This is an excellent paper written by Ron Blue describing the process
of post quantum calculations using the Neutronics Technology.
This was actually a post Ron had submitted to a physics Newsgroup. At
the time of the writing Neutronics was a new company trying to get
interest generated in it's proprietary technology; Ron, being part of
the company was describing the technology in answer to a previous post
on the same Newsgroup.
Since this post many changes have taken place and Neutronics has faded
into the background. Ron and myself have taken on the responsibility to
re-work the technology and redefine some of the terms as to better
suite our concepts and methodologies. I believe these changes will help
communicate the technology to a 21st century audience.
SG. How about a stable 3.24 trillion
qubit analog machine?
A Post Quantum Mechanics View of The Neutronics Technologies
Corporation's Qchip
by Ron Blue
Copyright 1998
Permission granted to duplicate for nonprofit educational or research
purposes.
Post quantum mechanics suggest the universe is not what it seems to
be. We have local events and non-local events. The local
events can be described very well by the classical mechanical view of
reality. Non-local events describes very strange and unexpected
relationships which may include consciousness, teleportation of
information, and back action waves from the future.
It has been suggested that non-local events could be the
background of everything and the local events are the figure.
Such concepts are typical in psychology. You are seeing letters
as a figure and the background is the white page or screen. It is
possible to see the background as the figure and the figure as the
background.
The goal of developing a post quantum mechanical computer is an
exciting possibility. Most efforts have been directed toward
controlling a few atoms in a superposition state. Neutronics
Technologies Corporation directed the effort toward controlling 3.24
trillion qubits as if they were one. Since non-local effects
encode all local events and redundancy into one is permitted in quantum
mechanics, a simple procedure occurs to the informed mind.
The mind and consciousness is said by many to be a special example of
post quantum mechanics. Correlational Opponent-Processing
illustrated how the brain works and suggest procedures for generating a
post quantum processor. Consciousness is normally perceived as a
unity of one. Non-consciousness is a unity of one. It is assumed
that non-local and local quantum effects vary from on/off, and the
superposition of 1/2 up spin and 1/2 down spin. Another way of viewing
this is an analog signal which varies from nonexistence to existence,
or observed and not observed, or positive and
negative, or up and down. By using a neutral chamber where all
superposition states can exist and paralleling it with the other
neutral oppositional states in an entangled system of on and opposite
the door way to a quantum machine can be opened.
To accomplish this Neutronics Technologies uses charge stored in a NPN
transistor acting as a quantum gate. Little or no current flows
in the transistor. The transistor is surrounded by two entangled
system
connected to the transistor so that the transistor is acting as
background and oscillating string memory is stored in entangled
opposites. The clock speed allows all non-local quantum events
and the ratio weighted local quantum events to be stored or not stored
as a global two qbit quantum gate system. A global qbit in this case
consisting of harmonic quantum entangled memories approaching 3.24
trillion qubits. During the clock time the quantum information is
enhanced by local in contrast to the non-local. A
figure/background relationship is suggested in this relative
relationship. It is quantum
deterministic and quantum Gaussian Monto Carlo duality mixed
together. It is a super particle. It is a wavelet. It
is a cause. It is an effect. Noiseless coding of quantum
information is supported because the duality of the information is
stored into two opponent channels with the interaction between the
dualities in the non-local superposition of a neutral storage chamber.
The pure quantum signal states stored in the neural chamber are
holographic in nature since the smallest part can be used to retrieve
the whole. The part is the whole and the whole is the part.
The transistor gets extremely cold while operational probably because
of the large number of spin-half systems approaches 3.24 trillion
qubits ultimately effecting every electron in the transistor transition
neutral chamber. Quantum information and its purity will be
maintained even if the signal states are orthogonal and will maintain
the entangled system in both opponent dualities. The NTC's qchip is
really a Gaussian probabilistic machine suggesting that
the laws of chance are encoded into quantum information. This
does not mean that other world views are necessary but it more
accurately describes the wavelet nature of the universe. The
power of quantum computation in such a machine can not be
underestimated because modular decomposition between two interaction
wavelets allow any relationship to cohere into a oscillation, solitron,
psychon, or percepton in such a way that holographically all view
points are instantaneous stored by two interaction wavelets. The
qchip does not have to learn or experience everything in order to
produce a behavior. A function or solution to a problem is drawn
from the equiprobabilty from the gaussian or uniform
distribution. This means then that NTC's qchip would have more
complexity theoretic power than a probabilistic Turing machine.
The way the qchip computes is by presented new information to interact
with the quantum entangled stored information. This is done by
using the discrete quantum encoding by light to forward information on
to the charge stored in the neutral chamber. Like a charge
coupling device the interaction is forwarded in two opponent directions
in the duality storage oscillating string memories. The
interaction resets the entangled systems spin states of the
electrons. The interaction then stores past, present, and future
information in harmonic holographic entangled string
memories. In other words the universe encodes the memories
of its existence into the qchip which is acting like a gate way between
local and non-local worlds. The bits are dependent upon the
relative relationship and are store in a unitary relative associational
or correlational neutral state bounded by the entangled superpositions
in the qchip. Logical operations take place coherently as a
natural consequence of interacting entangled oppositional quantum
wavelets. No error correction are required because each step is
redundant and is the natural error correction of existence and
non-existance. While the clock speed is 28 hertz the interactions are
likely to be pico seconds range.
