Versions 1 to 7 work well with the windows version.
In multifrac_8 I added some addtitional code and
variables which were needed for the reset commands
which handle the transitions between the participating
programs. They are resposible for the lack of chaotic
portions and supply joint centers in images done with the latest
edition. Versions 8 to 10 produce a "Buffer Overrun" as
soon as they are loaded and Fractwin crashes instantly.
Therefore only users running clean dos can load
multifractal, only a few are left. I run multifractal
also in the DOS Shell but I need a modified XP Version
without net services.
I?m sorry to say, that Richard refuses to increase the
internal buffer, possibly only 1 line in the source code
"STACKSIZE 7684 ; was 7172" and then recompile it. My
bugreport is dated Aril 19, 2011 and when I sent a
reminder was told to issue a new one, that?s all.
The source code is available from
http://iteratedynamics.codeplex.com.
Can anybody help, maybe Jonathan ?
I can imagine some more activity in the
forum wouldhelp it survive a little bit longer
Albrecht
FOTD -- November 06, 2012 (Rating 7)
Fractal visionaries and enthusiasts:
Today's little oddity lies in the parent fractal that appears
when the expression Z^(2.12)+C is iterated at ground level with
no function applied. This parent is shaped like a squashed
Mandeloid with a large main bay and a large period-2 bud on the
north shore line. Today's scene lies in a minor valley on the
west side of this bud.
I named the image "Fractal Warming" because of the fiery reds
surrounding the central minibrot, and also because of a recent
show on TV about the dangers, real or imagined, of 'climate
change'.
The rating of a 7 is near FOTD average. Some extra effort on
the coloring might have raised the rating a point or so.
The calculation time of 1-1/3 minutes is well within reason. A
bit of additional time might be saved by viewing the image on
one or more of the web sites.
The image has already been calculated and posted to the official
FOTD web site at:
<http://www.crosscanpuzzles.com/Archives.html>
with hi-def variations at:
<http://www.emarketingiseasy.com/TESTS/FOTD/jim_muths_fotd.html>
The back images are available at:
<http://www.Nahee.com/FOTD/>
A mix of sun and clouds, with a temperature of 45F +7C made
today feel quite like November here at Fractal Central. Fractal
cat Nicholas took advantage of the sun when it was shining and
his food dish when it was not. The humans made it through
election day without becoming too concerned over who might be
the winner. Regardless of who wins, the next FOTD will be
posted in the near future. Until whenever, take care, and
climate change (aka global warming) is real! It has already
begun! We had better believe it and start preparing! Do not
make the error of thinking we can stop it or even slow it by
forcing a few controversial bills through congress or by signing
a few emission reduction treaties that are sure to be violated.
Jim Muth
jimmuth(a)earthlink.net
START PARAMETER FILE=======================================
Fractal_Warming { ; time=0:01:20.00 SF5 at 2000MHZ
reset=2004 type=formula formulafile=basicer.frm
formulaname=MandelbrotBC3 function=ident
center-mag=-0.429916265389/+0.98567433255/8.6e+007\
/1/-57.5/0 params=2.12/0/0/0 float=y maxiter=2750
inside=0 logmap=186 symmetry=none periodicity=6
colors=000ZYh`YgbZge_fg_ei`dkadnacpbbrcatcarbbpaco\
`dm_ek_ejZfhYgfXheWicWiaVj`UkZTlXSmWSmUQnSOnRNoPLo\
OJpMIpLGqJEqIDqPHkWLfaP`hTWoXQu_LqYJnWIjUGgSFcQD`O\
CYMAUK9RI7NG6KE4GC3DA1A90A809708707607606505405404\
30330220210110000zCArB9mB9hB9cB9ZB9UA9UA8UA8UA8UA8\
UA8U98U98U97U97U97U87U87U87U87U86U86U76U76U76T76S7\
5R65R65Q65P65P65O65N54M54M54L543fU3eT3dS3cR3bR3aQ3\
`P3_O2YO2XN2WM2VL2UL2TK2SJ2RI2QI2PH2OG1MF1LF1KE1JD\
1IC1HC1GB1FA1E90001D91C80A709608607506405304303202\
1010ttFrrEqqEooDnnDllDkkCiiChhBffBeeBccAbbAaaA__9Z\
Z9XX8WW8UU8TT7RR7QQ6OO6NN6LL5KK5JJ5HH4GG4EE3DD3BB3\
AA2882771551441220110Um9Tl8Tk8Sk8Sj8Sj8Ri8Ri8Rh8Qg\
