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Balancer mechanics: Difference between revisions

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Balancers are used to evenly distribute items over multiple belts or multiple belt lanes.


Balancers are used to evenly distribute items over multiple belts or multiple belt lanes. Belt balancers are usually used to even out production by placing them in front of large machine arrays with mutiple input belts. They are also usually used to balance mutiple belts before or after train stations. Lane balancers are usually placed after production to ensure that a belt is fully compressed or before consumption to ensure that both lanes of the belt are evenly drained.
Balancers that are input balanced take evenly from all input belts/belt lanes. Balancers that are output balanced distribute evenly to all output belts/belt lanes. Ideally, a balancer should be input and output balanced.
= Lane Balancers =
== Input Unbalanced, Output Balanced ==
These balancers evenly distribute the items onto the output lanes but do not "pull" evenly from the input lanes when the output is backed up. They are input unbalanced.
The last two balancers are a special case, they only work when there are items on only one side of the input belt.


<gallery mode="packed" heights=200px>
== Belt balancers ==
File:Transport_belts_balance2.gif
File:Corner-lane_balancer.png
File:Transport_belts_balance1.gif
File:One_lane-corner-lane_balancer.png
</gallery>


== Input and Output Balanced ==
[[File:Balancer_Mechanics1.png|thumb|200px|right|1 full input belt gets split into two 50% full belts which get split into 4 belts that are each 25% full.]]
These balancers evenly distribute the items onto the output lanes and "pull" evenly from the input lanes when the output is backed up. They are input and output balanced.
Belt balancers utilize the mechanic that splitters output items in a 1:1 ratio onto both their output belts. That means that a splitter can be used to put an equal amount of items on two belts. Since the process can be repeated infinitely, balancers with 2<sup>n</sup> output belts are easy to create.  
=== 1 Belt ===
{{clear}}
[[File:Input_balanced-lane_balancer-1belt.png|127px|top]]
[[File:Balancer_Mechanics2b.png|thumb|450px|right|First the belts A and B go through a splitter so that the output belts contain an equal amount of items from each input belt (AB). The same is done with belts C and D. Then the mixed belts AB and CD go through splitters so that their output belts contain items from each input belt (ABCD)!]]
=== 2 Belts ===
Balancers also use the mechanic that splitters take an equal amount of items from both input belts. That means that a splitter connected to two input belts will evenly distribute those items onto the the two output belts. To balance belts it has to be made sure that the output belts contain an equal number of items from each input belt.
[[File:Input_balanced-lane_balancer-2belt.png|190px|top]]
{{clear}}
=== 4 Belts ===
[[File:Input_balanced-lane_balancer-4belt.png|top]]&nbsp;&nbsp; or &nbsp;&nbsp;
[[File:Input_balanced-lane_balancer-4belt-smaller.png|top]]


= Belt Balancers =
=== Throughput ===
Theses belt balancers are all tested to be input balanced and output balanced. Throughput under full load and min throughput with all combinations is also tested, it is stated when that is under 100%. Tests are done using [https://forums.factorio.com/viewtopic.php?f=69&t=34182 this handy tool] by d4rkpl4y3r on the Factorio Forums. When there are mutiple versions of balancers that have the same stats but different sizes the balancer with the smallest footprint is shown.
[[File:4to4_balancer_throughput_limit_demo.gif|right|262px]]
Balancers that are '''throughput limited''' may not be able to provide maximum output if one or more outputs are blocked. To be '''throughput ''un''limited''', a balancer must fulfil the following conditions:
#100% throughput under full load.
#Any arbitrary amount of input belts should be able to go to any arbitrary amount of output belts.


