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Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

Foreword

In this article, each different color of ae cable (wireless connection machine) is a different network. Through the storage bus priority, items are distributed to achieve the idea of self-increasing order placement.

Fungal powder, dragon cell type self-proliferation also applicable. If there is a need, you can write corresponding templates according to the ideas in this article. You can reduce the final output of the template to make this scheme safer, because after biological cells produce biological medium stock solution, using it for other synthesis may cause a deficit of biological cells in the corresponding subnet or an incorrect final output number, causing automatic synthesis to get stuck (therefore it is recommended to write less).

Mainnet setup

1- Stem cells, biological cells, compilation of Frost Plain fragments

You can double the template according to your needs

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

(Stem cells) - By looking at the original formula, we found that the self-increasing formula is 32:64, so subtracting each parallel *32 is our final output.

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

(Biological Cells) - By reviewing the original formula, we found that the self-replication formula is 32:64, but we need to additionally use biological culture medium stock solution, requiring an input of 64 biological cells to produce 10B. Therefore, after calculation, we obtained 25 formula runs, (64*25-64)/2 resulting in 736.

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

(Frost Shards) - This is actually just something I wrote casually (), because the input Frost Shards we use passive input, so we don't care about probability parallelism issues, we just reduce a bit in the final output.

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

(Biological culture medium stock solution) Remove biological cell input.

2 - Sample Placement

For the Frostland Fragments and Biological Culture Medium Stock Solution, we choose to put them into the Sample Assembly A, and later additional raw materials are input through the Dyeing Chamber.

For stem cells and biological cells, if you need to input Frost Plain Fragments with controlled probability consumption, you need to use the Traditional Pattern Provider; otherwise, use Pattern Assembly B.

Subnet setup

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

The yellow-green wireless connector is the main network, and the other colors are different subnets.

Light blue subnet (A)

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

Cache(Need to label stem cells and biological cells separately) directly determines your single maximum parallelism, for the red terminal network needs high-priority distribution, returns to the main network with the lowest priority

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

At the chamber end, connect the multi-block output assembly to this network, place the ME inventory input bus and enable auto-pull, dye the local inventory input bus and pattern assembly B the same color (if you use a pattern provider, then dye the other inventory input bus/chamber).

Red subnet (B)

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

Cached Marker Biological Cells and Frost Plain Fragments

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

At the chamber end, place the ME input bus marking a certain amount of biological cells and frost fragments (directly determines your parallelism), dye the pattern assembly A and the ME input bus the same color.

Pink subnet andLight gray subnet(Optional)

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

You can totally choose not to build this subnet. For those who want the Frostland fragments not to remain in the template assembly, you can use it, and open the template feeder to any obstruction.

For the template supplier, you need to double his stem cell biological cell template according to demand.

Send frost field fragments to another subnet cache with high priority, and send the overflow frost field fragments back to the main network, the raw materials allocated by the pink subnet cache template supplier.

Self-increasing ordering personal thoughts for cultivation tanks (stem cells, biological cells, frost fragments, etc.)

For the input end, place inventory input bins and inventory input buses in the two networks respectively, and dye the compartments the same color as those of the light blue subnet.

Afterword

At this point, the network setup is complete. You need to fill all caches of the different networks to start this solution, otherwise the synthesis will get stuck.

Also note that the culture medium stock solution has an optimized formula for UEV voltage in biochemical reactions, and it is recommended to replace it in time.

Repeat the preface again. You can write less for the final output of the template to make this plan safer, because using biological cells to produce biological medium stock solution for other syntheses may cause a shortage of biological cells in the corresponding subnet or the final output quantity being incorrect, causing the automatic synthesis to get stuck (so it is recommended to write less).

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