One of the key features of the configuration in the CORE processor is
the bistable coupled neutral opposite saturation of quantum states
working in automata relationship. Any new information creates
electrostatic perturbations causing all bistable cellular relationships
to become a new eigenstate with new charge density relationships. The
charge relationship is polarized and oppositely aligned in a mirror
relationship with the other bistable coupling in a non-linear
relationship resulting in a zero value across the total power spectrum
in the neutral chamber and the bistable coupled systems. What about
errors in the eigenstates? A good error correction code must be
consistent with reality. The universe is the global model.
A local situation is independent and dependent upon the global
model. If the global model causes the local, the local can not
exist. If the global model can not be influenced by the local,
the global model can not exist. Each model must be able to contribute
equally to each other in a relative
way. The equation T1= ((G-L)/2 + L) describes the relative
harmonic contribution to the local and gobal relationships. Any
Beable must be included in this relationship of superposition.
This is also the error correction code. Any local situation is
slowly adjusted to the global and the global is slowly adjusted to the
local. Many have suggested parallel universes this model suggest
only one universe constantly changing, learning, and evolving.
These relationships are like a perfect crystal with a slight
error. Time or the update of the current learned relationship
through out the universe is fixed. What that time is we can not
say, but the speed of light as a constant resultant of the cyclic
relationship is related. The error correction code then results
in a unitary mapping of the local condition and the global
condition. The beauty of the system is that any temporal
decoherence for a local bistable quantum relationship still allows the
whole to be faithfully reconstructed from a part into the corresponding
coherence-preserving states of the qubit-pairs.
The problem with the CORE processor is how do you get output from the
bounded bistable memory without decohering the entire memory. If the
system is decohered it will destroy all the information
stored in the superposition states of electrons in the neutral
chamber. Any decoherant event effects only the antiwavelet or
opposite event which acts as a filter allowing the total memory plus the
interaction of the decoherant event to be stored as a new memory.
In other words the information has to change/not change to prevent
total dechorence in the bistable memory. The results of this
protocol is
that motor control is tapped off the opposite bistable memory to
prevent decoherence. The eigenvalue of the unitary operator in
the bistable opposite system defends the system and maintains quantum
coherence. The dropping of the temperatures in the NPN transistor to a
very low level is suggestive of the unitary nature of the eigenvalues.
Heat then is resistance or a decoherent influence. Cold then is
quantum coherence and an eigenstate. Occasionally the
transistor will explode suggestive of a new state of matter that decays
radioactively. This reflects existence and non-existance.
The CORE processor can exist because it is a deterministic locally
interacting entangled system permitting a quantum parallel formalism.
The eigenvalues calculated by the CORE processor is only a doorway
for multiple dimensional eigenstates but looks like a one gate system
with the binary duality of opposites and relative neutrality. Notice
the eigenfunctions have the clock speed of 28 hertz to set
the new eigenvalues in the bistable interactions. The advantage
of a slow clock speed can only be appreciated with a comparison of the
amount of time that an experience can be stored in the ever changing
memory. A faster clock speed means the information can be lost
sooner. A slower clock speed means the memory can last
longer. Notice the eigenvalues of memory formation then can have
a higher clock speed than the reference clock speed.
The CORE processor is a fundamental quantum logic gate because it
allows either bistable relationship to configure itself in any internal
and external degrees of freedom for the single neutral chamber acting
as if it was a Bose-Einstein condensate or single particle, solitron,
or oscillon. It is neutral and is only a part of the dual
representations and transformations occurring in the bistable
relationships and is therefore a
controled-not gate since it is neutral but a neutronics dynamic system.
By being neutral it reflects a zero-point energy and possibly taps into
the zero-point energy of the universe. Quantum jumps and quantum
coherence must only occur within the frame of reference of the clock
speed of 28 hertz. Notice that the time to make an execution is
directly related to the time it takes to decoher a system. By
setting motor speed at 10 hertz which is faster than 28 hertz it can
not decoher the system. The computational time of 28 hertz then lead to
a very strong and significant quantum computer. The important
characteristics being that all calculations must have a shorter
duration than the standard universal speed of the bistable quantum
system. Problems are most likely to occur near the clock speed of
28 hertz. Notice this relationship is a top-down organization of
quantum algorithmic information. Information can exist as any linear or
non-linear wavelet within a 28 hertz quantum halting amplitude.
It should have become more apparent why the estimate of 3.24 trillion
qubits of information is a fair one for this bistable parallel
quantum-phase gate system. It takes three components to make a
bistable relationship. This local quantum computer then can be
programmed by learning to simulate any local quantum system. The
quantum gate develops into an entanglement which allows all possible
paths initiating from the light cone of the neutral chamber. This
is due in part to the strange wave/particle nature of the bistable
qchip resulting in a fluctuating analog/binary,
polarising/depolarising, fidelity of information/no information.
