Sunday, December 11, 2016

Measuring the Qve Cube for Conversion

Content/Index

DPC

Distributive Power Concepts

SRQEM: QLD Energy Machine 

Qve Cube


We spent a good deal of time studying the requirements for resizable cubes and conversion requirements and we realized that none of this would be possible if we were not discussing QLD Energy Concepts.

So let's define some of the terms we set into motion before we can discuss Time and Motion:

Use of  Unique Terms:

QLD:  a term referring to Quantum Lamb Dynamics which varies from QED or Quantum Electrodynamics (the anachronistic model for the present universe)

QEM:  an acronym for the QLD Energy Machine which produces the String base of all things produced in the Quantum Cube dynamic

Qve:  Quantum Virtual Emulation vs Quantum Virtual Simulation:  Emulation is used to define the requirements to produce a quantum, and to model the quantum with a dynamic model that may be similar but not essentially the same.  A static model can be applied or a series of changes to a static model can be applied to emulate the activity until a motivational model can be assembled.  Simulation on the other hand, is producing the action in a mode of Quantum.


We had begun our scoping requirements explaining how we were differentiating the cube and have explained mapping concepts.  But the key to our Quark based model is some unique qualities of the cube design in virtual that make a number of features possible:

  1. nesting of machines (with limitations) and object cubes
  2. tiering of levels, three are defined
  3. motivational speeds
  4. refined directional movements
  5. sizing, scaling and defining parametric organizations
  6. external and interior framing capabilities
  7. gini composition and drive
Using Supply Chain Theory we can see that parameters prevail in Time and Motion:





The thinking that we are using is being built upon from the work "customs" or process theory presently observed, although things may turn around for a different functional distribution, understanding these concepts are always part of making forward progress in an adaptive period of change.

What isn't always available is how the parameters play a part in the entire conversion process. This is why an active Scorecard is recommended because it defines metrics and KPI's to adjust the performance of the interior workings of controllable variables and the affect that the external variables are having on the conversion process.  Also the Portfolio process brings in the business state and conditions that prevail upon the funding requirements and resource capability.

The interplay of these facts sets up a dynamic within the process.  The significance factor drives the conversion in a progression based on a discrete time requirement. In order to make conversion, these are the factors that need to be observed for a specific product.

In QLD string the continuous refreshment that maintains the product is based on the same parameters.  There is not a gap between the servicing of the quantum basis and the NEMO requirement of the shell.   Because there is no degradation of service and no decoherence in the model, there is both permanence and sustainability in a planar configuration of quantum. Also the ability to park the Qbit and direct the energy enables activities and tensor relations.

What is a planar configuration of quantum?  A planar system is like a board present in a machine, such as the mother board.  A planar system presents flat mechanics and very few if any moving parts.  The more state configured the system is, the more likely it is to maintain time and motion without interruption.  String generation is in continuous demand and always pays back immediately.  But until mastery of virtual machines is gained, such performance metrics may not reflect advanced capability.  In other words we may have a low efficiency until we have mastered the process according to the learning curve and demand should not be quite so imposed at first in a new process.

A requirement of an agile and adaptive process is to keep up service in spite of change-ups or new technological requirements.  This means that tooling, moving, changing and driving the machine has to leave appropriate compositional space to move in new objects and make replacements.  But it is also to possible to use a clone copy of the machine.

Since everything is affecting the performance of the machine it is important to recognize that a continuous flow process is required throughout the cycle of order to delivery.   But many things can happen even in a very good quantum process of virtual builds that can upset that schedule.

One obvious answer is when the vendor discontinues an integral part or material.  Since we are in the META state you would think we could just make more.  But something may have occurred in the new presentation of material that wasn't there before, and this may not suit your product.  So there is a continual lookout for the things that may interrupt service.



You can notice that there is an inference to I^7 which indicates the more advanced level of quantum.  Historic storytelling has made note of many such references including a new stone which is unquarried and not of "human" origin.  We expect this is the quark composition and underlying lattice strategy (string basis).  Further there are references to glass, potential, remote string capability and a "nations" level of participation in a leaf and tree taxonomy and photosynthetic arrangement.  This is now in the scientific forefront of quantum advantage.

There are a number of Time parameters and motion constants present in the analysis carried forward from layering these concepts.  Rather than dwelling on the details of all the numbers, lets note the midpoint of 212 is down from a roughed in midpoint of 214 and a specified midpoint of 213.  From a spin constant of 2 we are still working.

But now we should take a look again at the cube measures.


In terms of the spatial relations of the cube to the bridge we can now see that we are at a midpoint of 211 and that is a triangulation measure.  211 + 19 = 230 T&M remainder.

So we now know that many parameters exist that define this kind of production.  And we have become aware of a predominant number of factors which reproduce themselves in branching numbers.  These numbers can be mapped and tied back to the Pascal pyramid defining the cube arrangement.



We see this adaptation like a very directed source of engineering progress made across the span of discovery and certainly within the last 100 years.   We hope that you will agree with us that these circumstances are quite a circumference around the inferential knowledge acquired and still progressing. 

We still have many topics to discuss in additional detail of which manifold engineering is still one of the best.  People think all of this is alien, and yet there are people all over the world versed in timelines and manifolds, yet they may be questioning why.

We learned to frame the production in a progression and complete the cube in a conversion process in more than one kind of production; we did this on a theoretical mathematical basis obviously.  But that is the start of seeing how it could work.




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