EVE:PICommodities
Tier 1 - Processed Materials (P1)
Raw Materials (R0) can be processed into Processed Materials (P1) in Basic Industry Facilities. See the Planet page for more information on Resources. Planets listed are where the Resource can be found and thus which planets can create the appropriate P1 component without importing anything.
| Planets | Resource | P1 Result | Immediate Uses | Component in | |
|---|---|---|---|---|---|
| Barren PlanetIce PlanetOceanic PlanetTemperate Planet | Micro Organisms | Bacteria | None known | Fertilizer, Nanites, Organic Mortar Applicators, Test Cultures, Viral Agent | |
| Barren PlanetOceanic PlanetTemperate Planet | Carbon Compounds | Biofuels | None known | Biocells, Livestock, Polytextiles | |
| Ice PlanetOceanic Planet | Planktic Colonies | Biomass | None known | Genetically Enhanced Livestock, Supertensile Plastics, Viral Agent | |
| Lava PlanetPlasma Planet | Non-CS Crystals | Chiral Structures | None known | Consumer Electronics, Miniature Electronics, Transmitter | |
| Gas PlanetStorm Planet | Ionic Solutions | Electrolytes | None known | Coolant, Rocket Fuel, Synthetic Oil | |
| Temperate Planet | Autotrophs | Industrial Fibers | None known | Microfiber Shielding, Polyaramids, Polytextiles | |
| Gas Planet | Reactive Gas | Oxidizing Compound | None known | Oxides, Polyaramids, Silicate Glass | |
| Gas PlanetIce PlanetStorm Planet | Noble Gas | Oxygen | POS Fuel, Improved Booster Reactions | Oxides, Supertensile Plastics, Synthetic Oil | |
| Lava PlanetPlasma PlanetStorm Planet | Suspended Plasma | Plasmoids | None known | Rocket Fuel, Super Conductors, Transmitter | |
| Barren PlanetPlasma Planet | Noble Metals | Precious Metals | None known | Biocells, Enriched Uranium, Mechanical Parts | |
| Oceanic PlanetTemperate Planet | Complex Organisms | Proteins | None known | Fertilizer, Lifestock, Genetically Enhanced Livestock | |
| Barren PlanetGas PlanetLava PlanetPlasma PlanetStorm Planet | Base Metals | Reactive Metals | None known | Construction Blocks, Mechanical Parts, Nanites, Nano-Factory, Water-Cooled CPU | |
| Lava Planet | Felsic Magma | Silicon | Outpost Deployment | Microfiber Shielding, Miniature Electronics, Silicate Glass | |
| Ice PlanetLava PlanetPlasma Planet | Heavy Metals | Toxic Metals | None known | Construction Blocks, Consumer Electronics, Enriched Uranium | |
| Barren PlanetGas PlanetIce PlanetOceanic PlanetStorm PlanetTemperate Planet | Aqueous Liquids | Water | Standard Booster Reactions | Coolant, Sterile Conduits, Super Conductors, Test Cultures, Water-Cooled CPU | |
| 3000 x 0.01 m³ | 20 x 0.38 m³ |
One processed batch turns 30 m³ of a P0 material into 7.6 m³ of a P1 material, resulting in a reduction to 25% of original volume. Each batch takes 30 minutes to process in a Basic Industry Facility (BIF).