== 1 belt to x belts ==
Balancers often do not fulfill the second condition because of internal bottlenecks. The gif on the right shows a 4 &rarr; 4 balancer being fed by two belts, but only outputting one belt which means that its throughput in that arrangement is 50%. The bottleneck in this balancer is that the two middle belts only get input from one splitter. So, if only one side of that splitter gets input, as can be seen in the gif, it can only output one belt even though the side of the splitter is fed by a splitters which gets two full belts of input. In this particular case, the bottleneck can be fixed by feeding the two middle output belts with more splitters. This is done by adding two more splitters at the end of the balancer, as it can be seen here: [[File:4to4_balancer.png|center|125px]]


=== 1 to 2 ===
However most balancers' bottlenecks can't be solved as easily. A guaranteed method to achieve throughput unlimited balancers is to place two balancers back to back that fulfil the first condition for throughput unlimited balancers (100% throughput under full load). The resulting balancer is usually larger than a balancer that was initially designed to be throughput unlimited. This is the case because they use more splitters than the minimum required amount of splitters for a throughput unlimited balancer. For n &rarr; n balancers where n is a power of two numbers, <code>n×log<sub>2</sub>(n)−n÷2</code> can be used to calculate how many splitters are needed. This formula is based on the number of nodes in a [[WIKIPEDIA:Clos_network#Bene%C5%A1_network_(m_=_n_=_2)|Beneš network]], which is essentially the same as a throughput unlimited balancer — it allows any input to reach any output.
[[File:1to2_balancer.png|frame|left]]
<br clear=all>
=== 1 to 3 ===
[[File:1to3_balancer.png|frame|left]]
<br clear=all>
=== 1 to 4 ===
[[File:1to4_balancer.png|frame|left]]
<br clear=all>
=== 1 to 5 ===
[[File:1to5_balancer.png|frame|left]]
<br clear=all>
=== 1 to 6 ===
[[File:1to6_balancer.png|frame|left]]
<br clear=all>
=== 1 to 7 ===
[[File:1to7_balancer.png|frame|left]]
<br clear=all>
=== 1 to 8 ===
[[File:1to8_balancer.png|frame|left]]
<br clear=all>
=== 1 to 16 ===
[[File:1to16_balancer.png|frame|left]]
<br clear=all>


== 2 belts to x belts ==
=== Universal balancers ===
Many balancers fail to balance properly once an output backs up or if an output is not used. In essence this means that an n-n balancer is not a functional n-(n-1) balancer. Sometimes this can be fixed by looping the unused output back around the balancer and distributing it among the inputs. Other times, this is not an option. Universal balancers solve this issue by having the back-looping built in. These balancers can balance evenly between any inputs and any outputs. Universal balancers can be throughput limited. If a universal balancer is throughput limited, the bottleneck may be in the loops or the balancer itself. A throughput limited universal balancer may only have the capacity for a few unused outputs. When more than the number of allowed outputs backs up, the universal balancer behaves like a normal balancer, and may not balance properly. {{clear}}


=== 2 to 1 ===
== Lane balancers ==
[[File:2to1_balancer.png|frame|left]]
[[File:Lane_balancer_mechanics.png|thumb|right|This output balanced lane balancer distributes the items evenly among the output lanes, achieving output balance.]]
<br clear=all>
Lane balancers may be output balanced or input balanced. Input balanced lane balancers draw evenly from each side of the input belt, while output balanced lane balancers output evenly onto each lane of the output belt. {{clear}}
=== 2 to 2 ===
[[File:2to2_balancer.png|frame|left]]
<br clear=all>
=== 2 to 3 ===
<div><ul>
<li style="display: inline-block;"> [[File:2to3_balancer_a.png|frame|none|Throughput can go down to 75%.]] </li>
<li style="display: inline-block;"> [[File:2to3_balancer_b.png|frame|none|Throughput can go down to 75%. This version has a smaller height but is two tiles wider.]] </li>
</ul></div>
=== 2 to 4 ===
[[File:2to4_balancer.png|frame|left]]
<br clear=all>
=== 2 to 5 ===
<div><ul>
<li style="display: inline-block;"> [[File:2to5_balancer_b.png|frame|none|Throughput can go down to 50%.]] </li>
<li style="display: inline-block;"> [[File:2to5_balancer.png|frame|none|Throughput can go down to 50%. This version has a smaller width but is higher.]] </li>
=== 2 to 6 ===
[[File:2to6_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 2 to 7 ===
[[File:2to7_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 2 to 8 ===
[[File:2to8_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 2 to 16 ===
[[File:2to16_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>


