Request for an exorcism

I am requesting a group intervention to exorcise the demon of "maximum
entropy production driving organization" from my belief structure. :-)

First, thank you to all that showed up at my talk at Jose's "SFI working
group on Cities and Organization" yesterday. It was a pleasant surprise to
see so many FRIAM faces.

Those that attended probably noticed a bumbling in the first portion of my
talk where I stumbled on the role of entropy production in organization.
Roger Critchlow, as a good friend, gave me the following feedback (which I
beg his pardon for sharing with the group without checking with him first):

> Stephen --
>
>    I must confess that your thermodynamic muddle embarrassed me
> yesterday, If you send me a copy of the first part of the
> presentation, I can respond point by point.  The rest of the talk went
> quite well, your taste in visual materials is excellent.
>
> -- rec --

Yep, the first section of the talk was somewhat painful for me. I prepared
the presentation thinking I was going to be preaching to the choir and
thought the first section would be a quick breeze through. There were so
many blank faces that it somewhat threw me and I was ill-prepared to
elaborate on the statements. For those that know me, I tend to speak on
topics that I am deeply struggling with and don't yet quite have a grasp on.
Thank you for your patience with me.

Having said that, I believe in the content. The idea (not invented by me) of
far from equilibrium boundary conditions as Aristotilian final cause for the
creation and maintenance of organization I believe is foundational. I think
this is an idea that maps across social, biological, physical and agent
systems that are self-organizing. As you requested, I've posted the
presentation at http://www.redfish.com/research/LivingCity_Roger.htm. I
deleted the unshown 3rd ABM section to cut down 4Mb in size. I can show you
that at the office if you're interested. I left in the unshown 4th section,
"design heuristics for self-organizing systems:, which may further irritate
you. I'm grasping at the application of self-organization to ABM.

I'm posting this to the group because I would like to open debate to whether
the idea is bunk and needs to be discarded or it is indeed foundational and
has important implications for systems design and interaction. I am too
distracted by it to let it sit in the corner. It keeps winking at me and
won't let me do my work ;-)

Related/referenced readings:

Shrodinger:
http://dieoff.org/page150.htm

Swenson (on Maximum Entropy Production) - it's either right on or completely
flakey:
http://www.entropylaw.com/entropyproduction.html

Parunak (on application to ABM):
http://www.redfish.com/research/p124-van_dyke_parunak.pdf
http://www.redfish.com/research/gotoant.pdf

Heylighen (general vocabulary for SOS):
http://www.redfish.com/research/EOLSS-Self-Organiz.pdf

Thanks,

-Steve

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Stephen,

I enjoyed your talk yesterday. With regard to the entropy discussion, I
think one of the difficulties is the wide use of this term, different people
may have different perspectives on what entropy mean. On top of that, people
may have failed to make the connection between entropy and cities and
organization. You and I had many discussions on this subject before so I
knew where you were heading.

Cheers,
Belinda


-----Original Message-----
From: [hidden email] [mailto:[hidden email]]On Behalf
Of Stephen Guerin
Sent: Saturday, March 08, 2003 1:54 PM
To: Friam
Subject: [FRIAM] Request for an exorcism


I am requesting a group intervention to exorcise the demon of "maximum
entropy production driving organization" from my belief structure. :-)

First, thank you to all that showed up at my talk at Jose's "SFI working
group on Cities and Organization" yesterday. It was a pleasant surprise to
see so many FRIAM faces.

Those that attended probably noticed a bumbling in the first portion of my
talk where I stumbled on the role of entropy production in organization.
Roger Critchlow, as a good friend, gave me the following feedback (which I
beg his pardon for sharing with the group without checking with him first):

> Stephen --
>
>    I must confess that your thermodynamic muddle embarrassed me
> yesterday, If you send me a copy of the first part of the
> presentation, I can respond point by point.  The rest of the talk went
> quite well, your taste in visual materials is excellent.
>
> -- rec --

Yep, the first section of the talk was somewhat painful for me. I prepared
the presentation thinking I was going to be preaching to the choir and
thought the first section would be a quick breeze through. There were so
many blank faces that it somewhat threw me and I was ill-prepared to
elaborate on the statements. For those that know me, I tend to speak on
topics that I am deeply struggling with and don't yet quite have a grasp on.
Thank you for your patience with me.

