D I R E C T O R
R M - M D S 6
- Intent: To create a cell substructure splicer for future submissions.
- Image Source: N/A
- Canon Link: N/A
- Permissions: N/A
- Primary Source: N/A
- Manufacturer: Roble Manufacturing
- Affiliation: Closed-Market
- Model: RM-MDS6 Cell Substructure Splicer
- Modularity: No
- Production: Mass-Produced
- Material:
- Duranium Exterior
- Sybarium Crystal Focusing Lens
- Polypropylene Thermoplastic Polymer Tubing
- Micro cutting-laser
- Plexalloy Blood Plasma Storage Tanks
- Micro Bioscanner
- Molecular Microscope
- Liquid Isophane Sanitization
- Quadranium-plated Centrifuge
- RMD-B11 Feyr Droid Brain
- RMD-C10 Odin Processor Core
- RMC-114 Magnetic Energy Generator
- Liquid Isophane auto-injector into used storage tanks and tubes.
- Bioscanner and droid brain to automatically identify substructures.
- Multiple-type blood plasma to infuse into existing samples.
- Storage and tubing continuously cycle to keep existing samples alive.
- Multiple storage tanks for different samples of blood and organic tissue or liquids.
- Multiple internal centrifuges to separate components of blood samples.
- Sybarium focusing crystal-enhanced micro-cutting laser.
- Molecular microscope for precise imaging and visualization.
- Micro-recording real-time holofeed display and interface.
- Able to isolate and take apart cell substructures.
- Able to recode, restructure, and modify cell substructures.
- Splicing Ace: The RM-MDS6 is built specifically to splice apart microscopic cell substructures, and it's very good at what it does. Advanced scanners allow the splicer to isolate individual cell, create a real-time holofeed display and interface to view the cell, and has a number of tools to isolate and splice a cell substructure, as well as recode, restructure, modify, or take it apart.
- Large Size: For a machine dealing with such small organic components, the RM-MDS6 is rather large. Any installation or machine that wants to utilize or integrate the splicer must be sufficiently large in physical size to accommodate the splicer.
One of the most advanced cellular technology to ever be produced, the RM-MDS6 Cell Substructure Splicer is Roble Manufacturing's first creation that delves into genetics and advanced medicinal practice. The splicer is designed to, simply, isolate cells and the substructure within them to allow a user to modify, restructure, or take apart the various microorganisms that make up organic cells.
To do so, the machine is quite large, and for a good reason; the sheer amount of tubing, electronics, sensors, interface projectors, and interface equipment, and storage required to make the splicer so effective results in the RM-MDS6 being quite large. But in the end, it pays off with having an extremely effective machine, one that can advance studies into genetics and other obscure fields of medical science.
Changes Made: Formatting
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