About Domesticated Structol

Structol works by using strength in numbers to perform an instructed task, overwhelm either an enemy micro-biology, a hostile mechanism or to perform the task at hand as effectively as possible while remaining functional in a hostile environment.

To properly make use of these immense numbers, Structol forms a mass number of neural networks which allow different components of the colony to communicate with one another in an effective and co-efficient manner. If outside structol units are damaged, those beneath will work out why and adapt themselves accordingly and so forth.

Once a colony achieves a necessary count of reproductions, it will then create what is known as a neural stem, a small area in which the structol will receive instructions from an outside source.

As a self-organizing colony of neural connections, it follows that it should harbor a psychology or behaviorism. While this is true on the unit to unit level in terms of communication and self-organization, structol will not exhibit a “will” unless it has been programmed or organized in such a way that will do so. In theory, with enough programming and learning, Structol is capable of replicating consciousness. For this reason, it is always treated with great respect and care by Sourcian and although some applications may be brutal, a bad word is never spoken of its performance.

Structol, as it is, is highly adapted to follow information declared along optic channels in a manner similar to those of Sourcian brain activity, acting in essence as complex optronic nanocomputers which share information with the rest of the colony and ensure the information is being adhered to.
Information, beyond the encoding pattern, is sent as a series of logical steps and patterns which the colony will then replicate or a chemical task to perform. Although this seems ludicrously complex for a given being or computer to control, the optic channels support duplex communication and will provide feedback, correcting algorhyhms supplied to them then feeding back what they think a user is trying to accomplish.

Through this system of rapid neural duplex instruction and correction, very little effort is required on behalf of both parties and the end goal is achieved very quickly. From there, Structol will then optimize its patterns to suit the task at hand and organize itself appropriately.

Raw Structol strains must be controlled by a Sourcian or Maesus, otherwise metabolic rate falls below stable levels and the colon collapses.

Unlike traditional cell mytosis whereby a cell will separate and branch out into others gradually, a structol unit will gather the components necessary to create a duplicate from its environment and then create a deliberate flaw based on variables it has learned during its own life-time, in essence growing more capable with every new generation or “wave” of structol.
This is called fractal replication: By reproducing asexually in a complex pattern which eventually returns to creating its source pattern, the overall colony has the strength of variety which most asexual life-forms.

Structol is capable of consuming a wide variety of atomic structures. Tamed strains will recognize biological patterns and refrain from breaking them down unless commanded to do so.

Though structol prefers to exist as either a solid or gelatinous mass, it is capable of functioning as a gas. The efficiency of Structol in most chemical tasks is entirely dependent on the structol density, regardless of form factor or state.

Structol is capable of acting in a similar manner to nano-muscle once a correct density has been achieved. Depending on the structure, it can move extremely quickly or with great brawn, intermingling different kinds of layers to achieve different effects.

Structol is capable of remaining active and efficient under extremely hostile conditions. Immense physical stress will not phase structol unless critical connection fibers are damaged or the colony itself is damaged. It is capable of surviving indefinitely in a vacuum and can withstand temperatures of up to and exceeding approximately 4000 kelvin, though metabolic efficiency drops dramatically at around 2000 kelvin. Structol is also impervious to EMP and can adapt itself quickly enough to survive the vast majority of chemical attacks.

Like any material, Structol comes in several versions which are commonly circulated. Colonies can come in “smart” and “dumb” varieties, each specializing in different types of task.

Virgin in pattern and awaiting commands, raw structol is useless without control.
It has no restriction on capability or performance. Sometimes referred to as “pure” structol due to a lack of restraining programming. Typically, Class 0 Structol cannot be manipulated without special knowledge provided by a Sourcian during the manipulation and programming stages.

Common applications of Class-A structolloid colonies are durable structures, and metallurgy.

A note on armor
Typically, armor is flexible and able to move in a manner not unlike muscle. It also carries self-regenerating properties and can harden on demand in a way not unlike memory alloy to withstand an impact and distribute it's force across a given form to weaken the force of a blow.

–:
Depending on the thickness and density, Structol can achieve a range of – depending on the given thickness.
For skinsuits and the like, Structol has a rating of 3. For thick armor, 4. For Powered Armor, 6 and for Starships 7.

A note on construction
Because Structol can be instructed to grow very quickly with zero supervision to a highly specific structure, it is an ideal platform (as it often is in Sourcian construction) for rapidly erecting complex structures. Provided the structol is granted air, light and water, it is capable of lasting up to 100 years with almost zero supervision and can be maintained for longer.

Does not support airborne forms.

Laboratory testing

Experimentation with hybrid Structol/Leptonium (Yamatium) colonies have proven fruitful, with the Structol colony typically taking control of the Leptonium colonies, weaving them into very complex nano-formations to fortify them while remaining quite light. Although Structol has successfully replicated Leptonium in laboratory conditions by copying it after observation, the yield is poor. Though the yield can be accelerated, the quality of the product drops significantly.

Class-A Structol is especially optimized for extremely complex optronic, electronic, chemical or physical tasks which require a great deal of supervision and modification which normally would come from a sentient or an intelligent organic life-form. Class-B Smart Structol has an–* and is comparatively quite fragile.
Does not support airborne forms.

Common applications are energy and systems management, filtration, the production of extremely precise components, computing and the control of Class A “dumb” colonies.