== 3 belts to x belts ==
== See also ==
 
* [[Belt transport system]]
=== 3 to 1 ===
** [[Splitters]]
[[File:3to1_balancer.png|frame|left|Throughput can go down to 50%.]]
** [[Transport belts]]
<br clear=all>
** [[Underground belts]]
=== 3 to 2 ===
== Further reading ==
[[File:3to2_balancer.png|frame|left|Throughput can go down to 75%.]]
* [https://forums.factorio.com/34182 Command line belt balancer analyzer]
<br clear=all>
* [https://forums.factorio.com/viewtopic.php?p=344279#p344279 Fractal (2<sup>n</sup>) balancer generation tool]
=== 3 to 3 ===
* [https://forums.factorio.com/61424 Belt Balancers - how they work and how to make them]
[[File:3to3_balancer.png|frame|left|Throughput can go down to 50%.]]
* [https://forums.factorio.com/63462 Finding balance: A guide to belt balancers]
<br clear=all>
=== 3 to 4 ===
[[File:3to4_balancer.png|frame|left|Throughput can go down to 83%.]]
<br clear=all>
=== 3 to 5 ===
[[File:3to5_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 3 to 6 ===
[[File:3to6_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 3 to 7 ===
[[File:3to7_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 3 to 8 ===
[[File:3to8_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
 
== 4 belts to x belts ==
 
=== 4 to 1 ===
[[File:4to1_balancer.png|frame|left]]
<br clear=all>
=== 4 to 2 ===
[[File:4to2_balancer.png|frame|left|Throughput can go down to 50%.]]
<br clear=all>
=== 4 to 3 ===
[[File:4to3_balancer.png|frame|left|Throughput can go down to 83%.]]
<br clear=all>
 
<!--
 
=== Belt balance ===
 
Due to how items are placed onto belts by [[inserters]], their lanes can sometimes become unbalanced. In order to
maintain throughput, balancing the lanes may be necessary. The gifs below show how to do this:
 
== Splitters ==
 
[[Splitters]] are another form of item manipulation. Splitters are a 2x1 tile that split incoming [[Item]]s on belts
from one input to two outputs, in a 50/50 ratio. They are used to divide resources between two belts, or balance
multiple belts.
 
== Mechanics of splitters ==
 
The behavior of splitters looks simple at first glance. But they are not that simple. Splitters have an astonishing amount of uses.
 
* Splitters have two input belts, and two output belts. If the splitter receives items on one belt, it will split the
input evenly between it's two sides.
 
* If one of the outputs is fully backed-up and the splitter cannot split evenly, it will put all input on it's other
output.
 
* Splitters can also take two inputs and one output.
 
The output will be an even mix of both the inputs. This can be
used to efficiently merge two belts together. When it does this, the items will not be shuffled.
 
-->
= References =
* [https://forums.factorio.com/viewtopic.php?f=69&t=34182 Command line belt balancer analyzer]
* [https://mods.factorio.com/mods/DaveMcW/blueprint-string Blueprint String Mod]
* [https://www.reddit.com/r/factorio/comments/4gj8x4/my_take_on_4_belt_lane_balancers/ Collection of lane balancers]
* [https://www.reddit.com/r/factorio/comments/3fq3cc/count_perfect_n_to_m_belt_balancers/ Collection of belt balancers, most of these contain a lot of unnecessary splitters]
* [https://www.reddit.com/r/factorio/comments/4d3per/belt_balancer_compendium/ Another collection of belt balancers, some of these are not input balanced]
* [https://www.reddit.com/r/factorio/comments/5njgy4/yet_another_belt_balancer_compendium/ Best collection of belt balancers, most of them are used here.]

