Monday, December 26, 2016

Securitization in Qve

In the ordinary world it took years before industry learned about:

Securitization‌ is the financial practice of pooling various types of contractual debt, such as residential mortgages, commercial mortgages, auto loans, or credit card debt obligations, and selling said consolidated debt as pass-through securities, or collateralized mortgage obligation (CMOs) to various investors. The cash collected from the financial instruments underlying the security is paid to the various investors who had advance money for that right.  Wikipedia

This practice turns insurance into an Investment Practice rather than an Actuarial Service.  In fact, these practices in turn changed banking into a Retail Industry selling digital products.  If Technology were to become truly Green, many more industries would merge their services, but create a more functional application of power, energy, capitalization of virtual products and combined subscription services.  It would be a truly Virtual Marketplace.

Digital Energy could become a bios package as well allowing people to exceed ordinary standards.  So why argue with a new version of Quantum?



We noticed that smaller was better in terms of speed, at least in the Quantum world.  Smaller can negotiate curves and hurdles much better, passing through gates faster than anyone can blink.

If everything reached the META State of maximum sustainability, what would insurance companies insure?  Well, from the corners that industry has already turned, we can see that they would be underwriting the infrastructure and developing a retail means to insure delivery of a number of utility services. 



We keep pointing to finding those mechanics that meet the need within the Gap and learning to manage the field position to gain more leverage.

Who will underwrite Proxy Services and make up the industry requirements in Timing and Timeframes?  Typically, a loss of time is actuarially managed and at least for awhile that may still be a consideration.  A great number of things were learned after the wars brought about new products, one of them being that the real problems of money were in securing the stability of infrastructure.  We have a lot to learn about META Frames and new Quantum Systems. (We also want people to start to recognize branching numbers and their relationships. Just look at the first 2 or 3 digits and use sliding digits to see that the same numbers are at work throughout all of our examples like a map, these branch numbers point to the operations they perform.)




The start of something new has a lot of testing involved.  No one expects amazing overnight.  But who would insure ordinary material once they see what META Materials can do?

How do you build a Digital Power Plant?  Inner Space is waiting to be developed
It could be that power generation in general is ready for the next step in quantum digital production.

Also Read:
To Our Captain, Nothing We Do Must Fail



Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental







We are the Imagine Nation...building in Qve


When a new way of thinking comes along we have to think differently.  Some people have a gift of Imagination for new ways of working, building, thinking and accessing new content. 

A ONE System is not about a country or a brand, it's not about a color or a scheme, it's more about connecting like Islands in a Stream.   Music can inspire us to think differently and it tells us there are new worlds to conquer.  IT was Alexander's one complaint, when he finally got good at it, there was no place to take his skills to.  We know when it's time to ante up, the game changer is here.

Changing Schema in Quantum is like moving from old classics to new roles in a modern spin off; like watching reruns from the old ways we used to think.  We've done it before, like sliders we just moved into the new Windows, or just turned over a new leaf of the Apple system.  You don't have to have an apple fall on your head to tell you that gravity has changed.  But how do we work with it differently?  When things change put on a new hat and even if you feel foolish, learn something new.



It's like when you first get married and you can't remember where you live exactly, don't know what keys to use, can't remember where you put the cups and glasses, and have to learn everything all over again.  So take out something old and something new and learn to work with it differently.  IT may be borrowed but it needn't make you feel blue.



For instance the way we think about time will change.  You don't need to get tied up in knots, you already know how to think like this.  You can loop through a day and keep it all together, you can change roles like you change hats, and you can put new ideas together and get them to work.  Things take time tell the world to buzz off for awhile.  You don't have to answer the doorbell every time it rings.  You need a new set of priorities.




A new spin on old classics will amaze you.  Things can be done rather smartly, don't believe that people won't do a good job.  Don't be afraid to set your sights on a whole new world.

Remember we are the Imagine Nation.  And like generations before us said:  you can be anything you need to be by working at IT.  A Virtual City is the work of everyone.

We know: Things are going to be different, we'll find our way together.




Also Read:




Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental



 







Sunday, December 25, 2016

Content Management in Qve


In our last Topic about a Qve example of Quantum based production emulation we had shown the idea of moving from the concept of building a design set and moving it out to a production site or the additional concept of moving a virtual machine to a specialized task in the Virtual Universe.  But there are several functional aspects of Time and Motion that need to be deployed in the spectrum, and here we want to see how many topic related aspects of this we can use to answer questions about this idea.  In our last blog entry we asked this question:



See if you can help us solve this puzzle.  When do you apply the Time Bottle, when do you apply Timelines and when do you apply the Manifold?  We are going to talk about this next...

