Processors

Populated almost entirely by robotic laborers, mass production facilities excel at creating products in bulk with minimal supervision and maintenance. They can be so self-sufficient that rumors abound of Gallente factories operated entirely by androids and governed by a skeleton crew of drones. (Detractors of this method like to note that Sansha facilities work in much the same fashion.) Either way, the results are irrefutable: Raw materials and components go in one end, and polished commodities come out the other side.

Populated almost entirely by robotic laborers, mass production facilities excel at creating products in bulk with minimal supervision and maintenance. They can be so self-sufficient that rumors abound of Gallente factories operated entirely by androids and governed by a skeleton crew of drones. (Detractors of this method like to note that Sansha facilities work in much the same fashion.) Either way, the results are irrefutable: Raw materials and components go in one end, and polished commodities come out the other side.

Populated almost entirely by robotic laborers, mass production facilities excel at creating products in bulk with minimal supervision and maintenance. They can be so self-sufficient that rumors abound of Gallente factories operated entirely by androids and governed by a skeleton crew of drones. (Detractors of this method like to note that Sansha facilities work in much the same fashion.) Either way, the results are irrefutable: Raw materials and components go in one end, and polished commodities come out the other side.

Hovering eerily among the clouds of a gas giant planet, this mass production industry platform can cast a long shadow, for it requires a massive static attunement system to remain afloat. Inside, the only real difference between it and one of its terrestrial counterparts is in the material composition used in its construction. Anything that would have been made from cheap, sturdy metal is replaced with high-strength, ultra-resistant alloys. Spare parts and raw materials are kept at absolutely minimal levels to maintain the proper weight and balance, while even items as innocuous as staff personal effects are carefully monitored and regulated

Hovering eerily among the clouds of a gas giant planet, this mass production industry platform can cast a long shadow, for it requires a massive static attunement system to remain afloat. Inside, the only real difference between it and one of its terrestrial counterparts is in the material composition used in its construction. Anything that would have been made from cheap, sturdy metal is replaced with high-strength, ultra-resistant alloys. Spare parts and raw materials are kept at absolutely minimal levels to maintain the proper weight and balance, while even items as innocuous as staff personal effects are carefully monitored and regulated.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Because of the difficulties involved in maintaining a habitable environment for human workers, all requirements for such personnel have been eliminated on oceanic mass production facilities. Instead, the building's focus is centered on maintaining production quotas under extreme circumstances, with reinforced bulkheads occupying almost every space that would normally have been reserved for hallways, offices, and living quarters.

Because of the difficulties involved in maintaining a habitable environment for human workers, all requirements for such personnel have been eliminated on oceanic mass production facilities. Instead, the building's focus is centered on maintaining production quotas under extreme circumstances, with reinforced bulkheads occupying almost every space that would normally have been reserved for hallways, offices, and living quarters.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Instead of laboring to shield the production lines of this industrial facility from the surrounding environment, designers opted instead to use the available heat, interference, and even crushing pressure to help power the structure itself. A plant on an ice planet might have highly advanced extended heat sinks, while a factory on a plasma world might draw most, if not all of its electricity from magnetized coils specially attuned to the planet's local ion winds. Taking advantage of the indigenous features of each world helps offset the cost of building mass production infrastructure there, which usually involves protective coatings, environmental clothing, and reinforced foundations.

Populated almost entirely by robotic laborers, mass production facilities excel at creating products in bulk with minimal supervision and maintenance. They can be so self-sufficient that rumors abound of Gallente factories operated entirely by androids and governed by a skeleton crew of drones. (Detractors of this method like to note that Sansha facilities work in much the same fashion.) Either way, the results are irrefutable: Raw materials and components go in one end, and polished commodities come out the other side.

Populated almost entirely by robotic laborers, mass production facilities excel at creating products in bulk with minimal supervision and maintenance. They can be so self-sufficient that rumors abound of Gallente factories operated entirely by androids and governed by a skeleton crew of drones. (Detractors of this method like to note that Sansha facilities work in much the same fashion.) Either way, the results are irrefutable: Raw materials and components go in one end, and polished commodities come out the other side.

Populated almost entirely by robotic laborers, mass production facilities excel at creating products in bulk with minimal supervision and maintenance. They can be so self-sufficient that rumors abound of Gallente factories operated entirely by androids and governed by a skeleton crew of drones. (Detractors of this method like to note that Sansha facilities work in much the same fashion.) Either way, the results are irrefutable: Raw materials and components go in one end, and polished commodities come out the other side.