Tier 2 - Refined Commodities (P2)
Processed Materials (P1) can be turned into Refined Commodities (P2) in Advanced Industry Facilities (AIF). It takes two different P1 items to create one P2 item. Cycle time for each batch is 1 hour. The output of (2) BIFs can be routed directly into an AIF that is producing a P2 commodity without any waste.
| Planets | Input 1: P1 | Input 2: P1 | P2 Result | Immediate Uses | Component in | |
|---|---|---|---|---|---|---|
| Barren Planet | Precious Metals | Biofuels | Biocells | None known | Gel-Matrix Biopaste, Neocoms, Transcranial Microcontroller | |
| Lava PlanetPlasma Planet | Toxic Metals | Reactive Metals | Construction Blocks | T2 components | Biotech Research Reports, Smartfab Units | |
| Lava PlanetPlasma Planet | Chiral Structures | Toxic Metals | Consumer Electronics | T2 component, Research component | Robotics, Supercomputers | |
| Gas PlanetStorm Planet | Water | Electrolytes | Coolant | POS Fuel | Condensates, Supercomputers | |
| Plasma Planet | Toxic Metals | Precious Metals | Enriched Uranium | POS Fuel | Nuclear Reactors | |
| Oceanic PlanetTemperate Planet | Proteins | Bacteria | Fertilizer | None known | Cryoprotectant Solution, Industrial Explosives | |
| Oceanic Planet | Biomass | Proteins | Gen. Enhanced Livestock | None known | Hermetic Membranes | |
| Oceanic PlanetTemperate Planet | Biofuels | Proteins | Livestock | None known | Biotech Research Reports, Vaccines | |
| Barren PlanetPlasma Planet | Precious Metals | Reactive Metals | Mechanical Parts | POS Fuel, T2 components | Planetary Vehicles, Robotics | |
| Lava Planet+Temperate Planet | Silicon | Industrial Fibers | Microfiber Shielding | None known | Data Chips, Nuclear Reactors | |
| Lava Planet | Silicon | Chiral Structures | Miniature Electronics | T2 Components | Planetary Vehicles, Smartfab Units | |
| Barren Planet | Reactive Metals | Bacteria | Nanites | Nanite Repair Paste | Biotech Research Reports, Transcranial Microcontroller | |
| Gas Planet | Oxygen | Oxidizing Compound | Oxides | None known | Condensates, Gel-Matrix Biopaste | |
| Gas Planet+Temperate Planet | Industrial Fibers | Oxidizing Compound | Polyaramids | None known | Hermetic Membranes, High-Tech Transmitter | |
| Temperate Planet | Industrial Fibers | Biofuels | Polytextiles | None known | Hazmat Detection Systems, Industrial Explosives | |
| Storm Planet | Electrolytes | Plasmoids | Rocket Fuel | T2 Components | Camera Drones | |
| Gas Planet+Lava Planet | Silicon | Oxidizing Compound | Silicate Glass | None known | Camera Drones, Neocoms | |
| Storm Planet | Water | Plasmoids | Superconductors | T2 Components | Gel-Matrix Biopaste, Ukomi Super Conductor | |
| Ice Planet | Biomass | Oxygen | Supertensile Plastics | None known | Data Chips, Planetary Vehicles, Synthetic Synapses | |
| Gas PlanetStorm Planet | Oxygen | Electrolytes | Synthetic Oil | None known | Cryoprotectant Solution, Ukomi Super Conductor | |
| Barren PlanetIce PlanetOceanic PlanetTemperate Planet | Water | Bacteria | Test Cultures | None known | Cryoprotectant Solution, Synthetic Synapses | |
| Lava PlanetPlasma Planet | Chiral Structures | Plasmoids | Transmitter | T2 Component | Guidance Systems, Hazmat Detection Systems, High-Tech Transmitter | |
| Ice PlanetOceanic Planet | Biomass | Bacteria | Viral Agent | None known | Hazmat Detection Systems, Vaccines | |
| Barren PlanetGas PlanetStorm Planet | Water | Reactive Metals | Water-Cooled CPU | None known | Guidance Systems, Supercomputers | |
| 40 x 0.38 m³ | 40 x 0.38 m³ | 5 x 1.5 m³ |
One processed batch turns a combined 30.4 m³ of two P1 materials into 7.5 m³ of a P2 material, again resulting in reduction to approximately 25% of original volume