Having said that, I believe in the content. The idea (not invented by me) of
far from equilibrium boundary conditions as Aristotilian final cause for the
creation and maintenance of organization I believe is foundational. I think
this is an idea that maps across social, biological, physical and agent
systems that are self-organizing. As you requested, I've posted the
presentation at http://www.redfish.com/research/LivingCity_Roger.htm. I
deleted the unshown 3rd ABM section to cut down 4Mb in size. I can show you
that at the office if you're interested. I left in the unshown 4th section,
"design heuristics for self-organizing systems:, which may further irritate
you. I'm grasping at the application of self-organization to ABM.

I'm posting this to the group because I would like to open debate to whether
the idea is bunk and needs to be discarded or it is indeed foundational and
has important implications for systems design and interaction. I am too
distracted by it to let it sit in the corner. It keeps winking at me and
won't let me do my work ;-)

Related/referenced readings:

Shrodinger:
http://dieoff.org/page150.htm

Swenson (on Maximum Entropy Production) - it's either right on or completely
flakey:
http://www.entropylaw.com/entropyproduction.html

Parunak (on application to ABM):
http://www.redfish.com/research/p124-van_dyke_parunak.pdf
http://www.redfish.com/research/gotoant.pdf

Heylighen (general vocabulary for SOS):
http://www.redfish.com/research/EOLSS-Self-Organiz.pdf

Thanks,

-Steve

____________________________________________________
http://www.redfish.com    [hidden email]
624 Agua Fria Street      office: (505)995-0206
Santa Fe, NM 87501        mobile: (505)577-5828


=========================================================
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Meets Fridays 9AM @ Museum Hill Cafe
Archives, unsubscribe, etc.:
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Thanks for the feedback, Belinda.

> With regard to the entropy discussion, I
> think one of the difficulties is the wide use of this term,
> different people
> may have different perspectives on what entropy mean. On top of
> that, people
> may have failed to make the connection between entropy and cities and
> organization. You and I had many discussions on this subject before so I
> knew where you were heading.

For those that have not had the pleasure of hearing my rambling firsthand at
one time or another (of which there are probably few), here is the explicit
statement summing up Schneider, Swenson, Kugler, and potentially Shrodinger
and Boltzmann:

Nature abhors a gradient. Gradients are low entropy configurations.
Equilibrium is defined as the absence of a gradient. This is the maximum
entropy configuration. Gradients are concentrations of conserved quantitites
(energy, charge, linear momentum, etc.) which constitute a potential.
Potentials give rise to flows. If the potential exceeds a threshold,
self-organization will begin. The second law is responsible for the
construction of organizing structures to oppose gradients.

I'll make the strong claim in the hope that it it makes it easiest to
refute:

        ALL organization arises for the purpose of destroying a gradient (ie
producing entropy).

In the Cities and Organization workshop, I was trying to find the overlap
between organization and cities. Certainly cities are organizations and if
the above is true, it may give us a novel perspective to approaching how
cities come about, how they persist and how cities adapt. Again, the maximum
entropy production idea is not mine. I rather like it but it would not kill
me if it turns out to be false. I'd kind of like to know, though, one way or
the other.

I missed posting the Schneider and Kay papers last time:
        http://www.fes.uwaterloo.ca/u/jjkay/pubs/Life_as/text.html
        http://www.redfish.com/research/SchneiderKay1995_OrderFromDisorder.htm

-S
____________________________________________________
http://www.redfish.com    [hidden email]
624 Agua Fria Street      office: (505)995-0206
Santa Fe, NM 87501        mobile: (505)577-5828

OK, I've been staring at this for awhile, trying to figure out
what bothers me about the argument.  So here are my own ramblings.

First, I think it may be hard to refute
in part because it is hard to pin down; that is, there appear
to be intuitively based counter-arguments.  For example, one
might point to convection in gravity gradients, or to HOX gene
complexes that help create chemical gradients as reference frames
for gene expression.   In neither case does it seem right to say
that "nature abhors a gradient"; elements of the structure depend
on them.  Further, we don't usually think of these cases as
being about dissipation of the gradient.  Structural elements
often use the environment of gradients to minimize their own
dimensionality (e.g. logs self-orienting in a river).

