear friend Greenseng here at DeviantART. All his modules, as well as mine can be downloaded from here.

*a_real = #pixel (horizontal before being rotated 90 degrees counter clockwise)
*a_imag = #pixel (vertical before being rotated 90 degrees counter clockwise)
*b_real = 0.91
*b_imag = 0
*c_real = -1
*c_imag = 0
*d_real = 1
*d_imag = 0
*e_real = 0
*e_imag = 0
*f_real = 0
*f_imag = 0
The fractal borders belong to the different fractals subsets.

Heptic parameter space is 12-dimensional You can read more about it in my journal,

And now also Heptics is released

Note: Although displaying more than 1 fractal set, this is a 1-layer image using the technique of SetBorders

Below the parameter file, play and have fun

SnowKangaroo {
fractal:
title="Snow Kangaroo" width=800 height=600 layers=1
credits="Ingvar Kullberg;4/13/2015"
layer:
caption="HCL+SetBorders" opacity=100 method=multipass
mapping:
center=0.697746159935/0 magn=28.044138 angle=-90
formula:
maxiter=1000 percheck=off filename="sp3.ufm"
entry="HepticParameterspace3" p_PlottedPlane="1.(a-real,a-imag)"
p_M=HCL p_SetBorders=yes p_hide=yes p_areal=0.0 p_aimag=0.0
p_breal=0.91 p_bimag=0.0 p_creal=-1 p_cimag=0.0 p_dreal=1
p_dimag=0.0 p_ereal=0.0 p_eimag=0.0 p_freal=0.0 p_fimag=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_xrotr=0.0 p_yrotr=0.0
p_xrots=0.0 p_yrots=0.0 p_xrota=0.0 p_yrota=0.0 p_xrotb=0.0
p_yrotb=0.0 p_xrotc=0.0 p_yrotc=0.0 p_xrotd=0.0 p_yrotd=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=1.0 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=7.0 p_reversed=no p_test=no p_testvalue=0.7 p_index4=0.29
gradient:
smooth=yes rotation=-200 index=-191 color=2104360 index=-160
color=15794175 index=-148 color=1907744 index=-93 color=16769274
index=-13 color=2445567
opacity:
smooth=no index=0 opacity=255
}