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This guide will get you setup quickly with Harvesting & Factory planets. | This guide will get you setup quickly with Harvesting & Factory planets. | ||
+ | |||
+ | There are also some great external guides, which show this great visually: [[https:// | ||
==== FITTING ==== | ==== FITTING ==== | ||
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These resources aren't used independently, | These resources aren't used independently, | ||
- | ^ Planet Matrix | + | ^ Resource |
| Aqueous Liquids | Water | X | X | X | | X | | X | X | | | Aqueous Liquids | Water | X | X | X | | X | | X | X | | ||
| Autotrophs | Industrial Fibers | | | | | | | | X | | | Autotrophs | Industrial Fibers | | | | | | | | X | | ||
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| Suspended Plasma | Plasmoids | | | | X | | X | X | | | | Suspended Plasma | Plasmoids | | | | X | | X | X | | | ||
- | Planet Types can either be found in-game by choosing "Show Info" on a planet, but can also be found out-of game via Dotlan - [[https:// | + | Planet Types can either be found in-game by choosing "Show Info" on a planet, but can also be found out-of game via Dotlan - [[https:// |
- | Once you've found the planet type you're after, check the resource density. This tells you how much of that mineral appears on the planet; the higher number the better. Select "Show Info" on a planet, and choose " | + | Once you've found the planet type you're after, check the resource density. This tells you how much of that mineral appears on the planet; the higher number the better. Select "Show Info" on a planet, and choose "View Planetary Industry" |
+ | {{: | ||
{{: | {{: | ||
After you've found a planet you're interested in, time to set it up! | After you've found a planet you're interested in, time to set it up! | ||
+ | |||
+ | CAUTION: PI is extremely large. It is advised to set this up in a small range of systems, or in a system in the [[https:// | ||
==== SETUP ==== | ==== SETUP ==== | ||
- | Grab your Epital | + | Grab your Epithal |
+ | |||
+ | Select the planet you're interested in and "Show Info". Then choose "View Planetary Industry" | ||
- | The planet you're interested in and "Show Info". Then choose "View Planetary Industry" | + | {{ : |
Switch back to the " | Switch back to the " | ||
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| Extractor Head** | 110 tf | 550 MW | 0.00 ISK | Up to 10 can be added per Extractor | | | Extractor Head** | 110 tf | 550 MW | 0.00 ISK | Up to 10 can be added per Extractor | | ||
| Link | Variable | Variable | 0.00 ISK | Used to route resources, length changes CPU/PG | | | Link | Variable | Variable | 0.00 ISK | Used to route resources, length changes CPU/PG | | ||
+ | |||
+ | |||
*Only available on Temperate and Barren planets | *Only available on Temperate and Barren planets | ||
**Not visible in this menu, but can be seen in the Extractor view | **Not visible in this menu, but can be seen in the Extractor view | ||
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* Launchpad at the end of each route. | * Launchpad at the end of each route. | ||
*Skills dependent; you may need 2 rows of 3 each | *Skills dependent; you may need 2 rows of 3 each | ||
+ | |||
+ | {{ : | ||
Once these are build and linked, choose " | Once these are build and linked, choose " | ||
- | Next, map the Facilities output. Using the charts above, select the output materials you are after. For example, if you planned to harvest "Noble Metals", | + | Next, map the Facilities output. Using the charts above, select the output materials you are after. For example, if you planned to harvest "Noble Metals", |
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
- | {{: | ||
The Facilities will now expect a certain input, so move to the Extractor and select " | The Facilities will now expect a certain input, so move to the Extractor and select " | ||
- | Place the Extractor Heads where the yeild is highest, and route each of these directly | + | {{: |