First and a half, potentials may create flows, but they also
provide reference frames against which other organizational
elements orient and within which they may situate (or be situated).
I don't understand how dissipation of such uber-gradients
would necessarily serve the emergence of organization (unless
they were simply temporary scaffolding that eventually got "eaten" up).

Secondly, though this may happen to play a key role in emergent
organization, it is not necessarily foundational.   Much of the
argument depends on a geometrical frame (some quantity of stuff
moves from point A to point B)
rather than a topological one.  I am perhaps weird in thinking
that topology preceeds geometry; that geometry is a particular
informational overlay on some topology.  Then there's time
and spatial metrics and all that.  So this may not be foundational,
but rather one of those things that tends show up around organization.
Loop Quantum Gravity, how to talk about dissipation down there?

Thirdly, there is a question around stability of non-adjacent
organizational entities.  Why are there species?  The statement at hand
does not quite deliver on how (more or less) stable *classes* of
organizations arise. (Yeah, ant trails and coupling through the
environment, but why don't ants metamorphose constantly?).  How does
the statement show how novelty interacts with stability?

Forthly, any given agent is possibly situated in multiple gradients that
are mediated by other gradients, in different ways and at different times,
and so forth.  Definitions of autonomy are difficult to formulate
precisely against that backdrop; how does some "outside" agency percieve
when autonomy has emerged?  Is a log in a river an autonomous agent?
Which gradient is getting dissipated and why?  In any case, the dissipation
may not be linear, so we might have some trouble predicting the
emergence of organization by looking at the pattern of dissipation
of the various gradients involved (or know which ones are involved or
salient).

Fifthly, I haven't figured out how the maximum entropy hypothesis
integrates with the dumb-network notion that most "value" is at the
edges.  There might be an experiment or visualization here integrating
these two notions that could clarify things....

It would be very cool to have some unifying notion of how maximal entropy
integrates with dimensionality, selection and recombination, but
I don't have a satisfactory formulatation of that question tonight.

I've always liked the notion of work cycles and autonomy, but the
one-paragraph statement is a big pill to swallow without offering
a lot back in terms of explanatory power.  How does the statement
help unify other possibly ad-hoc explanations about organizations
that are expressed in some other idiom?  I don't quite see it --- yet.

Best Regards, and thanks for all the fish,
Carl

-----Original Message-----
From: [hidden email] [mailto:[hidden email]]On Behalf
Of Stephen Guerin
Sent: Saturday, March 08, 2003 7:23 PM
To: [hidden email]
Subject: RE: [FRIAM] Request for an exorcism


Thanks for the feedback, Belinda.

> With regard to the entropy discussion, I
> think one of the difficulties is the wide use of this term,
> different people
> may have different perspectives on what entropy mean. On top of
> that, people
> may have failed to make the connection between entropy and cities and
> organization. You and I had many discussions on this subject before so I
> knew where you were heading.

For those that have not had the pleasure of hearing my rambling firsthand at
one time or another (of which there are probably few), here is the explicit
statement summing up Schneider, Swenson, Kugler, and potentially Shrodinger
and Boltzmann:

Nature abhors a gradient. Gradients are low entropy configurations.
Equilibrium is defined as the absence of a gradient. This is the maximum
entropy configuration. Gradients are concentrations of conserved quantitites
(energy, charge, linear momentum, etc.) which constitute a potential.
Potentials give rise to flows. If the potential exceeds a threshold,
self-organization will begin. The second law is responsible for the
construction of organizing structures to oppose gradients.

I'll make the strong claim in the hope that it it makes it easiest to
refute:

        ALL organization arises for the purpose of destroying a gradient (ie
producing entropy).

In the Cities and Organization workshop, I was trying to find the overlap
between organization and cities. Certainly cities are organizations and if
the above is true, it may give us a novel perspective to approaching how
cities come about, how they persist and how cities adapt. Again, the maximum
entropy production idea is not mine. I rather like it but it would not kill
me if it turns out to be false. I'd kind of like to know, though, one way or
the other.