Tier 3 - Specialized Commodities (P3)
It takes two or three different Refined Commodities (P2) to create Specialized Commodities (P3) in Advanced Industry Facilities
| Planets | Input 1: P2 | Input 2: P2 | Input 3: P2 | P3 Result | Immediate Uses | Component in | |
|---|---|---|---|---|---|---|---|
| Barren Planet+Lava PlanetPlasma Planet+Oceanic PlanetTemperate Planet | Nanites | Livestock | Construction Blocks | Biotech Research Reports | None known | Wetware Mainframe | |
| Gas Planet+Storm Planet+Lava Planet | Silicate glass | Rocket Fuel | - | Camera Drones | None known | Self-Harmonizing Power Core | |
| Gas Planet | Oxides | Coolant | - | Condensates | None known | Organic Mortar Applicators | |
| Gas PlanetStorm Planet+Oceanic PlanetTemperate Planet | Test Cultures | Synthetic Oil | Fertilizer | Cryoprotectant Solution | None known | Wetware Mainframe | |
| Ice Planet+Lava Planet+Temperate Planet | Supertensile Plastics | Microfiber Shielding | - | Data Chips | Nanite Repair Paste | Broadcast Node | |
| Barren Planet+Gas Planet+Storm Planet | Oxides | Biocells | Superconductors | Gel-Matrix Biopaste | Nanite Repair Paste | Integrity Response Drones | |
| Barren PlanetGas PlanetIce PlanetOceanic PlanetStorm PlanetTemperate Planet+Lava PlanetPlasma Planet | Water-Cooled CPU | Transmitter | - | Guidance Systems | T2 Component | Recursive Computing Module | |
| Lava PlanetPlasma Planet+Oceanic Planet+Temperate Planet | Polytextiles | Viral Agent | Transmitter | Hazmat Detection Systems | None known | Integrity Response Drones | |
| Gas Planet+Ice PlanetOceanic Planet+Temperate Planet | Polyaramids | Genetically Enhanced Livestock | - | Hermetic Membranes | None known | Self-Harmonizing Power Core | |
| Gas Planet+Lava PlanetPlasma Planet+Temperate Planet | Polyaramids | Transmitter | - | High-Tech Transmitters | None known | Broadcast Node | |
| Temperate Planet | Fertilizer | Polytextiles | - | Industrial Explosives | None known | Nano Factory | |
| Barren Planet+Gas Planet+Lava Planet | Biocells | Silicate Glass | - | Neocoms | None known | Broadcast Node | |
| Lava Planet+Plasma Planet+Temperate Planet | Microfiber Shielding | Enriched Uranium | - | Nuclear Reactors | None known | Self-Harmonizing Power Core | |
| Barren PlanetPlasma Planet+Ice Planet+Lava Planet | Supertensile Plastics | Mechanical Parts | Miniature Electronics | Planetary Vehicles | None known | Integrity Response Drones | |
| Plasma Planet | Mechanical Parts | Consumer Electronics | - | Robotics | POS Fuel, T2 components | Organic Mortar Applicators | |
| Lava Planet | Construction Blocks | Miniature Electronics | - | Smartfab Units | None known | Sterile Conduits | |
| Gas PlanetStorm Planet+Lava PlanetPlasma Planet | Water-Cooled CPU | Coolant | Consumer Electronics | Supercomputers | None known | Wetware Mainframe | |
| Ice Planet | Supertensile Plastics | Test Cultures | - | Synthetic Synapses | None known | Recursive Computing Module | |
| Barren Planet | Biocells | Nanites | - | Transcranial Microcontrollers | None known | Recursive Computing Module | |
| Storm Planet | Synthetic Oil | Superconductors | - | Ukomi Super Conductors | T2 Component | Nano-Factory | |
| Oceanic Planet | Livestock | Viral Agent | - | Vaccines | None known | Sterile Conduits | |
| 10 x 1.5 m³ | 10 x 1.5 m³ | 10 x 1.5 m³ | 3 x 6 m³ |
One processed batch turns a combined 30 or 45 m³ of two or three P2 materials into 18 m³ of a P3 material, with volume reduction now only to 40% or 60%
Tier 4 - Advanced Commodities (P4)
Advanced Commodities (P4) are created in High Tech Production Plants (HTPP) and take either three Specialized Commodities (P3) each or two P3s and one P1. The cycle time for a P4 schematic in a HTPP is 1 hour.