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | |||
+ | Place the Extractor Heads where the yeild is highest, and route the entire batch to the Storage Facility. This will act as the buffer. You may need to upgrade the link, if you are pulling too much! Once routed to the Storage Facility, route this outwards to the individual facilities. | ||
+ | |||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
+ | {{: | ||
Once this is done, hit Submit. Congratulations, | Once this is done, hit Submit. Congratulations, | ||
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Select your planet, select the Extractor Head, stop the extraction, move the heads wherever the resources are most abundant, then restart the extraction. | Select your planet, select the Extractor Head, stop the extraction, move the heads wherever the resources are most abundant, then restart the extraction. | ||
- | With 8 Facilities (Level 5), you will have a maximum output of 320 units of P1 per houor, assuming your extractors | + | With 8 Facilities (Level 5), you will have a maximum output of 320 units of P1 per hour, assuming your extractors |
- | With 160 (60.8m3) going to each launchpad (10,000m3) per hour, you will need to collect your PI once every 6 days and 20 hours at max yeild. | + | With 160 (60.8m3) going to each launchpad (10,000m3) per hour, you will need to collect your PI once every 6 days and 20 hours at max yield. |
- | With 120 (45.6m3) going to each launchpad (10,000m3) per hour, you will need to collect your PI once every 9 days and 3 hours at max yeild. | + | With 120 (45.6m3) going to each launchpad (10,000m3) per hour, you will need to collect your PI once every 9 days and 3 hours at max yield. |
Once your launchpads are full, travel to their Customs Office with your Epithal and bring them back to a station. | Once your launchpads are full, travel to their Customs Office with your Epithal and bring them back to a station. | ||
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==== P2 -> P4 ==== | ==== P2 -> P4 ==== | ||
- | ^ P4 ^ P3 ^ P2 ^ P1 ^ | + | These can only be built on a Barren or Temperate planet. |
- | | Broadcast Node | Neocoms | Biocells | Biofuels | | + | |
- | | ::: | ::: | ::: | Precious Metals | | + | P4 has three different templates: |
- | | ::: | ::: | Silicate Glass | Oxidizing Compound | | + | |
- | | ::: | ::: | ::: | Silicon | | + | === Broadcast Node, Recursive Computing |
- | | ::: | Data Chips | Supertensile Plastics | Oxygen | | + | |
- | | ::: | ::: | ::: | Biomass | | + | Created by 3x P3, which require 2x P2 Input. You can produce 3 of these per hour, on a planet you setup with 3x Launchpad, 3x Hi-Tech Constructor, |
- | | ::: | ::: | Microfiber Shielding | Industrial Fibers | | + | |
- | | ::: | ::: | ::: | Silicon | | + | This requires 3,330 of 6 types of P2, to be maintained every 2d 7h. |
- | | ::: | High-Tech Transmitters | Polyaramids | Oxidizing Compound | | + | |
- | | ::: | ::: | ::: | Industrial Fibers | | + | {{:en:guide:pi_factory_p4_a.png? |
- | | ::: | ::: | Transmitter | Plasmoids | | + | |
- | | ::: | ::: | ::: | Chiral Structures | | + | === Integrity Response Drones and Wetware Mainframes=== |
- | | Recursive Computing | + | |
- | | ::: | ::: | ::: | Chiral Structures | | + | Created by 3x P3, which require 3x P2 Input. You can produce 3 of these per hour, on a planet you setup with 3x Launchpad, 3x Hi-Tech Constructor, |
- | | ::: | ::: | Water-Cooled CPU | Water | | + | |
- | | ::: | ::: | ::: | Reactive Metals | | + | This requires 2,220 of 9 types of P2, to be maintained every 1d 13h. |
- | | ::: | Synthetic Synapses | Supertensile Plastics | Oxygen | | + | |
- | | ::: | ::: | ::: | Biomass | | + | {{:en:guide:pi_factory_p4_a.png? |
- | | ::: | ::: | Test Cultures | Water | | + | |
- | | ::: | ::: | ::: | Bacteria | | + | === Nano-Factory, |
- | | ::: | Transcranial Microcontrollers | Biocells | Biofuels | | + | |
