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Friday, October 21, 2016

Reading List: Come and Take It

Wilson, Cody. Come and Take It. New York: Gallery Books, 2016. ISBN 978-1-4767-7826-6.
Cody Wilson is the founder of Defense Distributed, best known for producing the Liberator single-shot pistol, which can be produced largely by additive manufacturing (“3D printing”) from polymer material. The culmination of the Wiki Weapon project, the Liberator, whose plans were freely released on the Internet, demonstrated that antiquated organs of the state who thought they could control the dissemination of simple objects and abridge the inborn right of human beings to defend themselves has been, like so many other institutions dating from the era of railroad-era continental-scale empires, transcended by the free flow of information and the spontaneous collaboration among like-minded individuals made possible by the Internet. The Liberator is a highly visible milestone in the fusion of the world of bits (information) with the world of atoms: things. Earlier computer technologies put the tools to produce books, artwork, photography, music, and motion pictures into the hands of creative individuals around the world, completely bypassing the sclerotic gatekeepers in those media whose offerings had become all too safe and predictable, and who never dared to challenge the economic and political structures in which they were embedded.

Now this is beginning to happen with physical artifacts. Additive manufacturing—building up a structure by adding material based upon a digital model of the desired object—is still in its infancy. The materials which can be used by readily-affordable 3D printers are mostly various kinds of plastics, which are limited in structural strength and thermal and electrical properties, and resolution has not yet reached that achievable by other means of precision manufacturing. Advanced additive manufacturing technologies, such as various forms of metal sintering, allow use of a wider variety of materials including high-performance metal alloys, but while finding applications in the aerospace industry, are currently priced out of the reach of individuals.

But if there's one thing we've learned from the microelectronics and personal computer revolutions since the 1970s, it's that what's scoffed at as a toy today is often at the centre of tomorrow's industrial revolution and devolution of the means of production (as somebody said, once upon a time) into the hands of individuals who will use it in ways incumbent industries never imagined. The first laser printer I used in 1973 was about the size of a sport-utility vehicle and cost more than a million dollars. Within ten years, a laser printer was something I could lift and carry up a flight of stairs, and buy for less than two thousand dollars. A few years later, laser and advanced inkjet printers were so good and so inexpensive people complained more about the cost of toner and ink than the printers themselves.

I believe this is where we are today with mass-market additive manufacturing. We're still in an era comparable to the personal computer world prior to the introduction of the IBM PC in 1981: early adopters tend to be dedicated hobbyists such as members of the “maker subculture”, the available hardware is expensive and limited in its capabilities, and evolution is so fast that it's hard to keep up with everything that's happening. But just as with personal computers, it is in this formative stage that the foundations are being laid for the mass adoption of the technology in the future.

This era of what I've come to call “personal manufacturing” will do to artifacts what digital technology and the Internet did to books, music, and motion pictures. What will be of value is not the artifact (book, CD, or DVD), but rather the information it embodies. So it will be with personal manufacturing. Anybody with the design file for an object and access to a printer that works with material suitable for its fabrication will be able to make as many of that object as they wish, whenever they want, for nothing more than the cost of the raw material and the energy consumed by the printer. Before this century is out, I believe these personal manufacturing appliances will be able to make anything, ushering in the age of atomically precise manufacturing and the era of Radical Abundance (August 2013), the most fundamental change in the economic organisation of society since the industrial revolution.

But that is then, and this book is about now, or the recent past. The author, who describes himself as an anarchist (although I find his views rather more heterodox than other anarchists of my acquaintance), sees technologies such as additive manufacturing and Bitcoin as ways not so much to defeat the means of control of the state and the industries who do its bidding, but to render them irrelevant and obsolete. Let them continue to legislate in their fancy marble buildings, draw their plans for passive consumers in their boardrooms, and manufacture funny money they don't even bother to print any more in their temples of finance. Lovers of liberty and those who cherish the creativity that makes us human will be elsewhere, making our own future with tools we personally understand and control.

Including guns—if you believe the most fundamental human right is the right to one's own life, then any infringement upon one's ability to defend that life and the liberty that makes it worth living is an attempt by the state to reduce the citizen to the station of a serf: dependent upon the state for his or her very life. The Liberator is hardly a practical weapon: it is a single-shot pistol firing the .380 ACP round and, because of the fragile polymer material from which it is manufactured, often literally a single-shot weapon: failing after one or at most a few shots. Manufacturing it requires an additive manufacturing machine substantially more capable and expensive than those generally used by hobbyists, and post-printing steps described in Part XIV which are rarely mentioned in media coverage. Not all components are 3D printed: part of the receiver is made of steel which is manufactured with a laser cutter (the steel block is not functional; it is only there to comply with the legal requirement that the weapon set off a metal detector). But it is as a proof of concept that the Liberator has fulfilled its mission. It has demonstrated that even with today's primitive technology, access to firearms can no longer be restricted by the state, and that crude attempts to control access to design and manufacturing information, as documented in the book, will be no more effective than any other attempt to block the flow of information across the Internet.

This book is the author's personal story of the creation of the first 3D printed pistol, and of his journey from law student to pioneer in using this new technology in the interest of individual liberty and, along the way, becoming somewhat of a celebrity, dubbed by Wired magazine “one of the most dangerous men in the world”. But the book is much more than that. Wilson thinks like a philosopher and writes like a poet. He describes a new material for 3D printing:

In this new material I saw another confirmation. Its advent was like the signature of some elemental arcanum, complicit with forces not at all interested in human affairs. Carbomorph. Born from incomplete reactions and destructive distillation. From tar and pitch and heavy oils, the black ichor that pulsed thermonous through the arteries of the very earth.

On the “Makers”:

This insistence on the lightness and whimsy of farce. The romantic fetish and nostalgia, to see your work as instantly lived memorabilia. The event was modeled on Renaissance performance. This was a crowd of actors playing historical figures. A living charade meant to dislocate and obscure their moment with adolescent novelty. The neckbeard demiurge sees himself keeling in the throes of assembly. In walks the problem of the political and he hisses like the mathematician at Syracuse: “Just don't molest my baubles!”

But nobody here truly meant to give you a revolution. “Making” was just another way of selling you your own socialization. Yes, the props were period and we had kept the whole discourse of traditional production, but this was parody to better hide the mechanism.

We were “making together,” and “making for good” according to a ritual under the signs of labor. And now I knew this was all apolitical on purpose. The only goal was that you become normalized. The Makers had on their hands a Last Man's revolution whose effeminate mascots could lead only state-sanctioned pep rallies for feel-good disruption.

The old factory was still there, just elevated to the image of society itself. You could buy Production's acrylic coffins, but in these new machines was the germ of the old productivism. Dead labor, that vampire, would still glamour the living.

This book recounts the history of the 3D printed pistol, the people who made it happen, and why they did what they did. It recounts recent history during the deployment of a potentially revolutionary technology, as seen from the inside, and the way things actually happen: where nobody really completely understands what is going on and everybody is making things up as they go along. But if the promise of this technology allows the forces of liberty and creativity to prevail over the grey homogenisation of the state and the powers that serve it, this is a book which will be read many years from now by those who wish to understand how, where, and when it all began.

Posted at October 21, 2016 00:57