Difference between revisions of "Crystolecule routing layer"
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Since [[crystolecule]]s are smaller than [[microcomponent]]s <br> | Since [[crystolecule]]s are smaller than [[microcomponent]]s <br> | ||
More standard parts and less variation is to expect. <br> | More standard parts and less variation is to expect. <br> | ||
| − | This is why [[assembly line assembly]] supplying | + | This is why in [[assembly level 1]] [[assembly line assembly]] <br> |
| + | supplying streams of standard parts is practical <br> | ||
and why the [[crystolecule routing layer]] has to deal with this. | and why the [[crystolecule routing layer]] has to deal with this. | ||
[[Category:Stub]] | [[Category:Stub]] | ||
| + | |||
| + | == Related == | ||
| + | |||
| + | * Up: [[Routing layer]] | ||
| + | * Next: [[Microcomponent routing layer]] | ||
Latest revision as of 09:58, 29 August 2022
- Information can be found in nanosystems (redundancy considerations)
The crystolecule routing layer is the routing layer of assembly level 1.
Downstream product side, as per here taken convention for routing layers.
Assuming highly specialized production lines in assembly level 1,
the crystolecule routing layer is critically important for
multiplexing those homogeneous streams of crystolecules into heterogeneous streams
for further assembly in the next higher assembly level, assembly level 2.
Since crystolecules are smaller than microcomponents
More standard parts and less variation is to expect.
This is why in assembly level 1 assembly line assembly
supplying streams of standard parts is practical
and why the crystolecule routing layer has to deal with this.
Related
- Up: Routing layer
- Next: Microcomponent routing layer
