No advertising unofficial merch without prior permission. This list was last updated on the 6th of February 2023. "Today I Learned" will be allowed when the expansion is released, until then they will be removed."OMG this game is so addicting" (without providing additional (in-game) context).Achievements and end screens are allowed but you MUST PROVIDE CONTEXT.Pictures of IRL things that remind you of Factorio.Pictures of where you are playing Factorio.Posts of the following have become too common and will be removed: We feel this is a good balance to keep the subreddit from becoming just an advertising platform. If you're a video creator, you may only post your Let's Play or streams once per month. People are likely to be more interested in your content that way. Generally, be a part of the community you are posting in. Here are some reddit-wide guidelines for self-promotion. Reddit is a place for discussion, not advertising. No memes, low effort posts, or image macrosĭon't come here only to plug your content If you're posting a rail design, hold a signal in your hand. Tips for making your screenshot better: If you're taking a screenshot of a design, turn on alt mode and inserter arrows. When posting a screenshot, add a comment explaining your image or pointing out what you want people to look at. Think about how your words affect others before saying them.Įxplain your screenshots Take a screenshot (or a video), not a picture/recording with your phone. Every post must be about Factorio or of content you have made that is directly inspired by Factorio (such as fan art). If you want to post about other things, there are subreddits for that. This is a subreddit for the game Factorio. When more than the number of allowed outputs backs up, the universal balancer behaves like a normal balancer, and may not balance properly.Factorio has never in many years had a sale, is currently not on sale, and is not expected to ever be on sale.įactorio developers: "Not having a sale ever is part of our philosophy." A throughput limited universal balancer may only have the capacity for a few unused outputs. If a universal balancer is throughput limited, the bottleneck may be in the loops or the balancer itself. Universal balancers can be throughput limited. These balancers can balance evenly between any inputs and any outputs. Universal balancers solve this issue by having the back-looping built in. Sometimes this can be fixed by looping the unused output back around the balancer and distributing it among the inputs. In essence this means that an n-n balancer is not a functional n-(n-1) balancer. Many balancers fail to balance properly once an output backs up or if an output is not used. 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. For n → n balancers where n is a power of two numbers, n×log 2(n)−n÷2 can be used to calculate how many splitters are needed. This is the case because they use more splitters than the minimum required amount of splitters for a throughput unlimited balancer. The resulting balancer is usually larger than a balancer that was initially designed to be throughput unlimited. 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). However most balancers' bottlenecks can't be solved as easily. This is done by adding two more splitters at the end of the balancer, as it can be seen here: In this particular case, the bottleneck can be fixed by feeding the two middle output belts with more splitters. 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. The bottleneck in this balancer is that the two middle belts only get input from one splitter. 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%. Any arbitrary amount of input belts should be able to go to any arbitrary amount of output belts.īalancers often do not fulfill the second condition because of internal bottlenecks.To be throughput unlimited, a balancer must fulfil the following conditions: Balancers that are throughput limited may not be able to provide maximum output if one or more outputs are blocked.
0 Comments
Leave a Reply. |