psychoceramics: Re: Toward a Science of Consciousness 1998

[Eugene Leitl <e--@l--.genebee.msu.su>]

Ron Blue (not to be confused with Blue Resonant Human) speaks on
behalf of bionet.neuroscience, which, got lost in the Chinese Room 
suite.

ciao,
'gene

Ron Blue writes:
 > >>>>>>>>>>cut>>>>>>>>>
 > >Now all you AI researchers have to do is to develop a stable million
 > >channel analog computer to simulate a cat's consciousness.
 > >
 > >Bob
 > >>>>>>>>>>>cut>>>>>
 > 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.
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~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~
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