I missed posting the Schneider and Kay papers last time:
        http://www.fes.uwaterloo.ca/u/jjkay/pubs/Life_as/text.html
        http://www.redfish.com/research/SchneiderKay1995_OrderFromDisorder.htm

-S
____________________________________________________
http://www.redfish.com    [hidden email]
624 Agua Fria Street      office: (505)995-0206
Santa Fe, NM 87501        mobile: (505)577-5828



=========================================================
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Meets Fridays 9AM @ Museum Hill Cafe
Archives, unsubscribe, etc.:
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Stephen Guerin wrote:
The good news is that your strong claim is impossible to refute.  The
bad news is that it's impossible to refute because it's a restatement of
the second law which says nothing about organization.

Everything that happens in the universe happens as a consequence of a
thermodynamic gradient.  In the absence of a thermodynamic gradient,
stuff is at equilibrium and just sits there doing nothing.  That
organization occurs as a consequence of thermodynamic gradients is
necessarily true, for it to happen otherwise would contradict the second
law.  But disorganization also happens as a consequence of thermodynamic
gradients, for it to happen otherwise would also contradict the second
law.  Gradients are required for all change whether it is organizing
change, disorganizing change, or neutral change.

Water flows downhill.  Sometimes there are eddies and whirlpools,
sometimes there aren't, but the fact that water flows downhill is always
true whether self-organizing structures occur or not.  The thermodynamic
gradient explains water flowing downhill, not the presence or absence of
the eddies.

A pan of water heated on the bottom and cooled on the top will transfer
heat from the bottom to the top.  Sometimes there are convection cells,
sometimes there aren't, but the fact that heat flows from warmer to
cooler is true whether convection cells occur or not.  The thermodynamic
gradient explains the direction of heat transfer, not the mechanism of
transfer.

All that Boltzmann and Schrodinger are saying in the quotes you gave is
that life obeys the second law: the flow of matter and energy through
living organisms is from higher thermodynamic potential to lower.  They
are restating the second law of thermodynamics, nothing more.  (Well,
Ludwig is making larger claims about which he is incorrect, but that
doesn't matter.)

I have more fish to fry, but I'll stop at this point so you can try to
persuade me that there's some other content to read into your quotes
from Boltzmann and Schrodinger, or your strong claim.

What's here besides a restatement of the second law?  How could
organization happen without a thermodynamic gradient to feed from,
leaving aside divine interventions?

-- rec --

Just a quick comment while I'm thinking about it right now; more
thought-out words later.

On Sunday, March 9, 2003, at 05:03 PM, Roger E Critchlow Jr wrote:
I think the strong claim is not simply that organization happens _in_ a
gradient, or even _because_ of it (which, as was pointed out, is
necessarily true due to the 2nd law). The strong claim is that
organization happens only for the purpose of accelerating the
destruction of a gradient (maximum entropy creation). Perhaps, the only
thing all self-organizing systems have in common (besides that they
happen in a gradient) is that the gradient they use to organize
themselves dissipates faster than if the system had not organized.
Then, it would seem that self-organization is natural, and even
expected, if the 2nd law is the final cause, because all
self-organizing systems would accelerate entropy creation.

Of course, this isn't my strong area, so these things may reduce to a
simple statement of the 2nd law itself and provide no new insight.

-dan

Daniel Kunkle wrote:
So, you'd expect that a blue green algae, as a self-organizing system,
would dissipate the solar flux gradient faster than a rock?  Then why
does the blue green algae convert the energy of the photons it absorbs
into an intermediate form of stored energy while the rock just converts
it immediately into heat?  Seems like the rock is degrading the gradient
in one instantaneous step, while the photosynthetic organism is delaying
the degradation an indeterminate period of time.

I can see how Benard cells increase the rate of heat transfer through a
fluid, I can see how hurricanes and tornadoes increase the mixing of
thermal gradients, but I don't see how the theory applies to living
organisms, so I don't see how it applies to all self-organizing systems.

-- rec --

Hi Guys,

I didn't want to get in the middle of this, but Roger asks just the
right question, and it happens to be one on which I have an opinion.
(I am currently trying to make it into better than just that.)

(btw, Steve: our general sense of how things fit together seems enough
alike that it surprises me how I continue to be unable to contribute
anything useful to you.  I could at least enjoy the talk, though, and
I think the ideas you are pushing for are deep and promising.)

