Difference between revisions of "Gem-gum factory design parameters"

From apm
Jump to: navigation, search
m (Intentionally deviating from continuity of throughput)
(Intentionally deviating from continuity of throughput across assembly levels: activated some links)
Line 29: Line 29:
 
=== Intentionally deviating from continuity of throughput across assembly levels ===
 
=== Intentionally deviating from continuity of throughput across assembly levels ===
  
Even significantly deviating from [[continuity of througput]] <br>
+
Even significantly deviating from [[Level throughput balancing|continuity of througput]] <br>
 
across [[assembly level boundaries]] can have merits.
 
across [[assembly level boundaries]] can have merits.
  
Line 37: Line 37:
  
 
Why? Because even if upper [[assembly level]]s are underutilized <br>
 
Why? Because even if upper [[assembly level]]s are underutilized <br>
when all of the product is [[mechanosynthesized]] de-novo from scratch <br>
+
when all of the product is [[piezomechanosynthesis|mechanosynthesized]] de-novo from scratch <br>
 
when production instead is combined with recompositional [[recycling]] instead <br>
 
when production instead is combined with recompositional [[recycling]] instead <br>
 
then some or all of excess capacity can be utilized.
 
then some or all of excess capacity can be utilized.

Revision as of 16:54, 28 August 2022


Whole numbered parameters:

Unitless factors

  • F … Chamber to part size ratio
  • C … Scaling factor (near one) for average distance traveled per one-part-placed
  • D … Scaling factor (slightly above one) for chip-area per chamber-area

(wiki-TODO: Reslove conflict with D on page …)


  • Q or T … Throughput – in m³/s

Many design parameters can be different for each assembly level.
That is: The design parameters can be indexed by the assembly level.

Live adjustable parameters

  • v_A … speed of assembly motions
  • v_T … speed of transport motions

On the assembly level throughput parameter

In order to avoid unusable capacities it seems desirable to design for
continuity of throughput across assembly level boundaries.
See: Nanofactory math based on continutiy of throughput
This is just good as a first approximation though.

Intentionally deviating from continuity of throughput across assembly levels

Even significantly deviating from continuity of througput
across assembly level boundaries can have merits.

So the case for assembly level boundaries ...

Why? Because even if upper assembly levels are underutilized
when all of the product is mechanosynthesized de-novo from scratch
when production instead is combined with recompositional recycling instead
then some or all of excess capacity can be utilized.

Related