Difference between revisions of "Design levels"

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(System level design)
(Atomistic level design)
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== Atomistic level design  ==
 
== Atomistic level design  ==
  
This is the art of designing [[diamondoid]] molecular elements [[diamondoid molecular elements|DMEs]]
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This is the art of designing [[diamondoid]] molecular elements [[diamondoid molecular elements|DMEs]]. <br>
To do so there was developed a great software tool called [nanoengineer-1]
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To do so there was developed a useful software tool called '''Nanoengineer-1''' [http://sourceforge.net/projects/moleculardynami/files/NanoEngineer/] [http://diyhpl.us/~bryan/irc/nanoengineer/snapshots/]
  
 
== Lower bulk limit design  ==
 
== Lower bulk limit design  ==

Revision as of 14:40, 4 December 2013

Atomistic level design

This is the art of designing diamondoid molecular elements DMEs.
To do so there was developed a useful software tool called Nanoengineer-1 [1] [2]

Lower bulk limit design

Bigger structures where atomic detail may matter less or which are simply not simulatable yet because of limited computation power may be designd with conventional methods of solid modelling.

A vew issues have to be thought about though:

  • Since we operate on the lowermust size level there needs to be set a minimum wall thickness that must not be deceeded
  • surfaces should be kept parallel to the main crystallographic faces such that they will not create random steps when auto-filled with virtual atoms.

[todo add links to demo collection]

System level design

This sort of design involves one or more of:

  • three dimensional placement of huge amounts of standard components
  • topological interconnections
  • temporal organisation in a dynamic setting
  • IO logistics of all the media to handle
  • emulation of physical (especially mechanical) properties

For products it is especially relevant in the design of the (yet speculative) advanced metamaterials.
Examples are: elasticity emulation; infinitesimal gear bearings; organisation of recycling; legged block mobility ...

In AP manufacturing systems it determines the mapping of the abstract assembly levels into a concrete three dimensional layout of a nanofactory.
Today (2013) it is rather diffecult to do work on this area. Lots of questions need to be answerded.