The Time Bottle idea is the Gini System that enables all of the parts of the Machine to communicate with one another.  In some ways this idea can work with the ship in a bottle idea or the manifold net which can both be deployed from string based elements like plastic space.  So this idea can actually be deployed anytime but is distinctly part of any object deployed into a METAframe or as part of the internal METAframe.  The time bottle arrangement should also have a watch window that enables a proxy to follow the output, time any changes and deploy new object relations.

The Manifold always controls the overall deployment and operation of any object.  Gini objects always communicate with the Manifold.  There are some standards that are plainly written such as 144 cubits which are mentioned throughout time, and while may relate to earlier technologies, certainly remain appropriate.  ISO standards are what makes development connectable with new technology and existing formats, even as it relates to the inner space of the Virtual Universe.  We mention this because this is probably the way things will progress from the beginning.

While we have shown 3 or more timelines used in Development, and we have made calculations of how to develop an agile project using these timelines^, we haven't discussed using the cloning process.  It is possible to clone more than one proxy arrangement during development and to use teams to manage various aspects of the project such as more than one Instance to aid in correspondence.  Using plastic space and creating your own timing device or Brane, a series of impulses can set up the timings that you are looking for.  Also, color coding the impulses can allow you to know the progress or stage of your project.
^may not be published in this series

Additionally, in the production of Virtual Glass, it may be necessary to tie different lattice arrangements in certain sequences.  This is the type of utility idea that may make sense.

Because these ideas are just the beginning of building in the Virtual Cube we can offer only a few ideas, but these are here to give some substance to the ideas in emulating strategies for development.


In order to enable the correct rotational speed from our keys to deliver subassemblies to our production we increased our manifold speed. 

Most notably we need to correlate this to our maps: using portion below note the call ops process found here: http://quantumve.blogspot.com/2016/12/manifold-delivery-in-qve.html




Now all of our ideas are coming together more closely and we can see that everything is based on spintronics.  The way we position subassemblies with our keys is important to the strategic planning of production assembly but we keep using our utility maps as the means to co-ordinate our process.  The process is always going to rotate subassemblies according to a random access program and this would enable very good encryption.


The maps we used equated to the area that we required and it also created some topography that we could use to distribute our requirement.  We are certain that this would not be the only setup that the operation could use. All of the different analogies of how a Quantum Cube works are found in different media.

The use of a Flag system is also part of the Time and Motion control relative to the Formula ONE theory of the best use of materials and processes to refresh and rebuild in a META State.






Another reason for using the Flagler Rail map is the idea of the Cube and the Progression. We began with a Walk progression and moved to a Run progression when we learned how to move onto the Manifold.  Cubes move the process much like a rail system.


This idea is based on the quantum build-out and application of inner space.







Also Read:

An example... more to follow in QVE

Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental



An example... more to follow in QVE





The idea is what you build with the mechanics of Qve that makes everything not so squirrelly or difficult to imagine.  Using META materials and other ideas are new. But using earth-space sciences and new technologies to build products has some exciting prospects.




See if you can help us solve this puzzle.  When do you apply the Time Bottle, when do you apply Timelines and when do you apply the Manifold?  We are going to talk about this next...



Opening and working with content in a META framed cube is the most exciting evolution of content sourcing imaginable.

Also Read:


Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental

Saturday, December 24, 2016

Quantum Remade

We have written a series of blogs describing how particles can be used to build objects.  It is not only such movies as "Frozen" which encourage our thinking, but innumerable stories have continually led us down the Time path of Technology, as well as our practical experience with systems theory and analytics.