8Qg7Qf7Pf7Pe7Pe7Od7Oc7Oc7Nb7Nb7Nc6Oc6Pc6Qm6Rm6Sm6T\
m6Um6Vw6Ww6Xw5Yw5Zw5_w5`w5aw5bz5cz5dz5ez5fz4gz4hz4\
iz4jz4kz4lz4mz4nz4oz3pz3qz3rz3sz3tz3uz3vz3wz3zz3zz\
2zz0zz0zz0zz0zz0zz0zz0zz0 }
frm:MandelbrotBC3 { ; by several Fractint users
e=p1, a=imag(p2)+100
p=real(p2)+PI
q=2*PI*fn1(p/(2*PI))
r=real(p2)+PI-q
Z=C=Pixel:
Z=log(Z)
IF(imag(Z)>r)
Z=Z+flip(2*PI)
ENDIF
Z=exp(e*(Z+flip(q)))+C
|Z|<a }
END PARAMETER FILE=========================================
FOTD -- November 05, 2012 (Rating 6.5)
Fractal visionaries and enthusiasts:
The name of today's image is "Pseudo-Symmetry". The name refers
to the shape of the parent fractal, which came about when I
whimsically calculated the expression Z^(2.34)+C at a level 4.32
turns up the hyperspiral. At first glance this figure-eight-
shaped parent appears to have 'origin' symmetry, but a closer
look reveals that the symmetry is only approximate.
Today's scene is located in a valley of a larger minibrot lying
on a filament extending from a mis-shapen bud on the northeast
shore line of the northern bay of the parent. The semi-
symmetrical shape of the minibrot at the center of the image
reflects the shape of the parent.
The coloring is nothing exceptional, but with the minor math
interest, still earns a rating of 6-1/2. The calculation time
of 2-2/3 minutes lies within the normal range. As always,
calculation may be totally avoided by checking the image on the
FOTD web sites.
The pre-calculated image is posted on the official FOTD web site
at:
<http://www.crosscanpuzzles.com/Archives.html>
with hi-def variations at:
<http://www.emarketingiseasy.com/TESTS/FOTD/jim_muths_fotd.html>
The back images are available at:
<http://www.Nahee.com/FOTD/>
Today began with clouds here at Fractal Central, but in the
afternoon, the sun finally made a brief appearance, its first
since October 25. The temperature of 45F +7C was rather chilly
for early November. Fractal cat Nicholas' anticipation is
building as the arrival date of his new companion Callie nears.
She is due on November 14. Meanwhile, the humans simply made it
through another day.
The next FOTD will be posted when it is ready. Until whenever,
take care, and who are you voting against on Tuesday?
Jim Muth
jimmuth(a)earthlink.net
START PARAMETER FILE=======================================
Pseudo-Symmetry { ; time=0:02:40.00 SF5 at 2000MHZ
reset=2004 type=formula formulafile=basicer.frm
formulaname=MandelbrotBC3 function=ident
center-mag=+0.581511067122/+0.663743919851/1.3e+007
params=2.34/0/4.32/0 float=y maxiter=5000 inside=0
logmap=243 periodicity=6
colors=000pQgnPilOkkOniNpgMrfLtdKvbJxaJzcMydOxeQwf\
SvgUvhWuiYtj_skarlcrmeqngpoiopknqmnrkjsigtgdudavaZ\
wZWxWTyUQwSNwQKvOHrKHmFGhAGc5Fa2F_2EY2EW2DU2DU1CU1\
CT1BS1BR1AQ1AQ00Q19Q19P18N18K17K17K16F06F05F05F04F\
04F03F03F02F02F01F01F00A09A08A08A08A07A07A07A07A06\
A06A06A06A05A05A05A05A04A04A04A04A03A03A03A03E02D0\
2B02A02901701601501300200100wytwxswwrmvqmuqmtpctoc\
sncrnUqmUplUpkUokUnjUmiPlhPlhPkgPjfPiePheLhdLgcLfb\
KebKdaKd`Jc`Jb_EaZE`YD`YD_XDZWCYVCXVCXUBWTBVSBUSBT\
RASQASPARP9QO9PN9OM8OM8NL8MK8LJ7KJ7KI7JH6IH6HG6GF5\
GE5FE5ED5DC4CB4CB4BA3A9398388287IDaL7eO2hS4ZV5PY6F\
eCXbGV`KTaPYaTbbYgbalbeqqE8lPQgZgchxcfocdfccYcaPc`\
HmbMmdRmeVmg_mhcmjhmklciecg_cfTcdNccHceNmfTmgZmhdm\
ijmjombgmV`zOTzGMz9FzJSzScz`ozXpzUqzUqzlnzUozUpzUq\
zUqzcrzcszcszctzcuzcvzcwzcxzcyzcyzcxzcwzcvzcvzcuzc\
tzctzcizc_zcQzcGzc6zc9zcB }
frm:MandelbrotBC3 { ; by several Fractint users
e=p1, a=imag(p2)+100
p=real(p2)+PI
q=2*PI*fn1(p/(2*PI))
r=real(p2)+PI-q
Z=C=Pixel:
Z=log(Z)
IF(imag(Z)>r)
Z=Z+flip(2*PI)
ENDIF
Z=exp(e*(Z+flip(q)))+C
|Z|<a }
END PARAMETER FILE=========================================
FOTD -- November 04, 2012 (Rating 7.5)
Fractal visionaries and enthusiasts:
Things have finally settled down enough here at FC to once again
devote energy to the FOTD. Today's image is a scene in the
parent fractal that results when the expression Z^(2.5)+C is
iterated 5.2 levels up the hyperladder with no function applied.