- | | ::: | ::: | ::: | Precious Metals | | + | Created by 2x P3 which require 2x P2 input, and 1x P1 Input. You can produce 4 of these per hour, on a planet you setup with 3x Launchpad, 4x Hi-Tech Constructor, |
- | | ::: | ::: | Nanites | Reactive Metals | | + | |
- | | ::: | ::: | ::: | Bacteria | | + | |
- | | Self-Harmonizing Power Core | Camera Drones | Rocket Fuel | Electrolytes | | + | |
- | | ::: | ::: | ::: | Plasmoids | | + | |
- | | ::: | ::: | Silicate Glass | Oxidizing Compound | | + | |
- | | ::: | ::: | ::: | Silicon | | + | |
- | | ::: | Hermetic Membranes | Genetically Enhanced Livestock | Proteins | | + | |
- | | ::: | ::: | ::: | Biomass | | + | |
- | | ::: | ::: | Polyaramids | Oxidizing Compound | | + | |
- | | ::: | ::: | ::: | Industrial Fibers | | + | |
- | | ::: | Nuclear Reactors | Enriched Uranium | Toxic Metals | | + | |
- | | ::: | ::: | ::: | Precious Metals | | + | |
- | | ::: | ::: | Microfiber Shielding | Industrial Fibers | | + | |
- | | ::: | ::: | ::: | Silicon | | + | |
- | Asdf | + | This requires 3,330 of 4 types of P2, to be maintained every 2d 2h. The 3rd Launchpad is specifically for the P1. |
- | ^ P4 ^ P3 ^ P2 ^ P1 ^ | + | {{:en:guide:pi_factory_p4_b.png? |
- | | Integrity Response Drone | Gel-Matrix Biopaste | Biocells | Biofuels | | + | |
- | | ::: | ::: | ::: | Precious Metals | | + | |
- | | ::: | ::: | Oxides | Oxygen | | + | |
- | | ::: | ::: | ::: | Oxidizing Compound | | + | |
- | | ::: | ::: | Superconductors | Water | | + | |
- | | ::: | ::: | ::: | Plasmoids | | + | |
- | | ::: | Hazmat Detection Systems | Polytextiles | Industrial Fibers | | + | |
- | | ::: | ::: | ::: | Biofuels | | + | |
- | | ::: | ::: | Transmitter | Chiral Structures | | + | |
- | | ::: | ::: | ::: | Plasmoids | | + | |
- | | ::: | ::: | Viral Agent | Bacteria | | + | |
- | | ::: | ::: | ::: | Biomass | | + | |
- | | ::: | Planetary Vehicles | Mechanical Parts | Reactive Metals | | + | |
- | | ::: | ::: | ::: | Precious Metals | | + | |
- | | ::: | ::: | Miniature Electronics | Silicon | | + | |
- | | ::: | ::: | ::: | Chiral Structures | | + | |
- | | ::: | ::: | Supertensile Plastics | Oxygen | | + | |
- | | ::: | ::: | ::: | Biomass | | + | |
- | | Wetware Mainframe | Biotech Research Reports | Construction Blocks | Reactive Metals | | + | |
- | | ::: | ::: | ::: | Toxic Metals | | + | |
- | | ::: | ::: | Livestock | Biofuels | | + | |
- | | ::: | ::: | ::: | Proteins | | + | |
- | | ::: | ::: | Nanites | Reactive Metals | | + | |
- | | ::: | ::: | ::: | Bacteria | | + | |
- | | ::: | Cryoprotectant Solution | Fertilizer | Proteins | | + | |
- | | ::: | ::: | ::: | Bacteria | | + | |
- | | ::: | ::: | Synthetic Oil | Electrolytes | | + | |
- | | ::: | ::: | ::: | Oxygen | | + | |
- | | ::: | ::: | Test Cultures | Water | | + | |
- | | ::: | ::: | ::: | Bacteria | | + | |
- | | ::: | Supercomputers | Consumer Electronics | Toxic Metals | | + | |
- | | ::: | ::: | ::: | Chiral Structures | | + | |
- | | ::: | ::: | Coolant | Water | | + | |
- | | ::: | ::: | ::: | Electrolytes | | + | |
- | | ::: | ::: | Water-Cooled CPU | Water | | + | |
- | | ::: | ::: | ::: | Reactive Metals | | + | |
- | Asdf | + | ^ P4 ^ P3 ^ P2 ^ P1 ^ ^ P4 ^ P3 ^ P2 ^ P1 ^ ^ P4 ^ P3 ^ P2 ^ P1 ^ |
+ | | Broadcast Node | Neocoms | Biocells | Biofuels | | Integrity Response Drone | Gel-Matrix Biopaste | Biocells | Biofuels | | Nano-Factory | Industrial Explosives | Fertilizer | Proteins | | ||
+ | | ::: | ::: | ::: | Precious Metals | | ::: | ::: | ::: | Precious Metals | | ::: | ::: | ::: | Bacteria | | ||
+ | | ::: | ::: | Silicate Glass | Oxidizing Compound | | ::: | ::: | Oxides | Oxygen | | ::: | ::: | Polytextiles | Industrial Fibers | | ||
+ | | ::: | ::: | ::: | Silicon | | ::: | ::: | ::: | Oxidizing Compound | | ::: | ::: | ::: | Biofuels | | ||
+ | | ::: | Data Chips | Supertensile Plastics | Oxygen | | ::: | ::: | Superconductors | Water | | ::: | Ukomi Super Conductors | Superconductors | Water | | ||
+ | | ::: | ::: | ::: | Biomass | | ::: | ::: | ::: | Plasmoids | | ::: | ::: | ::: | Plasmoids | | ||