Our thinking in the series of blogs regarding Qve Quantum Emulation is derived from our study of QLD Energy which is defined based on a Quark-Qubit configuration. This research led us to view the use of Quonics from the Unified Theory that emerged in emulating these processes which are described as consisting of the following processes:
  • flat atom construction
  • photosynthetic processes
  • nanos packaged energy
  • rho rotation of electrons (zero point energy)
  • potential power driven
  • quonics as drivers (directed nanos energies eliminating gravity as a requirement)
  • independent use of particles (absolute zero temperature)
  • building with particles requires lattice knowledge
  • virtual glass is devised with particle compositing
  • inner space (a theory prevalent long before we were born)
  • power intelligence (enumerated as the redistributive processes aimed at functional application of power and green technologies); the bios must match the environ.
  • Euclidean space can be defined but must be conditioned in order to be used
  • the wall ultimately will be of a virtual METAframe design
  • Qve Virtual Machines must be understood before Quantum Computers can be built because all of the components are virtual
  • The next Quantum based universe will be designed on the basis of functionally applied virtual reality tools with the controlled capability to protect individual persons
  • Encryption is a very important mathematical coding science
  • We believe that most story-telling, myth, prophetic revelation and other science related fiction point to string as the pivotal transition to a new era, and the Quantum Cube as the ultimate conclusion of branch mathematics and computer adaptation.
  • Flat Cloud engineering includes the delimitation of space and the ability to produce in at least 8 dimensions of Time and Motion based on Formula ONE transitive properties
  • The composition of the ONE System is the ultimate goal and not a disfavor to any country, industry, military organization or political leadership.
  • The utilization of Flat Cloud engineering and META materials allows for the formulation of Metrics, Matrix and Maps to all be on the same numeric basis and branch related formulations between states is possible. Time can be used in multi-instance programming.


It came to our attention during the writing of this series of blogs that the following confusion does exist:
  • Green Technologies is server based energy delivery (not widely known)
  • Rules Based thinking is regarded as some sort of religion (a very big surprise to Developers everywhere)
  • The Agile Manifesto seems to be project production without rules (not possible)
  • The guardians of QED apparently do not realize that QLD requires the same set of skills or they think that QED is the ultimate aim of the Owner of the Universe
  • Server based thinking about human support systems is not unheard of
  • There is always an economic value that must be preserved in any system in order to sustain it and to leverage it
  • The ID can be preserved through appropriate encryption processes
  • System Access Protocols are more modern and efficient control features than police
  • The intention of System Access Protocols are not to create functional barriers but to prevent illicit use of the system.
  • Rome was built by E-Tru-Scan Technology which existed with the Owner of the Universe long before the word technology was even know.
  • The aim of Particle Science is a Zoo (this is the Dr. Dolittle version of applied science)
  • META based thinking is an advanced theory of science that doesn't rely on XMen for knowledge
  • META based material science and technology is the 21st century design theory
  • The use of TIME in Manifold Engineering and MOTION in Active Dimensions is the appropriate use of Quantum Development as Qve or Qse
  • Cubism distorts the functional theory of the cube with literal translations of processes without scientifically accurate descriptions of materials or the uses of time and motion. However it does document changes which can be described verbally and is emulation. But our point is that the content which is buried in underutilized functional capabilities needs to be unleashed...

If we offend others by writing about the capabilities that were described to us about the Quantum Universe in QLD, we apologize.  But these articulated ideas and presentations were based on studies implemented by the Owner of this Universe whom has told us that we should sign his designation as OA/s on our entries. What price we pay for doing so is truly our own.  We believe in Intelligent Design and the Process of Adaptation in Forensics and Mu sic.  We have written some limited material on color and sound engineering in quantum, as well as lens capability, and the bios composition (which we can not describe well without further study.)  Other ideas we have gone into more extensively. But all of the ideas listed above we back up with some documentation.

Sometimes we use a less than formal proof, but most of our emulation is math and rules based programming.



Also Read:


Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental


Friday, December 23, 2016

Matrix Repackaged


Encryption: Maps, Models and Mirrors



EMS Features



SRQEM: QLD Energy Machine 


We are certain that the repackaging of active elements such as nanos loaded with energy spectrometry would change the way everything could operate.  But we must stress that in QLD the valence bond is created between quarks that are packaged in Qubit predicated relations.





Spectroscopy and spectrography are terms used to refer to the measurement of radiation intensity as a function of wavelength and are often used to describe experimental spectroscopic methods. ...In quantum mechanical systems, the analogous resonance is a coupling of two quantum mechanical stationary states of one system, such as an atom, via an oscillatory source of energy such as a photon. QED Systems per Wikipedia (Quantum Electro-Dynamics)
QLD is Quantum Lamb Dynamics:

So this is why when we point to the use of Quonics as drivers in the ONE System that a smooth response can be generated to  move, motion or motivate many different types of activities. We are also pointing to the lag on the Manifold of our project and how the transitional state can be changed by Interbranching. For example, when the Gap process produced the least squares result of 3508... we can find the Interbranch difference to 3567 as 59 and begin the interbranch transition of 1.67 (which incidentally takes up the lag in our project scope on the last blog entry of 320 days/10/2.5 =12.8-11.2 or 1.6.) here: Asset Capitalization in Projects


We stress the predictability of the results because in QLD everything is directly controlled and ambient energy with tendencies to deliver irratic results are not present in the system.  This means that devices can be designed and delivered within a Virtual Spectrum of refinement.  This also demonstrates how various composite lens effects can be created with a particle dispersion in a nanotechnology process of QLD.  This can also create various field arrangements within conditioned spaces of the environment.  With photosynthetic virtualization the ideas of reshaping tomorrow are not so distant.

