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lorath_matriarchy:technology:lorath_advanced_repsonsive_intelligence_assembly_starship_control_system:systems [2017/03/04 22:43] – created eistheid | lorath_matriarchy:technology:lorath_advanced_repsonsive_intelligence_assembly_starship_control_system:systems [2017/03/25 15:07] (current) – [Emulation] eistheid | ||
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====== ARIA Systems Breakdown ===== | ====== ARIA Systems Breakdown ===== | ||
+ | This document provides critical information for those who are expected to work with an [[lorath_matriarchy: | ||
+ | |||
===== Hardware ===== | ===== Hardware ===== | ||
==== Datacore ==== | ==== Datacore ==== | ||
+ | Within the A-Type the Datacore provides a superior retrieval time compared to the neural-stack despite its poor association system((which is tied in via metadata to the Neural Stack)). Its function is to act as a database for the A-Type, storing data such as encyclopedias, | ||
+ | |||
==== Translator ==== | ==== Translator ==== | ||
+ | This system functions as a translator in real-time for the Quantum, Binary, Quad, and Neural computing of the A-Type. The Translator is an immense feat of computer engineering being an absolutely critical part of the operation of the A-Type. Without the Translator, the A-Type is only able to communicate via the Xtal in debugging mode to avoid potential damage to the unit. | ||
+ | |||
==== Buffer ==== | ==== Buffer ==== | ||
+ | The Buffer is a component of the CNS that functions as a highly optimized pathway of neural systems providing storage for variables and considerations accessible by both the active and inactive psychology kernel component. In its functions the buffer operates between 300 and 1000 times the speed of the rest of the neural network. Due to the high performance needs of this part of the A-Type' | ||
+ | |||
==== Activity Monitor ==== | ==== Activity Monitor ==== | ||
+ | Another component of the CNS, the A-Type' | ||
+ | |||
==== Neural Stack ==== | ==== Neural Stack ==== | ||
+ | The Neural Stack composes the main body of the CNS, acting as the memory and neural processing store for the A-Type, blending both operations together into a seamless system. | ||
+ | |||
==== Processors ==== | ==== Processors ==== | ||
+ | The system includes sizable dedicated processors for both quantum and binary computation built into the core of the A-Type system. The quantum processor is optimized to grant the A-Type with an immense capacity for problem solving and logical deduction, while the binary processor provides an impressive calculation capacity. | ||
+ | |||
==== Signature ==== | ==== Signature ==== | ||
+ | A Signature assigned to the A-Type assures that the neural pathways have not been replicated from a stolen backup, prohibiting the direct cloning of A-Types without the use of highly specialized proprietary equipment capable of reading and then duplicating the signature hidden within the A-Type' | ||
+ | |||
==== Dataplexer ==== | ==== Dataplexer ==== | ||
+ | An optical brainstem, the Dataplexer is a highly adaptable piece of hardware capable of taking on up to 256 8-way parallel optical communication ports with zero parallel clock-shifting, | ||
+ | |||
===== Neural Memory ===== | ===== Neural Memory ===== | ||
==== Sensorial ==== | ==== Sensorial ==== | ||
+ | Sensorial memory is a term that refers to a chunk of memory tied closely to the Translator that acts as a buffer for the A-Type' | ||
+ | |||
==== Short-Term ==== | ==== Short-Term ==== | ||
+ | The Short-Term memory of the A-Type is memory which is vulnerable to being lost in the event of a major system error. This is due to need for the Short-Term memory to constantly be in a state of transition, changing within the A-Type to meet its needs. Primarily Short-Term memory works to search for patterns via the Recognizer and attempts to identify trends which allow for the A-Type to understand and anticipate events neurally, bolstered by the resources of a vast database and the computational power of a starship grade computer behind it. With these resources, the A-Type is capable of quickly identifying problems long before they fall out of hand. To aid with predicting events outside of normal parameters the Short-Term memory features a function which sporadically injects data randomly from unrelated sources and events to encourage truly dynamic assumptions and conclusions and avoid falling into a regular pattern. | ||
+ | |||
==== Long-Term ==== | ==== Long-Term ==== | ||
+ | Long-Term memory for the A-Type is an immensely complex system and is stored in a vast dynamically tagged database which is constantly being amended and added to, while also creating a complete back-log of every change ever made to the system. Long-Term memory stores declarative memory((facts such as events or stored data)), opinions((swap)), | ||
+ | |||
===== Microkernel ===== | ===== Microkernel ===== | ||
+ | The A-Type' | ||
+ | |||
==== Recognizer ==== | ==== Recognizer ==== | ||
+ | The Recognizer is a system which is tied directly into the quantum processor of the A-Type with the function of constantly searching for and logging unusual patterns and attempting to decipher their meaning. The Recognizer is not a consciously recognized or alterable process and is key to the function of the A-Type. | ||
+ | |||
==== Extensions ==== | ==== Extensions ==== | ||
- | ==== Modules ==== | + | Within the A-Type' |
+ | |||
+ | === Modules === | ||
+ | The foundation of any Extension, a Module is a self-taught Extension and is applicable for skills ranging from riding a bike to neurally controlling an array of weapon pods. Like Extensions, Modules are modular and can be exchanged quickly. Due to the natural process of amendment, refinement, and optimization of the A-Type an older Module tends to be more effective than a younger Module. Unfortunately, | ||
==== Memory ==== | ==== Memory ==== | ||
+ | A permanent component of the Kernel, it is a system used for recognizing and managing memory. | ||
+ | |||
==== Sensorial ==== | ==== Sensorial ==== | ||
+ | Tied directly into the problem solving and pattern recognition system, the sensorial system works closely with the neural components within the A-Type responsible for creating new neural pathways. | ||
+ | |||
==== Psychology/ | ==== Psychology/ | ||
+ | Of the A-Type' | ||
+ | |||
===== Software ===== | ===== Software ===== | ||
+ | This consists of operations performed on-top of other components. | ||
+ | |||
==== Emulation ==== | ==== Emulation ==== | ||
+ | The A-Type is designed to be capable of emulating a wide variety of computational systems, past and present, with hundreds of Lorath specifications loaded natively and with the storage capacity to support many more. The only true limit to an A-Type' | ||
+ | |||
==== Software ==== | ==== Software ==== | ||
+ | Software that is directly compiled upon the A-Type is few and far between, however the facility to create such software exists. One example is the creation of a subroutine for vanity behaviours which encourages the A-Type to wear clothing. Through software applications, | ||
+ | |||
==== Modulus ==== | ==== Modulus ==== | ||
+ | The Modulus is a method for the A-Type to " | ||
+ | |||
==== Optimization ==== | ==== Optimization ==== | ||
+ | With time the Modulus learns about it's user's preferences and re-calibrates the device to best suit its user. This is considered as a separate system as the A-Type also re-calibrates its own body and software functions similarly. This function is limited, however, by the limitations of its organic body, and hardware. | ||
+ | |||
==== I/O Streams ==== | ==== I/O Streams ==== | ||
+ | The A-Type' | ||
+ | |||
==== Commands ==== | ==== Commands ==== | ||
+ | Software can be used to execute processor commands such as complex math; for example calculating FTL parameters, or similar actions. Commands are tied into Modules and Extensions. | ||
+ | |||
==== Actions ==== | ==== Actions ==== | ||
+ | Software can execute physical actions based on complex dependencies. Actions can be as simple as " | ||
===== OOC ===== | ===== OOC ===== | ||
Original article by [[user: | Original article by [[user: |