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Fusion Control Computer
The Fusion Control Computer is part of a multi-block generator that produces energy from various fluids. It is unique in that it does not consume the fuel, but instead processes them into a new item. It is also used as a machine to produce Platinum Dust and Iridium Ore.
It must be combined with a minimum of 16 Fusion Coils to create a usable fusion reactor.
Tier | Generation Rate | Input | Output | Storage |
---|---|---|---|---|
Insane | 16 kE/t1 | 8 kE/t | 100,000 E/t | 100 mE - 2.1 gE2 |
1Base generation rate. Can be many multiples of this depending on the size of the reactor; see Power Generation table below
2Scales with the generation multiplier. Ex. 1.74x = 174 mE storage. Capped at 2.1 gE. Note to wiki editors: these values are the only values on this page that are not powers of two and will need to be updated
Fuel/Input
These recipes generate power based on the reactor size, as shown below in the Power Generation table.
Input A | Input B | Output | ||
---|---|---|---|---|
Deuterium Cell | + | Tritium Cell | = | Helium3 Cell |
Deuterium Cell | + | Helium3 Cell | = | Heliumplasma Cell |
These recipes consume power at 2048 E/t.
Input A | Input B | Output | ||
---|---|---|---|---|
Wolframium Cell | + | Beryllium Cell | = | Platinum Dust |
Wolframium Cell | + | Lithium Cell | = | Iridium Ore |
Power Generation
Size | Fusion Coils Required | Generation Multiplier | Generation Rate3 |
---|---|---|---|
6 | 16 | 1x | 16 kE/t |
7 | 16 | 1.74x | 27.8 kE/t |
8 | 24 | 3.61x | 57.8 kE/t |
9 | 24 | 6.06x | 97 kE/t |
10 | 28 | 9.06x | 145 kE/t |
11 | 36 | 12.58x | 201.3 kE/t |
12 | 40 | 16.6x | 265.6 kE/t |
13 | 48 | 21.11x | 337.8 kE/t |
14 | 64 | 26.1x | 417.6 kE/t |
15 | 64 | 31.55x | 504 kE/t |
16 | 70 | 37.45x | 599.2 kE/t |
17 | 70 | 43.8x | 700.8 kE/t |
18 | 92 | 50.59x | 809.4 kE/t |
19 | 108 | 57.81x | 925 kE/t |
20 | 120 | 65.45x | 1.02 mE/t |
21 | 232 | 73.52x | 1.15 mE/t |
22 | 304 | 81.99x | 1.28 mE/t |
23 | 324 | 90.88x | 1.42 mE/t |
24 | 388 | 100.17x | 1.57 mE/t |
25 | 412 | 109.86x | 1.72 mE/t |
26 | 452 | 119.94x | 1.87 mE/t |
27 | 508 | 130.42x | 2.04 mE/t |
28 | 588 | 141.28x | 2.21 mE/t |
29 | 652 | 152.53x | 2.38 mE/t |
30 | 708 | 164.16x | 2.57 mE/t |
31 | 764 | 176.17x | 2.75 mE/t |
32 | 852 | 188.55x | 2.95 mE/t |
33 | 868 | 201.3x | 3.15 mE/t |
34 | 928 | 214.43x | 3.35 mE/t |
35 | 984 | 227.92x | 3.56 mE/t |
36 | 1080 | 241.78x | 3.78 mE/t |
37 | 1112 | 256x | 4 mE/t |
38 | 1252 | 270.58x | 4.23 mE/t |
39 | 1260 | 285.52x | 4.46 mE/t |
40 | 1368 | 300.81x | 4.7 mE/t |
41 | 1632 | 316.46x | 4.94 mE/t |
42 | 1896 | 332.46x | 5.19 mE/t |
43 | 2000 | 348.8x | 5.45 mE/t |
44 | 2192 | 365.5x | 5.71 mE/t |
45 | 2332 | 382.54x | 5.98 mE/t |
46 | 2560 | 399.93x | 6.25 mE/t |
47 | 2696 | 417.66x | 6.53 mE/t |
48 | 2888 | 435.73x | 6.81 mE/t |
49 | 2944 | 454.13x | 7.1 mE/t |
50 | 3172 | 472.88x | 7.39 mE/t |
3These values are based in powers of 2.
1024 E = 1 kE
1024 kE = 1 mE
1024 mE = 1 gE
Recipe
Usage
- It provides an adjustable hologram of the various sizes of multi-block.
- Outputs energy on the top and bottom
- Inputs energy on the sides