Now to reiterate the process that we employed in our Qve blog:  we have taken a Matrix configuration based on a logical progression of a production and we have repackaged the Matrix to produce that configuration on a CUBE basis of Pascal branching.



Many Technologies are suggested:


By engaging in this type of Emulation we have shown how the interior functionality of a process can be brought into the application relationship of an SAS process.  But more importantly we have demonstrated that the Quantum process based on QLD Energy could create Virtual Glass and Virtual Machine components capable of delivering an out of the box  composition of functional applications.  The smaller the components of the application the more competently CURVE requirements can be compensated at required speeds.

You may also notice that in our use of television and movie related productions that many ideas are emulated by modeling various concepts in story form.  We find this to be a very interesting way of suggesting new ideas and proposing models that need to generate further interest on the part of science and technology.  We find that thinking through Intelligent Design encourages people to see doors or windows as obstacles they can motivate.




We found the same graphic emulation in every VIEW of Matrix Theory.  However, we did note that in QED versus QLD a different outcome is determinant and not visibly distinguished because the packaging theory and the redistribution of attributes do not present themselves readily.  This is why we have pursued this emulation and described the nature of Qve.





Also Read:
Asset Capitalization in Projects




Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental



Green Technologies






Thursday, December 22, 2016

Asset Capitalization in Projects

Encryption: Maps, Models and Mirrors

EMS Features

SRQEM: QLD Energy Machine 


The best method to value the basis of the business in order to maintain funding is to capitalize projects and use a subscriber base.  When the asset is put into service the machine can upgrade their existing portfolio of machines.  In QLD the question of the life of a machine is only related to the technological adaptation period to versioning or replacement.  There is no wear and tear on the machine because it can be continually reimaged.  Maintenance and other costs of the platform are part of a subscription and probably is the cost of service and not of a capital lease.  This idea is part of the amazing Energy String design that can be gained from particle formulation.



We have been discussing branching but not in terms of building an entire factory.  A factory floor could be organized with the further extension of the Gini system and operated remotely with site inspection.  In addition production sites for entertainment and product testing can also be established in the Virtual City Production area. 



Whatever we need to produce is built on a METAframe and acquires a field composition from the choice of the META materials used to comprise the buildout.  The speed at which the machine is maintained may be different from the way it is organized and built however the pattern from breaking and adapting the machine is left to the future design.

We had organized three manifold layers in order to determine how to increase the delivery time and reduce the scope of our projects  And we believe we went up to the second level for our machine because of the scope requirement.   If we use the example of 280 days /10/2.5 = 11.2 or one clock in a quantum production cycle.^  The way the process is run makes for a time variance that can be eliminated in the manner it is organized in the setup.



While we are possibly repeating this material, it is worth taking another look now at the progression.  This is because we need to remember that the progression is dependent on three progressions, and that the process has an interruption in it to bring in tooling, etc..



While it looks as though we have only assembled a cube we have defined a process that can be assimilated to develop a Qve Virtual Machine.  Qld Energy has within it a natural mirror that allows for Qld fusion of elements in order to make the product.

This mirror also permits re-imaging of the object and a continuous encryption.  Any type of production can be made with photosynthetic materials and this includes objects which live outside of the frame of the Quantum Virtual METAframe by having an internal frame that communicates and allows the object to move.  Working from various sides of difficult projects a manager can clone various project selves to observe the project and interface with teams as well as create interoperable points where inspections take place.

These ideas are possible because of the immediacy of the server technology. But the ability to produce the machine in a rapid build-out is highly dependent on the team servicing the project and the strategy used to produce it.  The team that can make the greatest use of the field will define their efforts with greater success.

Other types of String are discussed and among these types is Energy String which is a long-range type of string that allows for deployment beyond the facility. 

There is in addition the requirement to design and make Virtual Glass and to develop META Materials that suit various purposes, along with design of  enormous lines of products and concept architectures.