Latest revision as of 11:18, 23 November 2020

Balancers are used to evenly distribute items over multiple belts or multiple belt lanes.

Balancers that are input balanced take evenly from all input belts/belt lanes. Balancers that are output balanced distribute evenly to all output belts/belt lanes. Ideally, a balancer should be input and output balanced.

Belt balancers

1 full input belt gets split into two 50% full belts which get split into 4 belts that are each 25% full.

Belt balancers utilize the mechanic that splitters output items in a 1:1 ratio onto both their output belts. That means that a splitter can be used to put an equal amount of items on two belts. Since the process can be repeated infinitely, balancers with 2n output belts are easy to create.

First the belts A and B go through a splitter so that the output belts contain an equal amount of items from each input belt (AB). The same is done with belts C and D. Then the mixed belts AB and CD go through splitters so that their output belts contain items from each input belt (ABCD)!

Balancers also use the mechanic that splitters take an equal amount of items from both input belts. That means that a splitter connected to two input belts will evenly distribute those items onto the the two output belts. To balance belts it has to be made sure that the output belts contain an equal number of items from each input belt.

Throughput

4to4 balancer throughput limit demo.gif

Balancers that are throughput limited may not be able to provide maximum output if one or more outputs are blocked. To be throughput unlimited, a balancer must fulfil the following conditions:

  1. 100% throughput under full load.
  2. Any arbitrary amount of input belts should be able to go to any arbitrary amount of output belts.

Balancers often do not fulfill the second condition because of internal bottlenecks. The gif on the right shows a 4 → 4 balancer being fed by two belts, but only outputting one belt which means that its throughput in that arrangement is 50%. The bottleneck in this balancer is that the two middle belts only get input from one splitter. So, if only one side of that splitter gets input, as can be seen in the gif, it can only output one belt even though the side of the splitter is fed by a splitters which gets two full belts of input. In this particular case, the bottleneck can be fixed by feeding the two middle output belts with more splitters. This is done by adding two more splitters at the end of the balancer, as it can be seen here:

4to4 balancer.png

However most balancers' bottlenecks can't be solved as easily. A guaranteed method to achieve throughput unlimited balancers is to place two balancers back to back that fulfil the first condition for throughput unlimited balancers (100% throughput under full load). The resulting balancer is usually larger than a balancer that was initially designed to be throughput unlimited. This is the case because they use more splitters than the minimum required amount of splitters for a throughput unlimited balancer. For n → n balancers where n is a power of two numbers, n×log2(n)−n÷2 can be used to calculate how many splitters are needed. This formula is based on the number of nodes in a Beneš network, which is essentially the same as a throughput unlimited balancer — it allows any input to reach any output.

Universal balancers

Many balancers fail to balance properly once an output backs up or if an output is not used. In essence this means that an n-n balancer is not a functional n-(n-1) balancer. Sometimes this can be fixed by looping the unused output back around the balancer and distributing it among the inputs. Other times, this is not an option. Universal balancers solve this issue by having the back-looping built in. These balancers can balance evenly between any inputs and any outputs. Universal balancers can be throughput limited. If a universal balancer is throughput limited, the bottleneck may be in the loops or the balancer itself. A throughput limited universal balancer may only have the capacity for a few unused outputs. When more than the number of allowed outputs backs up, the universal balancer behaves like a normal balancer, and may not balance properly.

Lane balancers

This output balanced lane balancer distributes the items evenly among the output lanes, achieving output balance.

Lane balancers may be output balanced or input balanced. Input balanced lane balancers draw evenly from each side of the input belt, while output balanced lane balancers output evenly onto each lane of the output belt.

See also

Further reading