This unimpressive parent resembles a Mandelbrot set rotated so
that the area normally on the west faces northwest, with a large
jagged bay where its East Valley should be and a main bud that
has two equally large sub-buds. Filaments extend from each of
these sub-buds, with large minibrots on these filaments.
Today's scene lies in the large minibrot on the filament
extending from the north sub-bud. This minibrot has two 'main'
buds, with a rudimentary bay between them. This bay is the home
of today's image.
I rated the image at a 7-1/2. If I had had more time, I might
have improved the colors enough to raise the rating to an 8. As
it is, the image is not all that bad to look at, and well worth
the 1-3/4 minutes required to calculate it.
The name "Two and One Half" refers to the exponent of Z.
The finished image is posted on the official (whatever that
means) FOTD web site at:
<http://www.crosscanpuzzles.com/Archives.html>
enriched versions of the image and related images are online at:
<http://www.emarketingiseasy.com/TESTS/FOTD/jim_muths_fotd.html>
The FOTD back images are available at:
<http://www.Nahee.com/FOTD/>
Today was cloudy with a temperature of 43F +6C. The fractal cat
is doing fine. His new companion is due on November 14. The
humans are still in the clean-up process.
I have much to say about the big N.E. storm and the things I am
hearing about it, but these things are mostly political, with
lack of knowledge abounding, and this is a fractal list. I'll
soon voice my opinion on the official FOTD web site, where I
will be starting a blog where anything goes.
The next FOTD will be posted when I get a 'round tuit'. Until
whenever, take care, and instead of continuing to blather about
the Arctic ice, let's talk about what's happening to the much
more plentiful ice in the Antarctic.
Jim Muth
jimmuth(a)earthlink.net
START PARAMETER FILE=======================================
Two_and_One_Half { ; time=0:01:45.00 SF5 at 2000MHZ
reset=2004 type=formula formulafile=basicer.frm
formulaname=MandelbrotBC3 function=ident
center-mag=-1.313645604957682/+0.6344385534013239/\
5.515427e+010/1/-97.5/0 params=2.5/0/5.2/0 float=y
maxiter=2250 inside=0 logmap=248
periodicity=6 mathtolerance=0.05/1
colors=00006c07c08c09c0Ac0Cb0Ea0G`0I_0KZ0MY1OX2QX3\
SX4UX4XX9Z_E`aJbdOdfTfiYhkbjnflpgimgfkhcih`fiYdiVb\
jS_jPYkMWkJTlGRlEPiFRgGSeHUcIVaJX_KYYL_WL`VJaUIbTG\
bTFcSDcRCdRAdQ9eP7eP6fO4fN3gN2gS7mXCrUGoSKlQOiOSgL\
WdJ_aHcZFgXCkUAoR8sO6wMAqNDkOGfPK`QNWQQQRULSXFT_AT\
XBRVBQTBORBNOBMMBKKCJICHFCGzzzzzczzCzmBzcFzUJzKMrF\
QpAUkAXc8TW6NO4HG2C71094AB6HD9OEBQGDSIGVJIXLL_NNaO\
PcQSfSUhTWjY_NUWPRSQ`DYd4aZDXULTPTPJaKEiG9qCIZ5CYJ\
7YW2Yh8bVDfHLXPTNW_EbdqVdlZdhadddd_gdWjdSmdOpXWiQc\
bJkWCsP5zJLsN`lQpfTjeWdeYZe`TebNedHegBei6ekpR7T4lL\
LfDa`6qV9kYCf`EabHXeJSgNXhQciUkjKdcmskzzlVZmSQnQHo\
RJkSKgTLcUN_VOWWPSWQPZfMavJNWOjKWQpjU6QPFPOXWLOPHX\
O8`QLIvHUdvPKfVMS`NtNqZIMOUN28_2d48eEucVfdSSeQHzAG\
zEFzHEzL9z_BzWCzSmz0BzpCzfDzXzzOzzOzzOzzIzzKzzLzzN\
zzGzzJzzMzzizzczzZzzTzzmzz`zzhzzbzzYzzTzzMzzNzzOzz\
ozzezzXzzlzz_zzkzz_zzdzzZ }
frm:MandelbrotBC3 { ; by several Fractint users
e=p1, a=imag(p2)+100
p=real(p2)+PI
q=2*PI*fn1(p/(2*PI))
r=real(p2)+PI-q
Z=C=Pixel:
Z=log(Z)
IF(imag(Z)>r)
Z=Z+flip(2*PI)
ENDIF
Z=exp(e*(Z+flip(q)))+C
|Z|<a }
END PARAMETER FILE=========================================
Fractal visionaries and enthusiasts:
We have experienced some problems both here at New FC and back at Old FC.
But the problems are under control (I hope) and the FOTD will resume on
November 4.
Jim Muth
In a prior post called Mixing Cosines I substituted a cosine term instead
of the usual z to a power in the parallel resistor formula. The cosine
added intricate detail to the fractal but if you looked around with this
equation you probably noticed there were only z ^ 2 power minibrots in the
fractal. Is it possible to increase the order of the minibrots without
losing the intricate detail of the cosine? Here is a link to a web page
