Fusion Control Computer

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 simply consume the fuel, but instead processes them into a new item. It is also used as a machine to produce Platinum DustPlatinum Dust and Iridium OreIridium Ore.
It must be combined with a minimum of 16 Fusion CoilFusion Coils to create a usable fusion reactor.

Tier Generation Rate Input Output Storage
Insane 16.3k Energy per Tick1) 8.1k Energy per Tick 100k Energy per Tick2) 100M Energy to 2.1G Energy3)
techreborn:energy_flow_circuittechreborn:energy_flow_circuittechreborn:energy_flow_circuit
techreborn:energy_crystaltechreborn:fusion_coiltechreborn:energy_crystal
techreborn:energy_flow_circuittechreborn:energy_flow_circuittechreborn:energy_flow_circuit
->
minecraft:crafting_table
techreborn:fusion_control_computer
  • It provides an adjustable hologram of the various sizes of multi-block with the H button on the item's menu. Togglable on and off.
  • Outputs energy on the top and bottom while crafting.
  • Inputs energy on the sides while not crafting.
  • Must be charged with energy before using for a power generating recipe; see the Minimum Energy Required column in the Fuel/Input section below.
  • Input A and Input B must be in a Cell and not a BucketBucket. These cells will also be consumed by the machine when the reaction starts.
  • Minimum Energy Required is energy that must exist in the computer to start the process, and it will be immediately consumed (if available) when the ingredients are placed in their slots. Fortunately the impact of this is reduced as you build larger and larger fusion reactors, as the Energy Produced scales up while the energy consumed to start the reactor is always constant.
  • Output is the resulting item that is created with the fusion of the other two items. If necessary, it will be created within a Cell (this does not have to be provided by the player).
  • Energy Produced is the amount of energy the reactor will create in the process of making the output resource. This is typically multiplied by the reactor size (see the Power Generation table below).
  • Energy Consumed is the amount the reactor requires to continue to produce certain items.
Input A Input B Minimum Energy Required Output Energy Produced
Deuterium CellDeuterium Cell + Tritium CellTritium Cell + 40M Energy = Helium3 CellHelium3 Cell + 16,364 E/t * 2048 ticks = 33,554,433 E * Gen Multiplier
Deuterium CellDeuterium Cell + Helium3 CellHelium3 Cell + 40M Energy = Heliumplasma CellHeliumplasma Cell + 16,364 E/t * 2048 ticks = 33,554,433 E * Gen Multiplier

The following recipes consume power at 2048 E/t.4)

Input A Input B Minimum Energy Required Energy Consumed Output
Wolframium CellWolframium Cell + Beryllium CellBeryllium Cell + 80M Energy + 2048 E/t * 1024 ticks = 2,097,152 E = Platinum DustPlatinum Dust
Wolframium CellWolframium Cell + Lithium CellLithium Cell + 90M Energy + 2048 E/t * 1024 ticks = 2,097,152 E = Iridium OreIridium Ore

Power Generation Table

Size Fusion Coils Required Generation Multiplier Energy Generated per Tick5) Total Energy Generated6) Max Capacity7) Percent of Capacity8)
6 16 1.00 16.3k 33.5M 100M 34%
7 16 1.74 28.5k 58.3M 174M 34%
8 24 3.61 59.1k 121.1M 361M 34%
9 24 6.06 99.2k 203.3M 606M 34%
10 28 9.06 148.4k 304.0M 906M 34%
11 36 12.58 206.1k 422.1M 1.2G 34%
12 40 16.60 271.9k 557.0M 1.6G 34%
13 48 21.11 345.8k 708.3M 2.1G 34%
14 64 26.10 427.6k 875.7M 2.1G 41%
15 64 31.55 516.9k 1.0G 2.1G 49%
16 70 37.45 613.5k 1.2G 2.1G 59%
17 70 43.80 717.6k 1.4G 2.1G 68%
18 92 50.59 828.8k 1.6G 2.1G 79%
19 108 57.81 947.1k 1.9G 2.1G 90%
20 120 65.45 1.0M 2.1G 2.1G 102%
21 232 73.52 1.2M 2.4G 2.1G 115%
22 304 81.99 1.3M 2.7G 2.1G 128%
23 324 90.88 1.4M 3.0G 2.1G 142%
24 388 100.17 1.6M 3.3G 2.1G 157%
25 412 109.86 1.7M 3.6G 2.1G 172%
26 452 119.94 1.9M 4.0G 2.1G 187%
27 508 130.42 2.1M 4.3G 2.1G 204%
28 588 141.28 2.3M 4.7G 2.1G 221%
29 652 152.53 2.4M 5.1G 2.1G 238%
30 708 164.16 2.6M 5.5G 2.1G 257%
31 764 176.17 2.8M 5.9G 2.1G 275%
32 852 188.55 3.0M 6.3G 2.1G 295%
33 868 201.30 3.2M 6.7G 2.1G 315%
34 928 214.43 3.5M 7.1G 2.1G 335%
35 984 227.92 3.7M 7.6G 2.1G 356%
36 1,080 241.78 3.9M 8.1G 2.1G 378%
37 1,112 256.00 4.1M 8.5G 2.1G 400%
38 1,252 270.58 4.4M 9.0G 2.1G 423%
39 1,260 285.52 4.6M 9.5G 2.1G 446%
40 1,368 300.81 4.9M 10.0G 2.1G 470%
41 1,632 316.46 5.1M 10.6G 2.1G 494%
42 1,896 332.46 5.4M 11.1G 2.1G 519%
43 2,000 348.80 5.7M 11.7G 2.1G 545%
44 2,192 365.50 5.9M 12.2G 2.1G 571%
45 2,332 382.54 6.2M 12.8G 2.1G 598%
46 2,560 399.93 6.5M 13.4G 2.1G 625%
47 2,696 417.66 6.8M 14.0G 2.1G 653%
48 2,888 435.73 7.1M 14.6G 2.1G 681%
49 2,944 454.13 7.4M 15.2G 2.1G 710%
50 3,172 472.88 7.7M 15.8G 2.1G 739%

1)
Base Generation Rate - can be many multiples of this depending on the size of the reactor; see the Power Generation table below.
2)
This may be the sign of a bug, since there is no way to output power with cables.
3)
Scales with the generation multiplier. Ex. 1.74x = 174M Energy storage. Capped at 2.1G Energy.
4)
There is currently a bug in 1.16.5+ where these two recipes actually produce energy instead of consuming it [after the initial Minimum Energy Required]. This energy however doesn't scale with the multiplier of the system, so it will always be a flat 2,097,152 Energy [2048 Energy * 1024 ticks].
5) , 6)
Rounded Down
7)
Capped at 2,147,483,647 Energy
8)
Total Power Generated divided by Max Capacity, rounded to nearest whole percent
  • Last modified: 2021/07/08 02:26
  • by wdavery