The planet icons indicate one of the easier options (fewest planets) to produce the P4, but that's not necessarily the only or best option. Plasma planets are avoided due to their rarity. You could produce all available P4 goods with an absolute minimum of five planets - Barren, Gas, Lava, Oceanic, and Temperate, but realistically you'd need more. It isn't too hard to completely avoid Plasma (substitute Barren/Lava) and Ice (substitute Oceanic/Lava), however, with Storm also somewhat optional (you can make Nano-Factories without Storm if you add more than one other planet)
| Planets | Input 1: P3 | Input 2: P3 | Input 3: P1/3 | P4 Result | Ultimate Use | |
|---|---|---|---|---|---|---|
| Barren Planet+Gas Planet+Oceanic Planet+Lava Planet+Temperate Planet | Neocoms | Data Chips | High-Tech Transmitters | Broadcast Node | POS / Sov Structures | |
| Barren Planet+Gas Planet+Lava Planet+Oceanic PlanetIce Planet+Temperate Planet | Gel-Matrix Biopaste | Hazmat Detection Systems | Planetary Vehicles | Integrity Response Drones | POS / Sov Structures | |
| Storm Planet+Temperate Planet | Industrial Explosives | Ukomi Super Conductors | Reactive Metals | Nano-Factory | POS / Sov Structures | |
| Barren Planet+Gas Planet+Lava Planet | Condensates | Robotics | Bacteria | Organic Mortar Applicators | POS / Sov Structures | |
| Barren Planet+Ice Planet+Lava Planet | Synthetic Synapses | Guidance Systems | Transcranial Microcontrollers | Recursive Computing Module | POS / Sov Structures | |
| Barren Planet+Gas Planet+Ice PlanetOceanic Planet+Lava Planet+Temperate Planet | Camera Drones | Nuclear Reactors | Hermetic Membranes | Self-Harmonizing Power Core | POS / Sov Structures | |
| Barren PlanetTemperate Planet+Ice PlanetOceanic Planet+Lava Planet | Smartfab Units | Vaccines | Water | Sterile Conduits | POS / Sov Structures | |
| Gas PlanetStorm Planet+Lava Planet+Temperate Planet | Supercomputers | Biotech Research Reports | Cryoprotectant Solution | Wetware Mainframe | POS / Sov Structures | |
| 6 x 6 m³ | 6 x 6 m³ | 6 x 6 m³ or 40 x 0.38 m³ | 1 x 100 m³ |
One processed batch turns a combined 108 or 87.2 m³ of three P3 materials or two P3s + one P1 into one 100 m³ P4 item, making volume reduction insignificant at this point, or in the odd case when a P1 material is involved, actually increases the volume beyond the components! Yes, somebody appears to have allowed that guy talking about Perpetual Motion Devices to touch the P4 production chain. Or the "repackage" department was sleeping on the job.
Total combination quantities
This table shows the relationship between the different tiers and total quantity of materials. For convenience it only considers the max cost per tier (assumes always three P2 to make P3, and three P3 to make P4). So as an example it takes a full 432,000 R0 to produce one max cost P4, or 198,000 for a min cost P4. Better start extracting!
| P4 | P3 | P2 | P1 | |
|---|---|---|---|---|
| R0 | 432,000 | 24,000 | 2,400 | 150 |
| P1 | 2,880 | 160 | 16 | |
| P2 | 180 | 10 | ||
| P3 | 18 |