Two things are central to answering this.  First, biomass implements
more perfect inelastic absorption than nonbiomass made of the same
stuff, if what you mean by ``biomass'' is averaged to include the
chromophores (chlorophylls and rhodopsins).  Second, the earth
rotates, so there is a shuttle cycle between day and night (though
that is less important, as I realize in the course of writing this
mail).

So, roughly, the similarity to Benard cells should go like this:
Rocks, the atmosphere, etc, elastically scatter a lot more photons
than they absorb.  Simple molecules, even when they absorb
inelastically by breaking, often re-emit the same stuff when they
recombine (O2 up high that mostly doesn't make ozone).  Net effect is
that the energy-momentum transfer is mostly that of elastic
scattering, which causes big rises in kinetic temperature for small
changes in energy -- while the sun is shining --.  Photons get
re-radiated back into the same spectral ranges and a relatively narrow
solid angle around the direction of incidence, and the capacity of the
earth's matter to heat is limited by the E/p relation of light to
heavy stuff.

The chromophores solve the hard engineering problem of absorbing
without breaking the chemical, so that on average their dE/dp ratio
per absorption is about 10^9 what you get from elastic scattering
(easy relativistic calculation to do).  Since photons shine on the
biomass and the nonbiomass alike, and those that don't get absorbed
scatter elastically just like they would anyway, even only absorbing
some fraction of that excess energy effectively raises the energy
capacity per temperature (kinetic molecular motion) change of the part
of terrestrial matter participating as biomass.  The important thing
is that all of that absorbed energy is then made available to the
molecular-level processes of metabolism, which leak it out as a
fantastically larger number of low-energy photons, throughout the day
_and the night_.  So the earth is cooler during the day and warmer
during the night, with plants and all that feeds on them, than it
would be without them.  More importantly, it is also redder over the
day/night average.  

The key is to realize that the differences that power flows are not
just spatial, but also compositional (the configuration space of
matter has a lot more topology than just the geography of the globe).
Without chromophores, there is a bath of thermal photons, and a
background of microwave energy and all the molecular excitations that
couple to them, and selection rules more or less prohibit the coupling
of those two baths, so not much energy flows between them, just like
any two energy levels decoupled in a solid-state device, or whatever.
With the invention of the chromophores, life effectively opened a gate
between those two energy levels, which gets around the selection rules
as they act on small-molecule scattering.  The heat from 6000K -> 300K
phonons, conserved on average, and from a narrow spatial angle to the
whole solid angle sphere (a less important effect) represents a
fantastic entropy exchange, and entropy production.  Even if one were
only to operate reversible cycles between two such reservoirs
(possible for transient periods), the energy taxable at fixed entropy
from such a difference of effective temperature would allow you to
build a lot of structure (these are the processes that I somewhat
understand).  If it turns out that there is also something gained from
the entropy production (about which I think people understand less but
say more, so it is a dangerous topic), then the entropy gain is
similarly huge.

A comment for the discussion on the second law, too, just to be
picky.  The second law postulates maximum ignorance given constraints,
as a property of equilibrium states.  Properly understood (see
Gell-Mann and Lloyd, Complexity Vol.2, p.44-56 (1996)), the second law
only says that, if you knew the true constraints determining a
distribution, then you could never choose another set of measurement
criteria in which there could be less uncertainty.  Since time
evolution frequently changes the meaning of even the same measurements
as reflections of the constraints on a system (due to small-scale
mixing), the entropy in a macroscopically-specified coarse-graining
at later times can never be less than that of the same coarse-graining
_if it was the one used to prepare the ensemble in the first place_.  

Second law says nothing about whether entropy will increase (only that
under certain circumstances it can), and it _certainly_ says nothing
about the rate of increase, or a preference for maximization of that
rate.  Truly it is just an informational law about
incompletely-constrained dynamical systems, and is only as useful as
the care you put into understanding the roles of the macrovariables,
whether as constraints or characterizations.  This is why a lot of
unnecessary confusion has been created (beyond the necessary
confusion) about the role of life as a thermal process.  Just the fact
that you can measure something as a macroscopic average doesn't tell
you whether it is a state variable, or whether some entropy function
computed from it actually measures the uncertainty inherent in the
system.  

All the stuff on increase of entropy production rate, and any possible
association with the structuring of intermediate components, is much
shakier, though there is probably a grain of truth in some of it.  We
just don't know which parts yet.