+ | | ::: | ::: | Microfiber Shielding | Industrial Fibers | | ::: | Hazmat Detection Systems | Polytextiles | Industrial Fibers | | ::: | ::: | Synthetic Oil | Electrolytes | | ||
+ | | ::: | ::: | ::: | Silicon | | ::: | ::: | ::: | Biofuels | | ::: | ::: | ::: | Oxygen | | ||
+ | | ::: | High-Tech Transmitters | Polyaramids | Oxidizing Compound | | ::: | ::: | Transmitter | Chiral Structures | | ::: | ::: | ::: | Reactive Metals | | ||
+ | | ::: | ::: | ::: | Industrial Fibers | | ::: | ::: | ::: | Plasmoids | | Organic Mortar Applications | Condensates | Coolant | Water | | ||
+ | | ::: | ::: | Transmitter | Plasmoids | | ::: | ::: | Viral Agent | Bacteria | | ::: | ::: | ::: | Electrolytes | | ||
+ | | ::: | ::: | ::: | Chiral Structures | | ::: | ::: | ::: | Biomass | | ::: | ::: | Oxides | Oxygen | | ||
+ | | Recursive Computing Module | Guidance Systems | Transmitter | Plasmoids | | ::: | Planetary Vehicles | Mechanical Parts | Reactive Metals | | ::: | ::: | ::: | Oxidizing Compound | | ||
+ | | ::: | ::: | ::: | Chiral Structures | | ::: | ::: | ::: | Precious Metals | | ::: | Robotics | Consumer Electronics | Toxic Metals | | ||
+ | | ::: | ::: | Water-Cooled CPU | Water | | ::: | ::: | Miniature Electronics | Silicon | | ::: | ::: | ::: | Chiral Structures | | ||
+ | | ::: | ::: | ::: | Reactive Metals | | ::: | ::: | ::: | Chiral Structures | | ::: | ::: | Mechanical Parts | Reactive Metals | | ||
+ | | ::: | Synthetic Synapses | Supertensile Plastics | Oxygen | | ::: | ::: | Supertensile Plastics | Oxygen | | ::: | ::: | ::: | Precious Metals | | ||
+ | | ::: | ::: | ::: | Biomass | | ::: | ::: | ::: | Biomass | | ::: | ::: | ::: | Bacteria | | ||
+ | | ::: | ::: | Test Cultures | Water | | Wetware Mainframe | Biotech Research Reports | Construction Blocks | Reactive Metals | | Sterile Conduits | Smartfab Units | Construction Blocks | Reactive Metals | | ||
+ | | ::: | ::: | ::: | Bacteria | | ::: | ::: | ::: | Toxic Metals | | ::: | ::: | ::: | Toxic Metals | | ||
+ | | ::: | Transcranial Microcontrollers | Biocells | Biofuels | | ::: | ::: | Livestock | Biofuels | | ::: | ::: | Miniature Electronics | Silicon | | ||
+ | | ::: | ::: | ::: | Precious Metals | | ::: | ::: | ::: | Proteins | | ::: | ::: | ::: | Chiral Structures | | ||
+ | | ::: | ::: | Nanites | Reactive Metals | | ::: | ::: | Nanites | Reactive Metals | | ::: | Vaccines | Livestock | Biofuels | | ||
+ | | ::: | ::: | ::: | Bacteria | | ::: | ::: | ::: | Bacteria | | ::: | ::: | ::: | Proteins | | ||
+ | | Self-Harmonizing Power Core | Camera Drones | Rocket Fuel | Electrolytes | | ::: | Cryoprotectant Solution | Fertilizer | Proteins | | ::: | ::: | Viral Agent | Bacteria | | ||
+ | | ::: | ::: | ::: | Plasmoids | | ::: | ::: | ::: | Bacteria | | ::: | ::: | ::: | Biomass | | ||
+ | | ::: | ::: | Silicate Glass | Oxidizing Compound | | ::: | ::: | Synthetic Oil | Electrolytes | | ::: | ::: | ::: | Water | | ||
+ | | ::: | ::: | ::: | Silicon | | ::: | ::: | ::: | Oxygen | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | Hermetic Membranes | Genetically Enhanced Livestock | Proteins | | ::: | ::: | Test Cultures | Water | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | ::: | ::: | Biomass | | ::: | ::: | ::: | Bacteria | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | ::: | Polyaramids | Oxidizing Compound | | ::: | Supercomputers | Consumer Electronics | Toxic Metals | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | ::: | ::: | Industrial Fibers | | ::: | ::: | ::: | Chiral Structures | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | Nuclear Reactors | Enriched Uranium | Toxic Metals | | ::: | ::: | Coolant | Water | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | ::: | ::: | Precious Metals | | ::: | ::: | ::: | Electrolytes | | ::: | ::: | ::: | ::: | | ||
+ | | ::: | ::: | Microfiber Shielding | Industrial Fibers | | ::: | ::: | Water-Cooled CPU | Water | | ::: | ::: | ::: | ::: | |