ALL items are scanned by both IP3 and IP8 simultaneously and can't be avoided.
EVERYTHING is labelled 1 by IP8 and will be rejected.
So, what to do?
If EVERYTHING is scanned by IP8 and labelled 1 for rejection, and this scanning can't be avoided, what is the use of IP3?
IP3 detects Correctly Assembled items...
IP8 detects EVERYTHING with metal (Completely Assembled items and Pegs) and labels 1 for rejection.
So, what to do?
Use IP3 to identify Correctly Assembled items and use it to delete the 1 allocated to them in the register and thereby avoid rejection!
The 1 generated by IP8 for Completely Assembled items has to be erased (i.e. turned to zero) before they reach the location in the register that triggers the rejection piston OP3.
That is the purpose of IP3.
If everything is labelled 1 for rejection by IP8, then, IP3 can be used to remove this from Correctly Assembled items:
Thus avoiding rejection of Correctly Assembled items.
EVERYTHING is labelled 1 by IP8 and will be rejected.
So, what to do?
If EVERYTHING is scanned by IP8 and labelled 1 for rejection, and this scanning can't be avoided, what is the use of IP3?
IP3 detects Correctly Assembled items...
IP8 detects EVERYTHING with metal (Completely Assembled items and Pegs) and labels 1 for rejection.
So, what to do?
Use IP3 to identify Correctly Assembled items and use it to delete the 1 allocated to them in the register and thereby avoid rejection!
The 1 generated by IP8 for Completely Assembled items has to be erased (i.e. turned to zero) before they reach the location in the register that triggers the rejection piston OP3.
That is the purpose of IP3.
If everything is labelled 1 for rejection by IP8, then, IP3 can be used to remove this from Correctly Assembled items:
Thus avoiding rejection of Correctly Assembled items.