One
of the major problem I have in discussing the nature of the ongoing
crisis and the fate of the industrial society is dispelling the myth
of the "immaterial
economy". It is, I must say,
particularly widespread among French elites, perhaps because, as a
nation, we tend to despise manual work. Not so long ago we had a
debate in the Municipal Council about the digital economy in Nantes
and only my boss raised the tantalium supply issue (as I said, he is
my
boss), as for our resident Greens, they push for the replacement of
paper by computers and tablets.
The
idea is that since work done and transmitted by a computer is not
tangible, it is entirely the product of the human brain and therefore
free. Digital economy could therefore fuel a limitless growth even in
an era of widespread energy and raw material shortages.
Nothing
could be further removed from the truth, as I was taught in a rather
dramatic way.
I
happen to be owned by a four-legged black-furred monster called
Eliott who enjoys stealing chicken escalopes and leaping on tables at
the most inconvenient moment. So that day, I was reading my mails
while enjoying an excellent Iranian tea, when the little monster
decided it was the right time to run across the table, toppling the
mug in the process. The tea poured down on my laptop, which proved to
have little taste for even light flavored Iranian blends. It fizzled
then went dark, causing the collapse of my personal section of the
global network and the loss of a considerable number of digital book,
including a highly valuable Chukchi grammar.
To
make things worse, I was barely recovering from a nasty and costly
break up and the state of my finances was far from optimum, so to
replace my computer I had to have an interesting, if somewhat tiring,
talk with my banker – I needed a laptop for my political activities
so doing without was not an option.
The
first lesson of this story is that having a mug of tea too close to
your computer when your cat is chasing an imaginary mouse is a bad
idea. The second lesson is that the so-called immaterial economy is
highly dependent upon very material devices and infrastructures and
is very likely to crumble when those devices and infrastructures can
no longer be built or maintained.
It is
possible to build a computer with XVIIIth century
technology, even if it will be costly. The concept was first
described in 1795 by J. H. Müller, an engineer in the Hessian army
and in 1822 Charles Babbage tried to build a mechanical computer –
the difference engine - on behalf of the British government. The
stated goal was to produce cheap tables, a time consuming and
expensive job then. Unfortunately, the standards were so exacting
that Babbage ended up spending twice the price of a ship of the line
without producing a working prototype and the government finally
killed the project.
Babbage
then moved on to another, more complex, project : the analytical
engine. The analytical engine, albeit entirely mechanical, was more
advanced than the computers of the late forties. It had a “memory”
of 16,7 kb and used a programming language akin to assembly language,
which allowed for loops and conditional branching. The analytical
engine was never built but recent experiments have shown that it
could have been with the technology of the time.
The idea
may have been even older. At the beginning of the twentieth century,
a kind of small-sized mechanical computer, was discovered in the
wreck of of a Greek ship from the fourth century BC. It was
apparently designed to make astronomical calculations. It seems not
to have been the only one of its kind.
Mechanical
computers of various kind have been used up to the sixties, mostly
for research, military or navigation purposes. Thus, the physicist
Henry Fermi used a mechanical computer to model neutron transport and
the economist William Phillips designed an hydraulic computer (the
Moniac computer) to simulate a national economy.
Mechanical
or hydraulic computers have their limitation and I seriously doubt
you could play Europa Universalis III on one of them or store your
collection of paleo-asiatic grammars in their memory. It is quite
possible, however, to perform complex computations with them and that
beats doing them by hand.
Mechanical
computers are definitely one of those technology we should get
through the coming Dark Age. They will be of great use to an
ecotechnic society and relatively easy to manufacture in a
resource-poor world.
As for
build a world-wide-web with them, however... well, it could be
possible to build a continent spanning network of canals carrying
information for a collection of hydraulic computers, but I feel it
would be somehow impractical on a planet where water tends to pour
down the sky with very inconvenient regularity.
Digital
computer are far more convenient in that matter. The problem is that
they require a lot of rare material to be build. Silicium is arguably
very common but to purify it to the level it can be seeded with
germanium, you need a relatively high technology and a lot of
resources. Should you manage to preserve that, you will still need
tantalium for condensators and rare earth metals for screens and hard
disks, and of course a lot of copper for an awful lot of wires.
To make
things worse, your networks have to be maintained and your computer
powered. Unlike, for instance, a hydraulic computer, digital
computers need continuous inflow of high grade energy to remain
useful. In a world where brownouts, then blackouts will become more
and more common, this will make their use quite problematic and even
outright impossible in some areas.
As the
core limits, then withdraws, power availability in peripheral regions
to preserve itself, computer use is bound to decline and the digital
economy to retreats, until it becomes restricted to a few industrial
and political centers. The rest of us will have to do with pens and
paper and get the boardgame version of Europa Universalis out of its
shelf yes, it was a boardgame at the beginning.)
Besides,
neither satellites nor cables are eternal. They are bound to break
down at some point and will need to be replaced or repaired. This
will become increasingly difficult as the pool of resource and the
energy supply available to the society shrinks. When the Soviet Union
collapsed, for instance, the Soviet equivalent of the Global
Positioning System, Glonass, was neglected by a government, which
struggled to pay for its own survival. It quickly fell in disrepair
and in 2001 only 6 satellites out of 24 were still in working order.
The system has since recovered, has Russia has done, but, but the
fate of Glonass shows what happens to complex infrastructure once the
society, which has built it can no longer maintain it.
You can
expect a similar evolution with the internet. First, the network will
become unable to keep up with the rising demand, and price measures
will be implemented to limit said demand – there already has been
attempts to do so, but governments, afraid of the impact upon the
public opinion, have managed to thwart them, so far.
Then, as
our ability to maintain our infrastructures declines, accidents will
happen and the Eliott effect will fragment the Internet, one cable at
the time. My opinion is that the transoceanic cables will be the
first to go, isolating whole regions and forcing them to go off-line
indefinitely or to organize their own continental version of the
Internet; Those localized Internets will then fragment further, due
to economic or political crisis, war or accident, losing usefulness
at every step of the process. At the end, the Internet will become a
collection of unconnected regional networks, with little added value
compared to a standard library, and will morph into a mere
administrative tool for whatever remains of the local governments.
At some
points, most such network fill fall in disrepair and be terminated,
as the Minitel (a French precursor of the Internet) will be in a few
days from now. Others may linger on, in particularly stable and rich
areas until the last digital computers die. Those networks will,
however, very different from those we are accustomed to, text-rich
rather than pictures rich, and you will be quite unlikely to find
your favorite movie on them – yes, even that kind of favorite
movie.
For my
French readers, it will be reminiscent of the Minitel (and yes, it
may include that kind of service) and of the text-based network
featured in Avalon. Needless to say, such shrunken networks won't
provide the “immaterial” economy with the market it needs to
thrive. It is bound to decline along with the Internet, probably
specializing in niche activities.
By the
way, the Dark Net won't fare any better. The Tor Network, Freenet or
the parallel networks used by mafias may be secretive , they rely
upon the same highly material infrastructures as the the rest of the
web and will fragment as they do, which will incidentally make them
far easier to monitor and control.
Then the
local equivalent of Eliott will spot a mouse on the other side of the
table and begin to leap around... and the rest of us will have to
learn to compute with cranks, valves and pumps.