Processor

 

Processor

Processor

 

We divide the processing into three types of pair classification:

·        Analytical processing and interpretive processing

·        Surface processing and deep processing

·        Imitation processing and comparative processing

The current classifications are based on the prioritization of the six-parameter patterns of the Colotix structure and the phases of the mechanism RPSR.

Analytical processing and interpretive processing

Analytical section (Analyst)

In general and in simple terms, any kind of information is received and coded in the mechanism RPSR by five perceptual means. The resulting code strands are converted into data ropes in parallel and multi-threaded. Then, those are separated by SubColotype s in two stages, the destructive code identifier and the required code identifier and are analyzed by Colotix. If the information entered and concentrated in the Colotype is related to the relevant information based on the information units in the Colotix structure, each unit of the information string is connected to similar units of existing information (graph, matrix, string). Hence, the initial organization and identification of the code will take place and if the resulting string-code did not already exist, that new code will be specified and then saved. Before being saved in any of these two types of paths, the existing string-code establishes a meaningful relationship with other string-codes through each of their units and is extended to the graph model. The overall function of the analytics department is to find and make a relationship between incoming information units and previously saved information. The general function of the analytics department is to find and make a relationship between incoming information units and previously saved information.

Interpretive section (Interpreter)

 

The interpreter of the brain starts to interpret at the same time as recognizing the mentioned graph through the repository of interpretation. Interpreting occurs only once for each entry of information on the way back and forth. It's exactly in this part of the performance that the existing interpretation determines the fate of the output response. Each person's interpretation is the expression of the resulting image and the received meaning from the input information, which is translated and experienced by the senses. The senses are also created according to the neural-hormonal calling in interpreter section. Interpreting is formed through the library of the interpreter of each brain and at the same time as interpretive calling through graphs and any interpretation can be the reason for the occurrence of calling other string-codes in order to respond to the mentioned interpretation (Analysis and interpretation have simultaneous activity). The called string of code has a significant relationship with the initial string of code based on sensory experience. But they are not the same. In other words, if the input information for two different people ends up exactly the same as the resulting input string-code theoretically, the interpreter resulting string-code to answer these two people haven’t similarity with each other. The output path acts the same as the input path, but in reverse order. This means that the graph obtained from the interpreter is saved in the response memory section and the output string-code is obtained based on prioritization according to the pattern framework. Output string-code is also created through five perceptual parameters. For example, in response to input information in the form of verbal - auditory, a response occurs in the form of verbal - spoken. This form of speech is manifested by the parameters of touch (Movement and touch of the tongue inside the mouth), hearing, and so on. Of course, there are different forms of manifestation in humans. In the previous example, depending on any tissue factor in the input information, a person may respond to verbal input by hands and other body movements without moving their tongue (Verbal). The incidence spectrum node has no specific limitations and is generally affected by related six-factor patterns and generally occurs in a compound form.

Note: During the analysis, interpretation also takes place. The interpretation which is based on sensory experience, calls for units and strings of code in the analytical section to apply the response process, but it should be noted that the process of analysis and interpretation occurs simultaneously. In other words, the analysis and interpretation in each pulse are perfectly related and consistent, and information units calling is based on the process of both sections, but because the interpretive section is much stronger, more structured, older, simpler, and more fundamental from birth in humans and based on evolution in existential beings, the interpretive section works richer and has a greater impact on the called response than the analytical section if an adult does not enrich his / her Colotix analytically (a variety of subject-related and then personalized subject codes).

Hypothesis

 

In animals, processing takes place in a different way. But if we want to say the subject just to understand the meaning, animals rely on interpretive processing. In the sense that the input information is interpreted and then the answer is based on the resulting interpretation. Further research may suggest that Colotix are much weaker in a variety of animals than in humans and have a much lower processing capacity. For example, if we imagine the number ten, the analysis in the human Colotix, in such a way that the cerebral nervous system can process analytical processing up to ten, in animal such as sheep this number is equal to two and in animals such as dogs and cats is equal to four. This issue can also be used in determining the IQ of a wise human (Homo sapiens) according to decimal scoring.

In animals, processing and perception has a qualitative spectrum and it has gradually become quantitative one according to the evolution of animals and in parallel with perceptions, the quality of perceptions on a quantitative basis is also in progress. In the human species, the quantitative basis has reached its highest functional capacity compared to other living things, and this issue has enabled humans to understand the time and a large part of the comparative and computing power in the processing procedure.

Surface and deep processing

Surface and deep processing are two types of processing that are categorized according to the purpose of their activity. In surface processing, analyzing and interpreting the information with the aim of finding and making a relationship, translating and understanding the input information and then imitating the information contained in the Colotix is ​​responsible for the respondent, although it is very possible that these imitations of the information in surface processing, the incoming detailed information is related to the most relevant code available, while in deep processing, all of the relevant information  are the relationship destination of the input code in the Colotix. In surface processing, information is processed linearly and in order of reception, but in deep processing, it focuses on information that is all already saved by Colotype and the processing is done all at once. So we conclude that surface processing takes place in the initial phase, and deep processing in secondary phase.

Note: In deep processing, the analytical section performs its activity at the first and then the interpretive section begins to operate.

Imitation and Comparative Processing

 

Imitation processing belongs to the primary phase and comparative processing belongs to the secondary phase. In imitation processing, the information express an imitative response according to the most correlation with available information codes in the Colotix structure after analyzing and interpreting. For example, when you receive the words (hello, how, are, you) according to analyzing and interpreting, all of the words and other received information imitate a string of codes with the response (hello, I, am, fine, and, you). This is an imitation of the presaved code in the corresponding graph in Colotix. Comparative processing belongs to the secondary phase; in such a way that if Colotix needs the information received as in the example above, and they are saved by colotype, they are adapted to all related structural units of Colotix during relaxation and secondary phase activity based on the six factor patterns and structure of Colotix while analyzing and interpreting. They are then modified and saved in the Colotix structure and become a part of the Colotix.