with an image and a formula that attempts to do that:
http://www.fracton.org/fmlposts/cosines_of_three.html
The PAR file for the image is:
CosinesOfThree { ; Exported from Fracton.
reset=2004 type=formula formulafile=fracton.frm
formulaname=F_20121102_1610 passes=1 float=y
center-mag=-0.3806336003340345/-3.816249585923092e\
-14/53333334000/1/0/0
params=-1/1/0/4/-1/0/1/0/0/0 maxiter=2000
inside=0 periodicity=6
colors=000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O\
40C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40\
C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C1\
0000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C100\
00C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000\
C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C1\
0O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O\
40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40\
ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA\
0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0h\
I0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0\
oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS\
0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0u\
a0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0\
ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0ym\
0zy0ym0ua0oS0hI0ZA0O40C10 }
frm:F_20121102_1610 {
; Similar to the parallel resistance formula
a=real(p1),b=real(p2),d=imag(p1),f=imag(p2),
z=0,c1=pixel-p3,c2=pixel-p4:
z=1/(1/(a*z*(cos(z)-1)+c1)+1/(d*(z^f)+c2)),
|z|<100
}
--
Mike Frazier
www.fracton.org
Here is another fractal using the parallel resistor formula. The basic
formula combines any two powers of z. It seems to make a fractal with
pretty much any coefficients you pick. I wondered what would happen if I
substituted a cosine for one of the z terms. The cosine seems to add a lot
of intricate detail. Here is a link to a web page with an image and a
description of what I found:
http://www.fracton.org/fmlposts/mixing_cosine.html
I will also list the PAR file here for people collecting them from the mail
list:
Mixing_Cosine { ; Exported from Fracton.
reset=2004 type=formula formulafile=fracton.frm
formulaname=F_20121102_1156 passes=1 float=y
center-mag=0.5475442691084866/-2.413982470836851e-\
06/3333.333375/1/0/0
params=-1/1/0/4/-1/0/1/0/0/0 maxiter=2000
inside=0 periodicity=6
colors=000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O\
40C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40\
C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C1\
0000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C100\
00C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000\
C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C1\
0O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O\
40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40\
ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA\
0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0h\
I0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0\
oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS\
0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0u\
a0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0\
ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0ym\
0zy0ym0ua0oS0hI0ZA0O40C10 }
frm:F_20121102_1156 {
; Similar to the parallel resistance formula
a=real(p1),b=real(p2),d=imag(p1),f=imag(p2),
z=0,c1=pixel-p3,c2=pixel-p4:
z=1/(1/(a*cos(z)+c1)+1/(d*(z^f)+c2)),
|z|<100
}
--
Mike Frazier
www.fracton.org
I haven't posted any fractals for a few months while I was testing
Fracton's 3D model code. I really need a faster computer (or faster code)
to make them practical. I stopped one model after two weeks of calculations
when it still hadn't finished. Doubling the resolution of the model often
takes 10 times longer to calculate. Changing the resolution of a model from
coarse to good often changes the execution time from minutes to months.
