The Anyfacturer is 1 assembler, 4 constructors and a lot of ports and smart splitters to make it very configurable.

It has 1 power hub with 2 spare connections, so multiple Anyfacturers can power each other.

It can be put on a manifold with an input belt running next to them (Parallel), or one Anyfacturer can be set up to feed its overflow to the next (Serial) in the chain.

One Anyfacturer can make stuff with multiple steps, such as Ingots into RIP. It can then send excess ingots plus its RIP to a second Anyfacturer, which makes Rods and combines them with the RIP into Modular Frames.

Anyfacturers can make stuff where one component doesn't require Constructors, for example Circuit boards, by using Bypass ports that go directly to the assembler.

And two of them can set up to send stuff back and forth to each other, to make very complicated things like Alien Remains into Nobelisks using Bio-Coal.

The Main Input is the merger pointing towards the player. Raw materials go in here. The Anyfacturer can also send stuff back here to give it a second pass, for example to make ingots into wires into cable. The Main Input sends stuff into the:

Input Splitter, it can send stuff Left, Right or Front.

Front goes straight to Output merger. This is normally where you send your Overflow.

Left and Right goes to:

Constructor splitters. They can be used to send things to specific constructors, or taken off the belt and sent somewhere else, for example to:

Bypass ports, these are the empty lifts in the back. Items sent in here will be merged with Constructor output and sent up to the Assembler, but first they go through:

Assembler splitters. Here you can take out the things the Assembler doesn't want, and send them to other places, for example to:

Output merger. This is where the Front of the Input splitter is merged with the output from the Assembler, but it has a third open slot you can put stuff in. And this merger sends to the:

Output. This is the merger on top of the input splitter. It points right, so you can chain Anyfacturers together, but is easy to yank off and point in another direction.

Here are some common configurations:

Rotor (with Cast Screws): Left constructors 50 Cast Screws each, right constructors 10 rods each, no change needed.

Rotor (standard):

Input splitter: Iron Ingots Right, Iron Rods Left.

Right constructors: 15 Rods each, or overclock to 22.5 for 100% efficiency.

Right Assembler splitter: Iron Rods Front, Iron Rods Left. Add lift and belt to connect its left hole back into Input.

Left constructors: 37.5 Screws each, or overclock to 50 for 100% efficiency.

RIP(with Cast Screws): Too easy.

RIP(standard):

Input splitter: Iron Ingots Right, Any Left

Right Constructors : 10 Iron Plate each, or 15 for 100% efficiency.

Left Constructor Splitter: Iron Ingots Right, Iron Rods Front.

Left Constructor Front: 10 Iron Rods, or 15 for 100% efficiency

Left Assembler Splitter: Screws Front, Iron Rods Right. Add lift and belt to connect its right hole back into Input.

Left Constructor Back: 40 Screws, or overclock to 60 for 100% efficiency.

Circuit Board (100% speed):

Input splitter: Copper Ingots Right, Plastic Left

Right constructors: 7.5 Copper Sheets each

Left constructors: Off

Left Constructor splitter: Plastic Left, None Front and Right. Add lift and belt to connect its left hole to Left Bypass port.

Circuit Board (200% speed):

Input splitter: Any Left, Any Right

All constructors: 7.5 Copper Sheets each

Left Bypass port: Put a merger on the lift.

Right Constructor splitter: Plastic right, Copper Ingots Front and Left. Add lift and belt connecting its right hole to merger on Left Bypass port.

Left Constructor splitter: Plastic left, Copper Ingots Front and Right. Add lift and belt connecting its left hole to merger on Left Bypass port.

Left Assembler splitter: Plastic Front, Copper Sheets Right. Add belt connecting its right hole to Right Bypass port.

Then either gigaclock assembler to 200%, or add a second assembler next to the Anyfacturer and do the following:

Right Assembler Splitter: Any Front, Overflow Left. Connect its left hole to input of second assembler.

Input Splitter: Overflow Front.

Output: Add a smart splitter taking Circuit Boards and Copper Ingots off the output belt. Connect output belt, now containing only Plastic, to second input of second assembler.

Happy anyfacturing!