X to Y belts distribution.

[Ksardas]

This setup distribute X to Y belts. 5 belts to 13. 7 to 50. 100 belts to 3 belts.
This setup distribute items on both belt sides.
It is not a balancer, but distributer! No one of input belts don't slow down when any of output belts sides are not filled.
You can add more input belts to the bottom and output belts to the right at any time without suspension.
There are 3 to 6:

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[vanatteveldt]

It is not a balancer, but distributer! No one of input belts don't slow down when any of output belts sides are not filled.

Looks fascinating, but I'm afraid I really don't understand that sentence. Could you describe what the distributor does / what assumptions it makes?

[Engimage]

It has N inputs and M outputs (the design is scalable to any values of N and M)
It DOES NOT balance outputs (neither belts nor lanes)
It just kinda works randomly in this manner. It will prioritize leftmost belts for left lane and rightmost belts for right lane.
It is useful in case your outputs are backed up or you don't care about balancing.
I also wonder how sideloading problems (0.16) are effecting this build as sideloading does not compress effectively now.
And obviously this design needs a lot of space. Progressively more with the number of inputs/outputs. Also it is really CPU heavy.

[Ksardas]

It just kinda works randomly in this manner. It will prioritize leftmost belts for left lane and rightmost belts for right lane.

It prioritize all input belts for LEFT side of LEFT output belt and RIGHT side of RIGHT output belt.

I also wonder how sideloading problems (0.16) are effecting this build as sideloading does not compress effectively now.

Can you show a topic of that problem?
You can add balancer for each input belt if needed.

And obviously this design needs a lot of space. Progressively more with the number of inputs/outputs. Also it is really CPU heavy.

Space grows like function of X * 6Y (Or M*6N).
When you have 100 outputs, then you get 100 + 3 of width. You can't have less width then number of outputs belts.
For each of input belt you get 6*Y of height.

[Ksardas]

Looks fascinating, but I'm afraid I really don't understand that sentence. Could you describe what the distributor does / what assumptions it makes?

It like balancer, but not . Each output belt NOT get the same number of plates. Otherwise it work like balancer.