Supply Calculator for Quad-Mode ROS Machines Regarding Four Output Belts

Supplied belts per layer (max: 4)	Supplied launchers of R, G and B fluids per layer
Circle (31.5%) Rectangle (31.5%) Star (27%) Wiamond (10%)	For ROS#0 machines max: 4 For ROS#1 machines max: 12

(The probability of a quadrant being Wiamond is 10%.)

(The ROS#1 input includes fluid for painting and crystal generation.)

(Assuming the machine uses conventional color mixing: extra primary colors are not mixed, 2x secondary and 3x white can be mixed.)

Expected productivity measured by time

	1 Layer	2 Layers	3 Layers	4 Layers	5 Layers
ROS#0
ROS#1
ROS#1 Smart

("Smart" is for smart crystallization: when consecutive crystallizations use the same color, only the final one is executed. Pins must be placed to prevent drops in the skipped layers.)

Pinned shapes are excluded from the computation, as their presence would only lower the resulting values due to omitted shape parts in excess layers.

The calculation is based on the assumption that output is constrained by the resource with the lowest supply-to-requirement ratio. (The reality is probably not so ideal)

Other assumptions

supply is shared between layers
every consumed input shape is fully utilized (e.g., no half destroyers are used)
only full shapes are being painted
no other bottleneck

Supply Calculator for Quad-Mode ROS Machines Regarding Four Output Belts

Supplied belts per layer (max: 4)

Supplied launchers of R, G and B fluids per layer

Expected productivity measured by time