Luckily, there are still plenty of fractal adventures to be had in the 2D
space where calculations finish in a much more reasonable time.
I recently explored fractals using the parallel resistor formula I have
posted in the past. I noticed a few things, although there are still many
more behaviors to be discovered. Here is a link to a web page with an image
and a description of what I found:
http://www.fracton.org/fmlposts/mixed_up_minibrot.html
I will also list the PAR file here for people collecting them from the mail
list:
MixedUpMinibrot { ; Exported from Fracton.
reset=2004 type=formula formulafile=fracton.frm
formulaname=F_20121101_1707 passes=1 float=y
center-mag=-0.3871042832031641/-1.169807668188325e\
-12/1333333350/1/90/0
params=-1/1/8/7/-1/0/1/0/0/0 maxiter=4000
inside=0 periodicity=6
colors=000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O\
40C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40\
C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C1\
0000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C100\
00C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000\
C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C1\
0O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O\
40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40\
ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA\
0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0h\
I0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0\
oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS\
0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0u\
a0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0\
ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0ym\
0zy0ym0ua0oS0hI0ZA0O40C10 }
frm:F_20121101_1707 {
; Similar to the parallel resistance formula
a=real(p1),b=real(p2),d=imag(p1),f=imag(p2),
z=0,c1=pixel-p3,c2=pixel-p4:
z=1/(1/(a*(z^b)+c1)+1/(d*(z^f)+c2)),
|z|<100
}
--
Mike Frazier
www.fracton.org
I was using Fractint back in the late 80's. I Just tried to D/L a windows 7
version and unpacked it. I cant find a working exe file. I just get an
error message saying it cannot open the file. It tells me it won't work in
a 64bit environment.
Help
Dean
NNNNNNNNNNNNNIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIICCCCCCCCCCCCCCCCCCCCCEEEEEEEEEEEEEEEEEEEE!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
-----Original Message-----
From: Mike Frazier
Sent: Nov 1, 2012 10:11 PM
To: Fractint and General Fractals Discussion
Subject: [Fractint] Mixed Up Minibrot
I haven't posted any fractals for a few months while I was testing Fracton's 3D model code. I really need a faster computer (or faster code) to make them practical. I stopped one model after two weeks of calculations when it still hadn't finished. Doubling the resolution of the model often takes 10 times longer to calculate. Changing the resolution of a model from coarse to good often changes the execution time from minutes to months. Luckily, there are still plenty of fractal adventures to be had in the 2D space where calculations finish in a much more reasonable time.
I recently explored fractals using the parallel resistor formula I have posted in the past. I noticed a few things, although there are still many more behaviors to be discovered. Here is a link to a web page with an image and a description of what I found:
http://www.fracton.org/fmlposts/mixed_up_minibrot.html
I will also list the PAR file here for people collecting them from the mail list:
MixedUpMinibrot { ; Exported from Fracton. reset=2004 type=formula formulafile=fracton.frm formulaname=F_20121101_1707 passes=1 float=y center-mag=-0.3871042832031641/-1.169807668188325e\
-12/1333333350/1/90/0 params=-1/1/8/7/-1/0/1/0/0/0 maxiter=4000 inside=0 periodicity=6 colors=000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O\ 40C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40\
C10000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C1\ 0000C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C100\ 00C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000\ C10O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C1\
0O40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O\ 40ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40\ ZA0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA\ 0hI0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0h\
I0oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0\ oS0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS\ 0ua0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0u\ a0ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0\
ym0zy0ym0ua0oS0hI0ZA0O40C10000C10O40ZA0hI0oS0ua0ym\ 0zy0ym0ua0oS0hI0ZA0O40C10 }
frm:F_20121101_1707 {; Similar to the parallel resistance formulaa=real(p1),b=real(p2),d=imag(p1),f=imag(p2),
z=0,c1=pixel-p3,c2=pixel-p4:z=1/(1/(a*(z^b)+c1)+1/(d*(z^f)+c2)),|z|<100}
--
Mike Frazier
www.fracton.org