We hope that our discussion of Qve was interesting.  Please recall that Simulation is a very big part of development of the Quantum Cube.





Also Read:
Tales of the Encryption and Lies of the Lattice



Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental




^see interbranching in the next blog...

Tales of the Encryption and Lies of the Lattice

VI. Encryption: Maps, Models and Mirrors

EMS Features

Where is the mirror and how is it used
Best practice idea about encryption
Speed and Matrix definitions

Famous Encryptions
We went to school just in time to find out that Superman lost his powers when he was around kryptonite which acquired his hyper-molecular structure and weakened it, probably by pairing up with it.  But if the correct type of encryption had been used he might have danced around kryptonite all day long.

Apparently there are two things to think about with encryption and that is to secure something either permanently or temporary, a transitional or rho based configuration that moves in a random access pattern at the smallest metric level is the most primary key; and the speed of this encryption should exceed the pattern of the image or configured matrix.  This by the way, is how we are told RNA is protected.

We are emulating Qve Production:
So we've come into our Gap area and looked into our Pascal Branching to see what we can discover about Encryption while we are detailing the Branch Tables for Conversion of Production.  Right now we are working with a hard-wired board and a branch sequence that is untested.  So we are still scoping out the theory of what we think the Cube version of Production ought to tell us under certain conditions.  And we are building a process that runs on the Pascal Branches of the Cube like a configurator.

We believe that we are right at the point where the subassemblies would be added to the production and the gap is being accessed to input the Key map.  There are 66 keys which need to [ sequence to ] match up with our Call Table as we define this process from the last posted Map here:  Manifold Delivery in Qve




So here we are in the Gap Sequence of our Transition where we can note a sequence will be returned from the process that establishes that the scale is changing and 96 is returned 3x in a specific consequential formula.  Using the same parameters to produce the Object will return the table data we are expecting, and when the sequence comes up we can use it to lock our materials and our field (machine, etc.)

The final number we are looking for is our map.  The small numbers between 1 and 9 that appear as differences in figures can often be used to turn or position the product.  So our "standards" that we are using to develop this Qve Process are in effect driving the outcome.  They don't really become standards until they are proven with certainty within the actual configurator.

Now according to the way our Progression is run on the Cube, the First Run gives us our Transition base. And it is here that there is a Tally and comparison to our "Standard" Model.  We haven't yet called up our subassembly and we have not put in any elements that would change the basic glass we are working with;  This is the setup stage where the string is applied to the virtual model of the object.

In an untried operation we should simulate this many times before taking the object into production.  All of the sequences that lock in the material and apply the subassemblies and any fusion elements should be tested without applying cost or damaging the materials.  

We can put in sequencing series that enable all of the parts of a machine to correlate with one another by inputting a time bottle and setting it to run off of the permanent manifold or lie symmetry that will continually process through the operations and indicate the functional status of all the parts.  This is called the Gini process.

As we move to the subassembly state, we want to put in our proxy girl to take measures on several (milestones or) progress points and to slow or stop the process if something is out of order.  Since the process will be very fast, we can hardly expect to change it without an Intelligent Artiface to argue the task for us.  Proxy moves are discussed here: Managing the Adaptive Cycles of Qve

We know that our concept of producing Qve Virtual Machines is futuristic, but that is what makes the process both interesting and pointing to the way we should address Quantum Adaptation in the future.

In the meantime we can learn from following through with the hypothetical process thinking in the same way that computers were emulated from the beginning.  We are working on the Quantum Virtual Cube branch production emulation as we learn to encrypt and think through the use of manifolds and lattice arrangements.
We have to be good data miners and minders in order to get the operations out of the box.  That's why we are reminded that Lie Groups run like wheels within wheels in keeping track of time even as the machine is being delivered it should be informing the Team of the process.  The Lock sequence may be the most important fact regarding tensor structures there is and that needs to be closely encrypted.

How the machine operates with a field can also be important because many machines require platforms.
Some machines may apply sequences from the field.  So there are many Lie Group Timeseries to think about  And out of the random patterning of the group encryptions can be produced.

We want to study the Strategy for working through this process more in depth, next.  We had decided on a Manifold strategy for this Machine and will continue the discussion...

Also Read:

The Strategic Use of Content in Qve Productions

Disclaimer: Blog material is presented as the basis of discussion material and is not to be construed as advice, counsel or education, and may at times be misconstrued if read in a context different than the writer's intent. No portion of this blog has been knowingly reproduced. Any resemblance to a specific company or entity is purely coincidental