Difference between revisions of "Mechadense's Wiki about Atomically Precise Manufacturing"

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(moved down the two links at the top to a more suitable priority location)
(Dodge the trapdoors: made bullet-point intros bold and improved text)
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First off: Let's get the major obstacles out of the way.
 
First off: Let's get the major obstacles out of the way.
* There are no "nanobots" here! Check the info page "[[Prime distractions]]".
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* '''There are no "nanobots" here!''' <br>Check the info page "[[Prime distractions]]".
* Macroscale style machinery at the nanoscale.<br> It's well known, that there are several severe concerns regarding this idea. And for very good reasons.<br> Less known is, that all of those major concerns have been considered in quite some detail with rather surprising results. Check out the [[Macroscale style machinery at the nanoscale|main article]] discussing the concerns.
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* '''Macroscale style machinery at the nanoscale?!'''<br> It's well known, that there are several severe concerns regarding this idea. And for very good reasons.<br> Less known is, that all of those major concerns have been considered in quite some detail with rather surprising results. Check out the [[Macroscale style machinery at the nanoscale|main article]] discussing the concerns.
* This is NOT about becoming able to make every structure that is permitted by physical law. Quite the contrary actually. It's even encoded in the (here used) name "gem-gum-tec" within the "gem" and "gum" parts. For details see: [[The defining traits of gem-gum-tec]].
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* '''No, making every structure permitted by physical law is NOT the goal here.''' Quite the contrary actually. What we want is to cheat and make it seem as if we could. It's even encoded in the name that this wiki uses to refer to the far term target. Specifically in the "gem" and "gum" parts in "gem-gum-tec". For details check out: [[The defining traits of gem-gum-tec]].
  
 
== What APM is not ==
 
== What APM is not ==

Revision as of 10:17, 15 July 2018

Language: en | Sprache: de

The far term target

A personal desktop gem-gum factory fabblet with dynamically deployed protective hood.

The personal gem gum factory is:

  • Your personal device that can push out virtually every thing* of your daily use.
    (* at least every inedible thing)

The personal gem gum factory makes:

  • Your products that are as cheap as the abundant mining-free raw materials that it processes.
  • Your products that are far superior to today's best and ridiculously expensive high tech products.
  • Your products potentially in an environmentally friendly effluent free way
    (also advanced recycling is faster than producing from scratch)
Graphical Infosheets: [1] (work in progress)

The existence of a personal fabricator will have profound impact human society on a global scale. The basis for such a personal fabricator - the atomically precise manufacturing (APM) technology - is beginning to be figured out today.

Dodge the trapdoors

First off: Let's get the major obstacles out of the way.

  • There are no "nanobots" here!
    Check the info page "Prime distractions".
  • Macroscale style machinery at the nanoscale?!
    It's well known, that there are several severe concerns regarding this idea. And for very good reasons.
    Less known is, that all of those major concerns have been considered in quite some detail with rather surprising results. Check out the main article discussing the concerns.
  • No, making every structure permitted by physical law is NOT the goal here. Quite the contrary actually. What we want is to cheat and make it seem as if we could. It's even encoded in the name that this wiki uses to refer to the far term target. Specifically in the "gem" and "gum" parts in "gem-gum-tec". For details check out: The defining traits of gem-gum-tec.

What APM is not

While early APM may have overlap with these areas the far term goals are very different.

What APM actually is

APM is basically the capability of manufacturing products such that the atoms they are constituted of link (bind) to each other in "exactly" the way one desires them to. Since "absolute exactness" in other words "making no errors ever" is a fundamental physical impossibility one just aims for extremely low error rates. On the long run error rates comparable to the bit-error-rates one can find in todays digital data processing systems.

APM in the near term and APM in the far term

  • On this wiki "atomically precise manufacturing" (or APM) will be interpreted in a wider sense. Including both earlier precursor systems in the near term and the targeted later systems in the far term.
  • On this wiki the shorthand "gem-gum technology" will be used to refer to the far term target.
    A technically accurate description of the far term target technology would be:
    "atomically resolving gemstone based metamaterial manufacturing and technology"

For more details see the main article:
Near term and far term.

Take a tour

Take a guided tour: START (work in progress)
Or take a shortcut directly from here:

What, Why, How, When

DEFINITION: About APM What APM is not and what it is.
MOTIVATION: Reasons for APM Why we need APM.
OBSTACLES: conceptual and institutional challenges What impedes progress towards APM.
APPROACH: Pathways to advanced APM How we get to advanced APM.
PROGRESSION: Time till advanced APM When we will get to advanced APM?

Also there are:

Misc:

  • Intro: Here is an old version of the landing page. Containing a detailed introduction to atomically precise manufacturing as a whole. (warning, lots of text)

Links

Webpages

Brief introduction videos




Locally hosted files