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* Nanotechnical Atomic Imaging Software Development * * Chip Design Software Builds*................................................................................ *The Solution to the Schrodinger Wave Equation*
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  SSW 3.0 
  CRQT Studio Build Infotool 1      4 pp.     $20.00          P-306.4
 
  Softicon Silicon Workshop 3.0                        
  CRQT Studio for linking Networks for MAVCAM video finishing
 
        Screen sizes and resolution enhancements with centralized hardware and
   software for more advanced, more commercially refined and coordinated
   development and finishing stages of quantum atomic model programs, delivered in
   a console for multinetwork management and marketing.  
 
        A CRQT Studio console will finish MAVCAM modules for regular marketing ventures or specific
   laboratory science needs.  When the CRQT Studio sells it's products, it applies a 25% discount for
   all of The Crystalon Door copyrights and patent rights used in it.  The price of one Studio console
   software volume includes a five year lease for the discount, and the single user license also permits
   marketing of the list of Symmecon products with the 25% discount.
 
       Scroll down for a list of CRQT Studio features intended to be built in for fluent advanced quantum
   physics product development and finishing.  Now Symmecon offers a small business MAVCAM option
   with possibilities for success in the most modern areas of relativistic Schrodinger equation atomic
   imaging for quantum nanocircuit modeling.  The chemical processing applications and nanoelectronic
   design features will make Studio a valued part of chemical engineering office software or electrical
   engineering design or analysis projects.  Below find an overview of CRQT Studio console build
   features for advanced electron physics, electromagnetic photon topology, quantum gravity field
   models, and more advanced nanophysics simulation.
 

 

 Quantum Physics Equation

Modeling for Nanostructure

by CRQT Studio for Finishing Network Products

.................................................

 

 Infotool Contents

________________________

 

  1.   CRQT Studio's target price.

  2.   Offer of product licenses for build work.

  3.   Symmecon markets for Studios.

  4.   Infotool owners are in the cue for build

        discussions, projects.

  5.   Symmecon products which Studios may market. 

  6.   Robust features distinguishing CRQT Studio.

  7.   Bigger screens, higher resolution work.

  8.   Manufacture of paper, fixed media at Studios.

  9.   The synergistic bigscreen Studio services

        concept.

 10.  Conlinks, conceptual links.

                              .....................   

 11.  Equipment and technical services marketing.

 12.  How computer languages for the Internet will

        lend force to Studio operations.

 13.  Contemporary science office needs.

 14.  Portals to and operations with GCs, G4s, and    

        Symmecon.

 15.  Marketing hitech products.

 16.  Commercial features built in for semiautomated

        sessions with all Softicon subscribers.

 17.  How Symmecon supports the Softicon Silicon 

        Workshops' commercial stability.

 18. How academic users will fit in.

 19. Strict, procedural science factors.

 20. How work theme specialization fits in.

                              ________ 

 

 21. Future refinements, market developments.

 22. Unitized video work.

 23. Relationships to local, regional experimental or

       fabrication workshops.

 24. Programming languages, disk imprinting.

 25. Support role for CRQT Studio in nanoelectronic

       silicon chip IC manufacture.

 26. How a Studio allots time and resources to purely

       commercial work.

 27. Exactitude of CRQT MAVCAM programming.

 28. Current standards for science and operations for

       modern commercial needs and pace.

 29. Key role of Studios.

 30. User selectable work modes.

 

                                      .... 

 31. Difficulty of this build.

 32. Comprehensive spectrum of Studio science, 

       technical concepts.  

  ______________ 

 

         Symmecon's MAVCAM objective is a computer

  industry rennaisance.  The long awaited quantum

  relative format for the unified 3D EM solver

  waveparticle model imaging function processor

  harnessed to largecomputers and their arrays is

  ready for the next step toward ultrascience.    

 ....................................................................................    

   

 

 Infotool 1

 

      Learn more on MAVCAM build workstation network coupling for finishing nanoscale video atomic model products.

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     Software design tasks call for comprehensive workstation

    capabilites that call from a list of standard, formatted

    templates and allow user programmable task routines.  This

    time programmers will set up a build console with all of the 

    structure and features needed for very large scale 3D,

    animated, interactive video modeling of an atom's volume

    with each of it's force and energy particles. 

 

           There are billions of energy particles in one atom's outer

    Q region cloud layer, and it's exact, animated topology will be

    calculated by a MAVCAM module.  This degree of accuracy

    is a daunting challenge, but now a routine one.

    Only many months of exact 3D interactive programming can

    make progress toward a successful conclusion of one

    model's outlines, and that very arduous process must have

    only the most fluent workspace control functions which can

    be devised.

 

           That difficult, very large scale build work will be conquered

    by dividing the problem into parts.  The MAVCAM 

    equation which generates images of all of the atom's

    individual particles is waiting for applications to give it screen

    display.  

     

            Now the Symmecon nanomaterial modeling software

    build system, applicable to 3D EM full-wave solutions, is

    being designed to separate stages of very large scale particle

    cloud imaging into manageable units in order to map the

    unified physics of force and energy reactions with picoyocto

    detail.  The objective is to design screen images for the

    atoms of the periodic table so that they will react exactly as

    real ones do, combining to form molecules or materials

    through relative quantum waveparticle events. 

 

            These video modules will allow a scientist to apply any

    environmental conditions of heat, pressure, or others to the

    virtual molecule or material and observe how it responds. 

    A set of electron closeup views will be available for viewing

    the cutaway scenes of any individual electron's internal state,

    in pymtechnical terms of forcon and intermedon mechanics.

 

           That MAVCAM system is now ready to be screen-applied

    by programmers who want to face the VVLS challenge of

    making the Softicon Silicon Workshop 1 - 5  MAVCAM Build 

    Consoles System. 

 

           Softicon will expand, once it's basic form is perfected, to

    new consoles such as:

 

            1.   New electron designs - designer electrons.

            2.   Electromagnetic wave and photon designs.

            3.   Supersymmetric pentayoctal design and analysis for

                   the 10 exp -125 m range of material modeling, the 

                   supermicro imaging console. 

            4.    Gravity device applications.

            5.    New forms of force and energy, ultronics.

            6.    Advanced silicon based IC chip modeling.

            7.    Advanced RQT bioscience workshop.

 

 

           ...........................

 

            MAVCAM applies to nanotechnical research in all

   fields, displaying new data arrays for molecular physics,

   material bonding, chemical processing quantum effects,

   bioscience molecular biochemistry, and IC chip nanostructural

   force and energy video simulation.

 

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       MAVCAM conforms to the unopposed motion of disclosure in U.S. District (NM) Court of 04/02/01 titled The Solution to the Equation of Schrodinger.