Grand Unified Theory . . . . . . . . . . . . . Symmecon Marketing Corp. ________________________________________

* Nanotechnical Atomic Imaging Software Development * * Chip Design Software Builds*................................................................................ *The Solution to the Schrodinger Wave Equation*
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     symmecon.net   Build Infotool 1            7 pp.          $150.00             P-306.8
 
          The build project for Symmecon Inc.'s central office mangement.  A structure for
    manufacturing and marketing MAVCAM modules for IC chip femtostructure modeling in full-
    wave EM solution software, or any molecular or material simulation software.  Build in
    exchange for software licenses with copyright discounts, which Symmecon can market for
    you.  Purchase of an infotool gives the owner a place in the cue for project discussions. 
 
              This infotool includes the CRQT.net Build Infotool 1, and Softicon 1-5 Build Infotools.   It has a Quick 
    Sym.net build plan for the startup phase, which will have a negotiated build price.
 
    
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    (C) 2009, Symmecon Grand Unified Theory Marketing Corp. 

 

     Topics in symmecon.net Build Infotool 1

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     1.   Arrangement of SYMAVIA, offices, CRQT.net

           Internet online Softicon MAVCAM operations.

     2.   Office work categories to be included.

     3.   Difficult aspects of the build.

     4.   The basic units of symmecon.net  data processing.

     5.   Several interface requirements, G4s fit in.

     6.   SYMAVIA requirements, basics.

     7.   Symmecon management flowchart.

     8.   Quality control department procedures, 

           relationships.

     9.   Administrative review.

   10.   Details of program content, structure.

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

   11.   Hardware layouts.

   12.   First build for minimode, Quick Sym.net.

   13.   ULSIC full-wave EM solution goals. 

 

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            The arrival of full-wave EM solution modeling with

     femtoscale electron imaging in the picoyoctoscale 3D

     interactive context for all fields and waves will innovate

     IC component design and analysis for science or engineering

     offices.   Chip devices may be researched by mathematical 

     modeling of atoms which video images the 5/2 kT J energy

     cloud with exact pymtechnical detail for topologies and

     pulsations. 

    

           The topologies of energy field waveparticles are modeled

     for all five classes:  positrons, workons, thermons,

     electromagnetons, magnemedons.  Those are accented by

     imaging for the four force field particle types: chronons,

     probablons, magnesic varietons, gravitalons and gravitons.

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    Symmecon Data Processing Concepts for the

    Quantum Age

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            The Symmecon plan for MAVCAM intends to extend

    the classical ideas of science by ultrascale topological

    wavefunction computation of atomic and electromagnetic 

    wave interactive screen video models. 

 

               This dimension of material, field, and wave structure

    has relativistic dynamics which unfold in quantized units of

    symmetry, time, probability, space, gravity, thermines, and   

    magnetic particles.  The flowing variety of force and energy

    fields has concise definition by CRQT function network 

    methods, and will be gradually, but reductively, harnessed

    by MAVCAM analysis done interactively with new instruments

    for experimentation that will apply superworkon techniques.

 

              Electron topology may now be studied with graphic

    femtophysics, which is necessary for a modern science

    office's pace and scope of application.  Visual displays with

    electron cross sections will speed up a semiautomated

    IC design 3D solution process because the mind is a more  

    inventive, creative processor than a chip.  Reductive 

    design improvements and innovations will close that gap,

    but  the former built the latter and will lead procedurally in

    step with commerce.  That is to say that the ideal of

    automated chip design will not keep up with interactive 

    screens with fluid, powerful capabilities.  AI features will be

    built in at each suitable juncture, as a necessary routine, yet 

    the dynamic artistic power of talented people will prove to

    be the dominant force in science research.

 

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