File:ConvergentAssemblyThroughputScalingLaw-compressed.jpg

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Revision as of 13:38, 1 March 2024 by Apm (Talk | contribs) (Author: Lukas M.Süss aka mechadense <br> (already in the image, no extra citing needed) License: CC-BY-SA 4.0 <br> '''Description:''' <br> This graphic is for illustrating the scaling law: <br> Higher throughput of smaller machinery <br> Chosen h...)

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Original file(2,349 × 1,575 pixels, file size: 198 KB, MIME type: image/jpeg)

Author: Lukas M.Süss aka mechadense
(already in the image, no extra citing needed) License: CC-BY-SA 4.0

Description:
This graphic is for illustrating the scaling law:
Higher throughput of smaller machinery
Chosen here is a branching factor of four.

While this is related to convergent assembly in the form of assembly layers.
This specific topology and geometry does not match any concretely proposed designs.
Actually proposed designs (due to being identified as sensible targets by exploratory engineering)
have significant deviations from this.
– Some slowdown deviating from constant speeds (yes speeds are constant in this one, frequencies are not)
– multi-layers a(See: Sub-layer and Optimal sublayernumber for minimal friction)
– factory style assembly at the very bottom
The entire hierarchy may be rather short.

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current13:38, 1 March 2024Thumbnail for version as of 13:38, 1 March 20242,349 × 1,575 (198 KB)Apm (Talk | contribs)Author: Lukas M.Süss aka mechadense <br> (already in the image, no extra citing needed) License: CC-BY-SA 4.0 <br> '''Description:''' <br> This graphic is for illustrating the scaling law: <br> Higher throughput of smaller machinery <br> Chosen h...
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