Eric

Eric Smith wrote:
> Hi Guys,
>
> I didn't want to get in the middle of this, but Roger asks just the
> right question, and it happens to be one on which I have an opinion.
> (I am currently trying to make it into better than just that.)

Eric --

   I don't think you're in the middle of this, I'd say you're some ways
out ahead of us.  In any case, there isn't really any middle here, we're
just clarifying Guerin's ideas for him.

   And it seems to me that you've essentially confirmed my point:
inelastic scattering from air and rocks happens at the speed of light;
elastic scattering from chloroplasts and their ilk happens at the speed
of life.  Life harvests some proportion of the solar flux that otherwise
would have been immediately dissipated by inelastic scattering, and
dissipates it in little belches and farts of heat over time.  Life
dissipates energy when it needs to, it's not in a race with the abiotic
world.

   So it's still hard for me to see how life as a self-organizing
phenomenon could ever be an example of Daniel's formulation:  "The
strong claim is that organization happens only for the purpose of
accelerating the destruction of a gradient (maximum entropy creation)."

   Stephen, is this becoming any clearer?

-- rec --

>    Stephen, is this becoming any clearer?

I've seen the flash of the crucifix, my head is spinning and I'm tasting the
bile in my throat. Projectile vomit to follow ;-)

Give me a day or two to respond. I need to get a project out the door.

In the meantime, thanks for the useful feedback. I have to tighten up my
language when I talk about constraint construction and destruction with
respect to free energy decreasing in spontaneous reactions. I certainly
would like to avoid using the term entropy.

-Steve

"The use of thermodynamics in biology has a long history rich in
confusion" - Harold J. Morowitz

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Stephen Guerin wrote:
>>   Stephen, is this becoming any clearer?
>
>
> I've seen the flash of the crucifix, my head is spinning and I'm tasting the
> bile in my throat. Projectile vomit to follow ;-)

I'm sure you'll post a flash when you have time.

-- rec --

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<A=20
href=3D"http://www.andrew.cmu.edu/user/wimberly">http://www.andrew.cmu.ed=
u/user/wimberly</A></FONT></DIV></BODY></HTML>

------=_NextPart_000_0292_01C2E874.CA1C5520--

And to continue the annual tradition, I'll be selling mine @ $4.50/box for
anyone that forgot to place their order. :-)

-S

____________________________________________________
http://www.redfish.com    [hidden email]
624 Agua Fria Street      office: (505)995-0206
Santa Fe, NM 87501        mobile: (505)577-5828


-----Original Message-----
From: [hidden email] [mailto:[hidden email]]On Behalf Of
Frank Wimberly
Sent: Wednesday, March 12, 2003 8:53 AM
To: [hidden email]
Subject: [FRIAM] Girl Scout Cookies


The cookies have arrived.  I will bring them with me this Friday.  They are
$3 per box.  Cash or checks accepted.  Checks should be made out to "Girl
Scouts Troop 46".  If you don't remember how many boxes you ordered send me
an email.

Frank
---
Frank C. Wimberly                                   505 995-8715 or 505
670-9918 (mobile)
140 Calle Ojo Feliz                                  [hidden email]
or [hidden email]
Santa Fe, NM 87505
http://www.andrew.cmu.edu/user/wimberly

Now THAT'S the Stephen I know!


----- Original Message -----
From: "Stephen Guerin" <[hidden email]>
To: <[hidden email]>
Sent: Wednesday, March 12, 2003 11:04 AM
Subject: RE: [FRIAM] Girl Scout Cookies

are
> $3 per box.  Cash or checks accepted.  Checks should be made out to "Girl
> Scouts Troop 46".  If you don't remember how many boxes you ordered send
me
> an email.
>
> Frank
> ---
> Frank C. Wimberly                                   505 995-8715 or 505
> 670-9918 (mobile)
> 140 Calle Ojo Feliz
[hidden email]

Roger writes:
> I'm sure you'll post a flash when you have time.

Can we show some professional respect here. It's Director and Shockwave that
we spew out. The Flash guys are 5 pegs below us in the pecking order. ;-)

-S

____________________________________________________
http://www.redfish.com    [hidden email]
624 Agua Fria Street      office: (505)995-0206
Santa Fe, NM 87501        mobile: (505)577-5828