SCS 1 Softicon Commercial Systems Infotool 1 16 pp. $31.00 P-306.1
An introduction to the corporate Softicon software sytem for GC and G4 management of
computerized nanotechnology modeling.
Here is Symmecon's explanation of the plan for modern, fluent management of commercial
nanomaterial physics modeling by the Softicon + Silicon Workshop 1- 3 software flowchart.
1. Intended Softicon prices and included copyright discount lease table for advancement
of discount with lengthier lease periods. 35 % - 50% discounts. Virtual ownership of
the grand unified theory.
2. How the array of Softicon 1 - 5 MAVCAM software build workstations and management shells will operate.
3. How Softicon users will subcontract to assemble the VLS video modules needed.
4. Build in exchange for product licenses.
5. Details and discussions of the digital environment, nanotechnical industry, future developments in
nanoscience and it's commercial interactions.
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Commercial Production of Quantum
Atomic Model Videos by Softicon GC-G4
The voluminous computer programming project of manufacturing high-resolution
MAVCAM files of picoyoctometric exactitude will be a challenging task,
but Symmecon's system is the only design capable of achieving that. One
significant fact is it's application value for electron microscope or atomic force
modeling instrument control, focus, improvement, and extension. It will enable
those studies of nanometric scale features to magnify more perfectly, and give
resolution of nanoelectronics circuit physics effects that extend the data acquisition
to smaller and smaller scales. The electron will be imaged, as a streaking sphere
at first, then more distinctly as the barriers of relativistic changes and quantum
shifts are overcome. That will open a wide panorama of new opportunities to
science. Femtotechnical electron topology modeling will become a reality.
The Programming Build Size of the Grand Unified
Electromagnetic Model of the Atom
This is central to the work, which will call for modern science acumen with the
office infotools for diagramming the picoyoctometric structural quantum physics
details which illustrate the next level of material detail. The MAVCAM expansion
of that onscreen image to the femtostructural scale will resolve individual electrons
for silicon chip femtoelectronic modeling, which will require that all of the
picoyoctometric force and energy particles in each atom involved are accounted
for in order to pinpoint each electron's possible states and positions. That means
one atom's diffuse cloud of internal heat capacity energy of 5/2 kT J has billions
of energy particles, with specific positions and interactions determined by unified
quantum physics, with flowing changes as the energy fields pulsate at
{ Nhu = e/h }.
Hence a one second unified video atomic simulation has billions of RQ
interactions to calculate before a valid repositional image emerges from any
beginning state. That sort of 3D energy cloud computation is achievable by the
CRQT mathematical equations, to produce exact screen modeling with available
numeric data panels alongside. That will only happen when the software is
designed to verify these multitudes of varying factors, as particles of heat, electric
charge, magnetic force, or any other force or energy enter the atom's volume of
connected, reactive outer fields. I know of no other project constructed in terms
as exact as these. The Symmecon copyrights include the equations for quickly
calculating all of the atom's relativistic quantum jumps, of all of the force and
energy particles involved, as one complete, unified atomic reaction for any photon
gain event of that atom.
The computer programs for this will be very large scale, and you can calculate
estimates of how many subprograms, routines, subroutines, and code lines will be
necessary to display a molecule or integrated circuit volume of a given
nanostructural size by use of the MAVCAM manual The Crystalon Door. The
Softicon system will be ready when it has the programs for setting up useful builds
for this sort of nanometric volumnar video models for any elemental atoms such
as those of silicon based transistorized integrated circuits for digital data
processing. The final, definitive videos will be produced by application of tentative,
experimental MAVCAM-assisted AFM probes to successive levels of nanotechnical
imaging, and then picotechnical unified atomic physics models. Development of
new ultramicroscopic instruments and techniques will have synergy with the
progressive picostructural definition of the MAVCAM system.
Now you have a basis for examining the Softicon Commercial Systems Infotool 1
with it's basic plans for the software build projects that will write the programs for
prototype Workslates and their management shells. When finished, these will be
the workstation networks for building the first generation of MAVCAM modules.
They will also hold basic chemical laboratory software for routine and project work
of several sorts, then development of an electronics workshop version will follow.
It is estimated that these functioning Softicon consoles will be tested and improved,
for ~18 months, by the reductive process of defining central modules for the set of
118 elemental atomic topologies for their basic structures at standard temperatures
and pressures in simple surroundings. When Softicon + Silicon Workshop 1-3 is
capable of that they will go to the market as fit for development of more refined,
responsive, basic quantum atomic models.
That stage of Softicon 1 - 5 will also have some unified quantum physics
electromagnetic wave modeling capability, and some modeling routines for fields
of heat, electric charge, magnetic field, and forces. Those products will be VLS
software volumes with special hardware and operating system needs, which will
lead to synergistic advances of silicon based nanocircuit chip design and MAVCAM
module detail and responsiveness. After a period of time the first hardwired,
MAVCAM-dedicated microchips will be fabricated for dedicated Softicon desk
console computers with unique MAVCAM-optimized architecture.
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(C) 2009, Symmecon Grand Unified Theory Marketing Corp.