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Description
Download for 1280x960 resolution

A 2D slice of the 12-dimensional heptic parameter space .

Below the plotted axis’ and the glidings along the other axis’,

*a_real = #pixel (horizontal)
*a_imag = 1.23325520828
*b_real = 0
*b_imag = 0
*c_real = 0
*c_imag = 0
*d_real = 0
*d_imag = 0
*e_real = 0
*e_imag = 0
*f_real = 0.5
*f_imag = #pixel (vertical)

The contours drawn with respect to the sets present in this section is in one layer using the technique of SetBorders developed and programmed of the formula writer Stig Pettersson. All 6 sets are there but they (almost) nowhere coalesce. For that reason there is almost nothing that belongs to Heptic Connectedness Locus (HCL), that would be colored black. The sets M2, M3, M4, and M5 completely coalesce forming structures of the Pentic Mandelbrot set.

Ultra Fractal, formula Heptic Parameterspace3 in the sp3-module written by my dear friend Stig Pettersson, Greenseng here at DeviantART. All his modules, as well as mine can be downloaded from [link]

Below the parameter file, play and have fun

HepticRotationPlay7 {
fractal:
title="HepticRotationPlay7" width=640 height=480 layers=1
credits="Ingvar Kullberg;8/30/2010"
layer:
caption="HCL+SetBorders" opacity=100 method=multipass
mapping:
center=0/0 magn=0.38
formula:
maxiter=1000 filename="sp3.ufm" entry="HepticParameterspace3"
p_PlottedPlane="11.(a-real,f-imag)" p_M=HCL p_SetBorders=yes
p_hide=yes p_areal=0.0 p_aimag=1.23325520828 p_breal=0.0 p_bimag=0.0
p_creal=0.0 p_cimag=0.0 p_dreal=0.0 p_dimag=0.0 p_ereal=0.0
p_eimag=0.0 p_freal=0.5 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:
density=0.5 transfer=arctan filename="spr.ucl"
entry="ContinousPotential" p_auto=yes p_auton=2.0 p_n=1.0
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=2.0 p_reversed=no p_test=no
p_testvalue=0.7 p_index4=0.29
gradient:
smooth=yes rotation=112 index=75 color=15728383 index=94
color=14210756 index=141 color=10420223 index=255 color=2431743
index=-6 color=4653056
opacity:
smooth=no index=0 opacity=255
}

Description
Download for 1280x960 resolution

A 2D slice of the 12-dimensional heptic parameter space .

Below the plotted axis’ and the glidings along the other axis’,

*a_real = #pixel (horizontal)
*a_imag = 1.23325520828
*b_real = 0
*b_imag = 0
*c_real = 0
*c_imag = 0
*d_real = 0
*d_imag = 0
*e_real = 0
*e_imag = 0
*f_real = 0.5
*f_imag = #pixel (vertical)

The contours drawn with respect to the sets present in this section is in one layer using the technique of SetBorders developed and programmed of the formula writer Stig Pettersson. All 6 sets are there but they (almost) nowhere coalesce. For that reason there is almost nothing that belongs to Heptic Connectedness Locus (HCL), that would be colored black. The sets M2, M3, M4, and M5 completely coalesce forming structures of the Pentic Mandelbrot set.

Ultra Fractal, formula Heptic Parameterspace3 in the sp3-module written by my dear friend Stig Pettersson, Greenseng here at DeviantART. All his modules, as well as mine can be downloaded from [link]

Below the parameter file, play and have fun

HepticRotationPlay7 {
fractal:
title="HepticRotationPlay7" width=640 height=480 layers=1
credits="Ingvar Kullberg;8/30/2010"
layer:
caption="HCL+SetBorders" opacity=100 method=multipass
mapping:
center=0/0 magn=0.38
formula:
maxiter=1000 filename="sp3.ufm" entry="HepticParameterspace3"
p_PlottedPlane="11.(a-real,f-imag)" p_M=HCL p_SetBorders=yes
p_hide=yes p_areal=0.0 p_aimag=1.23325520828 p_breal=0.0 p_bimag=0.0
p_creal=0.0 p_cimag=0.0 p_dreal=0.0 p_dimag=0.0 p_ereal=0.0
p_eimag=0.0 p_freal=0.5 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:
density=0.5 transfer=arctan filename="spr.ucl"
entry="ContinousPotential" p_auto=yes p_auton=2.0 p_n=1.0
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=2.0 p_reversed=no p_test=no
p_testvalue=0.7 p_index4=0.29
gradient:
smooth=yes rotation=112 index=75 color=15728383 index=94
color=14210756 index=141 color=10420223 index=255 color=2431743
index=-6 color=4653056
opacity:
smooth=no index=0 opacity=255
}