Coding Entry – September 24, 2025 By Jonathan Olvera Concept: Compatible Source Code for Conductor Calculators and Negation Screens

 

Coding Entry – September 24, 2025

By Jonathan Olvera

Concept: Compatible Source Code for Conductor Calculators and Negation Screens

This entry introduces an idea for a compatible source code that integrates hardware and software functions for conductor calculators, negation screens, and display systems. The goal is to establish a numerical notation framework capable of expressing conductivity, diffusion, and negation through structured nodules, electric values, and coordinate references.

Nodule and Properties of Conductivity & Negation

The system operates on a nodule-based reference model, where each node holds a value of electric contact and coordinates with surrounding nodes through direction and numeral control. A negation nodule occurs when a numerical unit meets a counter-value, creating a mirrored or inverted response. This allows for more dynamic numerical expression and calculation.

Example Structure:

node         0       -9          3       [
electric     9nodule  neg node   9node[2]

             -9       -1.5
              3
(-1)         -1.5     [2]
*5           -.555     -6

In this sequence:

  • Nodes are defined by coordinates and electric value.

  • Neg nodes introduce negative conduction or counter-response.

  • Multipliers (*5, -0.555, etc.) shift the values into diffusion ranges.

This structured notation allows complex conduction patterns to be mapped into numerical space.

Numerical Entry & Material Diffusion

The entry conduction system models diffusion into cellulose, sodium, and glass composites, providing a pathway for hardware-level interaction. Through this mapping, cross-references between numerical, alphanumerical, and negation values can be tracked, enabling conductivity mapping across both simple and complex material systems.

Dimensional Switching (3D → 2D)

One of the essential applications of this system is the ability to convert 3D numerical negation displays into 2D entry systems. This allows:

  • Simplified hardware screens for conductor calculators.

  • Advanced software notation for numerical modeling.

  • Visualization of diffusion pathways and negation nodules in different dimensional states.

By shifting between 3D negation and 2D numerical entry, the system remains adaptable for display and processing across multiple platforms.

Closing Note

This concept lays the groundwork for a unified source code standard for conductor calculators, negation screens, and future display technologies. The nodule framework, combined with conductive-diffusive properties, offers both a theoretical and practical pathway toward advanced computational and electrical systems.

—Jonathan Olvera

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