Space Elevator

The Space Elevator is a modular structure. It can be equipped with Space Elevator modules, which then can take on different tasks.

Construction
For general construction refer to the Multiblock Structure Hologram Projector.

The Space Elevator has up to 12 module slots that can be used. The first 6 slots are free, while you need atleast MK-II motors to unlock the next 3. MK-III motors unlock all slots. The motor tier also determins the module tier that you can use. The IO is not shared between modules, each module only sees their own slots IO. Energy is only provided to the central structure of the Space Elevator and then automatically distributed to all modules.

The Space Elevator Cable also must not be obstructed.

Usage
After a module has been inserted and supplied with the right IO, it can be configured further using a Parametrizer. Without a Parametrizer you can't use the full potential of your modules.

Space Pumping Module
The Space Pumping Module needs to be supplied with a Rocket Control Computer in its GUI slot. Then you can select the gas type that should be pumped using the Parametrizer. The module consumed 1A UHV to work. Following fluids can be pumped:

Space Mining Module
The Space Mining Module needs to supplied with a drone, which will act as catalyst, a set of input items, computation and either Helium, Bismuth or Radon plasma. The plasma will boost both the recipe time and the amount of bonus stacks you get out of a recipe.

The module has these parameters that can be manipulated with a Parametrizer:
 * Parallels: How many parallels the machine should do (Max 2 for MK-I, 4 for MK-II and 8 for MK-III)
 * Overdrive: Affects the speed and the chances for bonus outputs. 1 is default
 * Distance: Affects the outputs you get. The NEI handler tells you which recipe has which distance

When multiple recipes have the same input and you have the distance set to a value that they share, the module will pick a random one, taking the recipes weights into consideration.

The output chance is calculated as follows: arg((50% + 10% * (plasmaTier - 1) * (2 - overdrive)), 75%)

The recipe time is calculated as follows: arg((1 - 0.1 * (plasmaTier - 1)) / overdrive, 0.5) * recipeTime